StemCell Therapy

Stem Cell Alopecia Treatment Market Overview

The Stem Cell Alopecia Treatment market report presents a detailed evaluation of the market. The report focuses on providing a holistic overview with a forecast period of the report extending from 2018 to 2026. The Stem Cell Alopecia Treatment market report includes analysis in terms of both quantitative and qualitative data, taking into factors such as Product pricing, Product penetration, Country GDP, movement of parent market & child markets, End application industries, etc. The report is defined by bifurcating various parts of the market into segments which provide an understanding of different aspects of the market.

The overall report is divided into the following primary sections: segments, market outlook, competitive landscape and company profiles. The segments cover various aspects of the market, from the trends that are affecting the market to major market players, in turn providing a well-rounded assessment of the market. In terms of the market outlook section, the report provides a study of the major market dynamics that are playing a substantial role in the market. The market outlook section is further categorized into sections; drivers, restraints, opportunities and challenges. The drivers and restraints cover the internal factors of the market whereas opportunities and challenges are the external factors that are affecting the market. The market outlook section also comprises Porters Five Forces analysis (which explains buyers bargaining power, suppliers bargaining power, threat of new entrants, threat of substitutes, and degree of competition in the Stem Cell Alopecia Treatment) in addition to the market dynamics.

Get Sample Copy with TOC of the Report to understand the structure of the complete report @ https://www.verifiedmarketresearch.com/download-sample/?rid=15102&utm_source=JLN&utm_medium=002

Leading Stem Cell Alopecia Treatment manufacturers/companies operating at both regional and global levels:

Stem Cell Alopecia Treatment Market Scope Of The Report

This report offers past, present as well as future analysis and estimates for the Stem Cell Alopecia Treatment market. The market estimates that are provided in the report are calculated through an exhaustive research methodology. The research methodology that is adopted involves multiple channels of research, chiefly primary interviews, secondary research and subject matter expert advice. The market estimates are calculated on the basis of the degree of impact of the current market dynamics along with various economic, social and political factors on the Stem Cell Alopecia Treatment market. Both positive as well as negative changes to the market are taken into consideration for the market estimates.

Stem Cell Alopecia Treatment Market Competitive Landscape & Company Profiles

The competitive landscape and company profile chapters of the market report are dedicated to the major players in the Stem Cell Alopecia Treatment market. An evaluation of these market players through their product benchmarking, key developments and financial statements sheds a light into the overall market evaluation. The company profile section also includes a SWOT analysis (top three companies) of these players. In addition, the companies that are provided in this section can be customized according to the clients requirements.

To get Incredible Discounts on this Premium Report, Click Here @ https://www.verifiedmarketresearch.com/ask-for-discount/?rid=15102&utm_source=JLN&utm_medium=002

Stem Cell Alopecia Treatment Market Research Methodology

The research methodology adopted for the analysis of the market involves the consolidation of various research considerations such as subject matter expert advice, primary and secondary research. Primary research involves the extraction of information through various aspects such as numerous telephonic interviews, industry experts, questionnaires and in some cases face-to-face interactions. Primary interviews are usually carried out on a continuous basis with industry experts in order to acquire a topical understanding of the market as well as to be able to substantiate the existing analysis of the data.

Subject matter expertise involves the validation of the key research findings that were attained from primary and secondary research. The subject matter experts that are consulted have extensive experience in the market research industry and the specific requirements of the clients are reviewed by the experts to check for completion of the market study. Secondary research used for the Stem Cell Alopecia Treatment market report includes sources such as press releases, company annual reports, and research papers that are related to the industry. Other sources can include government websites, industry magazines and associations for gathering more meticulous data. These multiple channels of research help to find as well as substantiate research findings.

Table of Content

1 Introduction of Stem Cell Alopecia Treatment Market

1.1 Overview of the Market1.2 Scope of Report1.3 Assumptions

2 Executive Summary

3 Research Methodology of Verified Market Research

3.1 Data Mining3.2 Validation3.3 Primary Interviews3.4 List of Data Sources

4 Stem Cell Alopecia Treatment Market Outlook

4.1 Overview4.2 Market Dynamics4.2.1 Drivers4.2.2 Restraints4.2.3 Opportunities4.3 Porters Five Force Model4.4 Value Chain Analysis

5 Stem Cell Alopecia Treatment Market, By Deployment Model

5.1 Overview

6 Stem Cell Alopecia Treatment Market, By Solution

6.1 Overview

7 Stem Cell Alopecia Treatment Market, By Vertical

7.1 Overview

8 Stem Cell Alopecia Treatment Market, By Geography

8.1 Overview8.2 North America8.2.1 U.S.8.2.2 Canada8.2.3 Mexico8.3 Europe8.3.1 Germany8.3.2 U.K.8.3.3 France8.3.4 Rest of Europe8.4 Asia Pacific8.4.1 China8.4.2 Japan8.4.3 India8.4.4 Rest of Asia Pacific8.5 Rest of the World8.5.1 Latin America8.5.2 Middle East

9 Stem Cell Alopecia Treatment Market Competitive Landscape

9.1 Overview9.2 Company Market Ranking9.3 Key Development Strategies

10 Company Profiles

10.1.1 Overview10.1.2 Financial Performance10.1.3 Product Outlook10.1.4 Key Developments

11 Appendix

11.1 Related Research

Customized Research Report Using Corporate Email Id @ https://www.verifiedmarketresearch.com/product/stem-cell-alopecia-treatment-market/?utm_source=JLN&utm_medium=002

About us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyse data on more than 15,000 high impact and niche markets. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise and years of collective experience to produce informative and accurate research.

Contact us:

Mr. Edwyne Fernandes

US: +1 (650)-781-4080UK: +44 (203)-411-9686APAC: +91 (902)-863-5784US Toll Free: +1 (800)-7821768

Email: [emailprotected]

Our Trending Reports

Neurotrophic Keratitis Treatment Market Size, Growth Analysis, Opportunities, Business Outlook and Forecast to 2026

Stem Cell Alopecia Treatment Market Size, Growth Analysis, Opportunities, Business Outlook and Forecast to 2026

Copper Busbar and Profiles Market Size, Growth Analysis, Opportunities, Business Outlook and Forecast to 2026

Link:
Stem Cell Alopecia Treatment Market Growth Trends, Key Players, Competitive Strategies and Forecasts to 2026 - Jewish Life News

AUTO1 continued favorable safety profile and high level of clinical activity, pivotal Phase 1b/2 AUTO1-AL1 program in adult ALL initiated and enrolling patients

- AUTO3 profile potentially supports use in a broader outpatient setting

Conference Call and Webcast to be held Friday, June 12, 2020at 7:30 am EDT / 12:30 pm BST

LONDON, June 12, 2020 --Autolus Therapeutics plc(Nasdaq: AUTL), a clinical-stage biopharmaceutical company developing next-generation programmed T cell therapies, today announced new data highlighting progress on its AUTO1 program, the companys CAR T cell therapy being investigated in the ongoing ALLCAR Phase 1 study of relapsed / refractory adult B-Acute Lymphocytic Leukemia (ALL), at the European Hematology Association EHA25 Virtual Congress beginning June 11.

AUTO1 in ALL

As of the data cut-off date ofMay 13, 2020, 19 patients had received AUTO1.AUTO1 was well tolerated, with no patients experiencing Grade 3 CRS. Three patients (16%) with high leukemia burden (>50% blasts) experienced Grade 3 neurotoxicity that resolved swiftly with the application of steroids. Of the 19 patients, 16 (84%) achieved MRD-negative CR.Two out of 16 patients received a transplant while in remission and CD19-negative relapse occurred in 3 (16%) patients. Durability of remissions is encouraging. Event Free Survival (EFS) and Overall Survival (OS) at 6 months are 62% and 72% respectively in all patients, and 76% and 92% respectively in the 13 patients treated with the closed (commercial) process. Median EFS and OS has not been reached, at a median follow up of 12.2 months (range up to 24.4 months).

I am very encouraged by the tolerable safety profile and high level of sustained CRs we have observed with AUTO1 in the ALLCAR19 study that was achieved without subsequent stem cell transplant, said Dr. Claire Roddie,Consultant Hematologist,UCL Cancer Institute and University College London Hospital.

Approximately 60% of adult ALL patients relapse or are refractory to first line therapy and there continues to exist a high unmet need, said Dr. Michael Bishop, MD, Professor of Medicine and Director of the Cellular Therapy Program atUniversity of Chicago Medicine.AUTO1 is a novel CD19 CAR T candidate with a compelling activity and safety profile and has the potential to change standard of care as a curative therapy for r/r ALL.

The data update on AUTO1 presented at this years EHA meeting show an encouraging durability of response without subsequent stem cell transplant and confirm the positive safety profile. said Dr.Christian Itin, chairman and chief executive officer of Autolus.We have started enrolment of patients with r/r aALL in our pivotal Phase 1b/2 AUTO1-AL1 study.

AUTO3 in DLBCL

Dr. Wendy Osborne presented ALEXANDER Phase 1/2 clinical trial data for AUTO3. This data is consistent with our update on May 29, 2020, with a data cut-off date of April 27, 2020.

These data are very encouraging, in terms of safety and tolerability, with a high level of clinical activity, said Dr. Wendy Osborne,Consultant Hematologist,Freeman Hospital, Newcastle upon Tyne Hospitals NHS Foundation Trust. We are looking forward to enrolling additional patients in the outpatient cohort.

Dr. Wendy Osborne of Newcastle upon Tyne Hospitals NHS Foundation Trust also discusses AUTO3 data during the American Society of Clinical Oncology (ASCO) Annual Meeting in this video courtesy of the Lymphoma Hub.

Investor call on Friday June 12, 2020

Management will host a conference call and webcast at7:30 am EDT/12:30 pm BST to discuss the EHA data. To listen to the webcast and view the accompanying slide presentation, please go to:https://www.autolus.com/investor-relations/news-and-events/events.

The call may also be accessed by dialing (866) 679-5407 for U.S. and Canada callers or (409) 217-8320 for international callers. Please reference conference ID 4838626. After the conference call, a replay will be available for one week. To access the replay, please dial (855) 859-2056 for U.S. and Canada callers or (404) 537-3406 for international callers. Please reference conference ID 4838626.

About Autolus Therapeutics plc

Autolus is a clinical-stage biopharmaceutical company developing next-generation, programmed T cell therapies for the treatment of cancer. Using a broad suite of proprietary and modular T cell programming technologies, the company is engineering precisely targeted, controlled and highly active T cell therapies that are designed to better recognize cancer cells, break down their defense mechanisms and eliminate these cells. Autolus has a pipeline of product candidates in development for the treatment of hematological malignancies and solid tumors. For more information please visit http://www.autolus.com.

About AUTO1

AUTO1 is a CD19 CAR T cell investigational therapy designed to overcome the limitations in safety - while maintaining similar levels of efficacy - compared to current CD19 CAR T cell therapies.Designed to have a fast target binding off-rate to minimize excessive activation of the programmed T cells, AUTO1 may reduce toxicity and be less prone to T cell exhaustion, which could enhance persistence and improve the ability of the programmed T cells to engage in serial killing of target cancer cells. AUTO1 is currently being evaluated in two Phase 1 studies, one in pediatric ALL and one in adult ALL. The company has also now progressed the program to a potential pivotal study, AUTO1-AL1.

About AUTO1-AL1 pivotal study

The AUTO1-AL1 study will enroll patients with relapsed / refractory ALL. The study will have a short Phase1b component prior to proceeding to a single arm Phase 2 study. The primary end point is overall response rate and the key secondary end points include duration of response MRD negative CR rate and safety. The study will enroll approximately 100 patients across 30 of the leading academic and non-academic centers in the US,UKandEurope.

About AUTO3

AUTO3 is a programmed T cell therapy containing two independent chimeric antigen receptors targeting CD19 and CD22 that have each been independently optimized for single target activity. By simultaneously targeting two B cell antigens, AUTO3 is designed to minimize relapse due to single antigen loss in patients with B cell malignancies. AUTO3 is currently being tested in diffuse large B cell lymphoma in the ALEXANDER clinical trial, with a 20-patient cohort that was initiated in Q2 2020 to assess feasibility of treatment in an outpatient setting.

Visit link:
Autolus Therapeutics presents AUTO1 and AUTO3 data at the 2020 EHA25 Virtual Congress Pivotal AUTO1 study in adult ALL patients enrolling -...

NantKwest, Inc. (Nasdaq: NK), a clinical-stage, natural killer cell-based therapeutics company, today announced the publication of two peer-reviewed manuscripts in the Journal of Immunotherapy of Cancer. These invitro and in-vivo studies, conducted in collaboration with the National Cancer Institute pursuant to a Cooperative Research and Development Agreement, support the mechanism and functionality of NantKwests clinical-stage engineered natural killer (NK) cell lines, haNK and first-in-class PD-L1 t-haNKTM, as effecting anti-tumor activity in treatment-refractory cancer types even in the hypoxemic setting of the solid tumor microenvironment.

"These published studies provide important insight and validation for the mechanism and activity of our novel first-in-class engineered NK cells for use in notoriously difficult solid tumor types," said Patrick Soon-Shiong, M.D., Chairman and Chief Executive Officer of NantKwest. "NK cells have the potential to kill tumor cells; however, the hypoxic nature of the suppressive tumor environment has been shown to curb primary NK cell function. These published data indicate that our engineered haNK cells remain active in hypoxic conditions, which may be an important new mechanism of its anti-tumor activity. In addition, our NK cells appear to be resistant even to acute hypoxia and are capable of maintaining tumor killing activity in conditions comparable to a suppressive tumor microenvironment."

Dr. Soon-Shiong continued, "In addition, we are encouraged to observe anti-tumor activity in every cancer cell line tested by the investigators at NCI. The positive data in the in-vivo models of solid tumors with PD-L1 t-haNK, our engineered haNK cell line that also expresses a PD-L1 CAR, provides a novel approach to target tumors expressing PD-L1. This highly targeted NK cell therapy has the potential to address the evolution of tumors as they become resistant to chemotherapy, antibody therapy and, ultimately, checkpoint immunotherapy. We have hypothesized that cancer undergoes a quantum change and adapts to the therapy administered, resulting in the selection of resistant, cancer stem-like cells. It is at this stage of evolution where intractable tumors such as in patients with metastatic pancreatic cancer and triple negative breast cancer, are deemed incurable. It is our belief that these cancer "stem" cells, which do not divide and hence are untouchable by chemotherapy, become resistant and render checkpoint therapy futile by not expressing t-cell receptor ligands. In the face of this immunosuppressive milieu, our PD-L1 t-haNK cells can act to kill these otherwise highly resistant cancer cells, as demonstrated by these two important reports by our colleagues at the NCI. Our clinical results in the first patient with advanced metastatic pancreatic cancer to have received PD-L1 t-haNK demonstrated a durable complete response."

Study highlights from the publication titled "Overcoming hypoxia-induced functional suppression of NK cells" include:

Study highlights from the article titled "PD-L1-targeting high-affinity NK cells (PD-L1 t-haNK) induce direct antitumor effects and target suppressive MDSC populations" include:

The articles may be found on the Publications section of the NantKwest corporate website here: https://nantkwest.com/peer-reviewed-publications/

About NantKwestNantKwest (NASDAQ: NK) is an innovative, clinical-stage immunotherapy company focused on harnessing the power of the innate immune system to treat cancer and virally-induced infectious diseases. NantKwest is the leading producer of clinical dose forms of off-the-shelf natural killer (NK) cell therapies. The activated NK cell platform is designed to destroy cancer and virally-infected cells. The safety of these optimized activated NK cellsas well as their activity against a broad range of cancershas been tested in Phase I clinical trials in Canada and Europe, as well as in multiple Phase I and II clinical trials in the United States. By leveraging an integrated and extensive genomics and transcriptomics discovery and development engine, together with a pipeline of multiple, clinical-stage, immuno-oncology programs, NantKwests goal is to transform medicine by delivering off-the-shelf, novel NK cell-based therapies to routine clinical care. NantKwest is a member of the NantWorks ecosystem of companies. For more information, please visit http://www.nantkwest.com.

Story continues

haNK is a registered trademark of NantKwest, Inc.

Forward-Looking Statements

This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements include statements concerning or implying that NantKwest will be successful in improving the treatment of cancer or other critical illnesses, including COVID-19. Risks and uncertainties related to these endeavors include, but are not limited to, obtaining FDA approval of NantKwests NK cells as well as other therapeutics and manufacturing challenges.

Forward-looking statements are based on managements current expectations and are subject to various risks and uncertainties that could cause actual results to differ materially and adversely from those expressed or implied by such forward-looking statements. Accordingly, these forward-looking statements do not constitute guarantees of future performance, and you are cautioned not to place undue reliance on these forward-looking statements.

These and other risks regarding NantKwests business are described in detail in its Securities and Exchange Commission filings, including in NantKwests Quarterly Report on Form 10-Q for the quarter ended March 31, 2020. These forward-looking statements speak only as of the date hereof, and we disclaim any obligation to update these statements except as may be required by law.

View source version on businesswire.com: https://www.businesswire.com/news/home/20200610005251/en/

Contacts

Jen Hodson NANT Jen@nant.com

See the original post:
NantKwest Announces Studies in Collaboration with the National Cancer Institute Demonstrating Enhanced Killing Activity of First-in-Class PD-L1 t-haNK...

GC027,the first humanized chimeric antigen receptor (CAR)-T cell therapy for relapsed/refractoryT-cell acute lymphoblastic leukemia (T-ALL) in adults, appears to be botheffective and have a manageable safety profile, according to research presentedduring the ASCO20 Virtual Scientific Program.

Mortalityrates are high in relapsed/refractory T-ALL, necessitating novel treatments toimprove survival. CD7, a T-cell antigen expressed in more than 95% of diseasesamples, represents a plausible target in this setting. GC027, which targetsCD7 and was developed using using lentivirus and CRISPR/Cas9, showed promise inmurine models for treating T-ALL.

For this single-arm, open-label study, researchers evaluated the safety and efficacy of GC027 in relapsed/refractory T-ALL. All included patients were between 18 and 70 years old, had a projected survival of more than 3 months, and had a performance status of 0 to 2. Patients with extramedullary disease or central nervous system involvement were not eligible to participate.

Fivemen (median age, 24 years) were enrolled in the trial. The median number ofprior lines of therapy was 5, no patients had undergone prior stem celltransplantation, and the median baseline bone marrow tumor burden was 38.2%.

All5 patients had a complete response or complete response with incomplete hematologicrecovery, and 4 of the 5 patients were minimal residual diseasenegative.

Allpatients also experienced grade 3 (4 patients) or 4 (1 patients) cytokinerelease syndrome; no grade 5 events of any kind were reported.

Witha single infusion of GC027, 80% of the patients had robust CAR-T cell expansionand achieved persistent [minimal residual diseasenegative complete response]without using any biologics as part of the preconditioning therapy or bridgingto [hematopoietic stem cell transplantation], the authors wrote.

Wang X, Li S, Gao L, et al. Safety and efficacy results of GC027: The first-in-human, universal CAR-T cell therapy for adult relapsed/refractory T-cell acute lymphoblastic leukemia (r/r T-ALL). Presented at: ASCO20 Virtual Scientific Program. J Clin Oncol. 2020;38(suppl): abstr 3013.

See the article here:
GC027 Shows Promise as Therapy for Adult Relapsed, Refractory T-Cell ALL - Hematology Advisor

Idecabtagene vicleucel (ide-cel; bb2121), a BCMA-targeting CAR T-cell therapy, yielded a response in73% of patients with heavily pretreated relapsed/refractory multiple myeloma, according to topline findings from the pivotal phase 2 KarMMA trial shared during the 2020 ASCO Virtual Scientific Program.

In the study, 33% of patients had a complete response with ide-cel. The median duration of response (DOR) was 10.7 months, and the median progression-free survival (PFS) was 8.8 months (95% CI, 5.6-11.6).

Ide-cel demonstrated frequent, deep, and durable responses in heavily pretreated, highly relapsed/refractory patients with myeloma, said Nikhil C. Munshi, MD, director of Basic and Correlative Science, Jerome Lipper Multiple Myeloma Center, Dana-Farber Cancer Institute, professor of Medicine, Harvard Medical School. Overall, ide-cel provides an attractive option for the treatment of patients with triple-class exposed relapsed/refractory myeloma.

In March 2020, Bristol Myers Squibb and bluebird bio, Inc., the codevelopers of ide-cel, submitted a Biologics License Application (BLA) to the FDA for the use of the CAR T-cell therapy as a treatment for adult patients with multiple myeloma who have received at least 3 prior therapies, including an immunomodulatory agent, a proteasome inhibitor, and an anti-CD38 antibody.

However, earlier this month, the FDA issued a Refusal to File letter to the companies regarding the BLA. In its initial review, the agency concluded that additional information was needed for the Chemistry, Manufacturing and Control module of the BLA. The FDA did not ask for any further clinical or nonclinical data according to the companies, which plan to resubmit the application by the end of July of this year.

The phase 2 KarMMA trial (NCT03361748) included 128 patients with relapsed/refractory multiple myeloma who received at least 3 prior therapies, including an immunomodulatory agent, a proteasome inhibitor, and an anti-CD38 antibody.

The median age was 61 months (range 33-78), 35% of patients had high-risk cytogenetics, 51% had high tumor burden, 39% had extramedullary disease, and 85% had 50% tumor BCMA expression. ECOG performance status was 0 (45%), 1 (53%), or 2 (2%). R-ISS disease stage was I (11%), 2 (70%), or III (16%). Patients had received a median of 6 (range, 3-16) prior antimyeloma regimens.

Ninety-four percent of patients had received 1 prior autologous stem cell transplant, and 34% had received more than 1. Eighty-eight percent of patients received bridging therapies during CAR T-cell manufacturing; however, only 4% of patients responded to the treatment. Regarding refractory status, 94% of patients were refractory to anti-CD38 antibodies and 84% were triple refractory.

Patients were treated at CAR+ T cell doses of 150 x 106 (n = 4), 300 x 106 (n = 70), or 450 x 106 (n = 54). The median follow-up was 18 months, 15.8 months, and 12.4 months, respectively. Across all patients, the median follow-up was 13.3 months. The primary end point was ORR, with secondary end points including CR, DOR, PFS, overall survival (OS), and quality of life.

Across all patients, the 73% ORR (95% CI, 65.8-81.1; P <.0001) included a 33% CR rate (95% CI, 24.7-40.9; P <.0001), a 20% very good partial response rate, and a 21% partial response rate. The overall CR rate comprised 26% of patients who achieved a CR/stringent CR (sCR) and were minimal residual disease (MRD)-negative, and 7% of patients who achieved a CR/sCR but who did not have MRD data. The median time to first response was 1 month (range, 0.5-8.8) and the median time to CR was 2.8 months (range, 1-11.8).

Durable responses were observed across all doses, said Munshi. At the dose of 450 x 106 CAR+ T cells, the ORR was 82% and the CR/sCR rate was 39%.

Clinically meaningful efficacy in terms of ORR was observed across subgroups, irrespective of age, risk categorization, tumor burden, BCMA expression level, extramedullary disease, triple-refractory status, penta-refractory status, and bridging therapy.

PFS increased as the target dose increased. At the 450 x 106 CAR+ T-cell dose, the median PFS was 12.1 months (95% CI, 8.8-12.3). The median PFS also increased by depth of response with a median of 20.2 months (95% CI, 12.3not evaluable) among patients who achieved a CR/sCR.

Munshi said the survival data are immature. At the time of the analysis, the median OS was 19.4 months (95% CI, 18.2not evaluable) and the 1-year OS rate was 78%.

Cytokine release syndrome (CRS) frequency increased with dose but was mostly low-grade, said Munshi. Overall, 84% of patients had 1 CRS event, with the majority (78%) being grade 1/2. There were 5 cases of grade 3 CRS, 1 case of grade 4, and 1 case of grade 5. The median time to onset of CRS was 1 day (range, 1-12), and the median duration of CRS was 5 days (range, 1-63). Fifty-two percent of patients received tocilizumab (Actemra) for CRS management, and 15% of patients received corticosteroids.

Neurotoxicity was mostly low grade and was similar across target doses, said Munshi. Overall, 18% of patients had 1 neurotoxicity event. There were 19 cases of grade 1/2 neurotoxicity and 4 cases of grade 3. There were no grade 4 or 5 incidents. The median time to onset of neurotoxicity was 2 days (range, 1-10), and the median duration was 3 days (range, 1-26). Two percent of patients received tocilizumab for neurotoxicity, and 8% of patients received corticosteroids.

The other significant adverse event, according to Munshi, was cytopenia91% of patients had any grade neutropenia (89% grade 3), and 63% (52% grade 3) had any grade thrombocytopenia. The median time to recovery of grade 3 neutropenia and thrombocytopenia was 2 months and 3 months, respectively, said Munshi.

There were 5 deaths within 8 weeks of ide-cel infusion2 following myeloma progression and 3 from AEs (CRS, aspergillus pneumonia, and GI hemorrhage). There was also 1 other AE-related death (CMV pneumonia) that occurred within 6 months, in the absence of myeloma progression.

Reference:

Munshi NC, Anderson Jr LD, Jagannath S, et al. Idecabtagene vicleucel (ide-cel; bb2121), a BCMA-targeted CAR T-cell therapy, in patients with relapsed and refractory multiple myeloma (RRMM): Initial KarMMa results. Presented at: 2020 ASCO Virtual Scientific Program; May 29-31, 2020. Abstract 8503.

Read the rest here:
Ide-cel Appears Active in Almost Three-Fourths of Heavily Pretreated Patients with Myeloma - Cancer Network

Have a question about coronavirus, also known as COVID-19?

We will ask the experts.

Send questions to tribdem@tribdem.com.

A reader of The Tribune-Democrat asked:

If you have been around someone with COVID-19 antibodies, do you have to quarantine?

The answer:

SARS-CoV-2 (COVID-19) antibodies include IgM and IgG. IgM is usually the first antibody produced by the immune system when a virus attacks. A positive IgM test indicates that you may have been infected and that your immune system has started responding to the virus.

IgM detection with COVID-19 is a median five days (range three to six days). IgG antibodies are detected in most patients 10 to 21 days (median 14 days) after symptoms of COVID-19 begin. IgG antibodies remain in the blood after the infection has passed.

IgG antibodies also indicate that you may have had COVID-19 in the past, and these antibodies may protect you from future infection. It is unknown at this time how much protection antibodies might provide against reinfection.

If the individual had a positive IgM antibody test, I recommend a molecular Polymerase Chain Reaction (PCR) swab test and quarantine until the PCR test result is available.

If the individual had a positive IgG antibody test and symptoms such as fever, cough and/or shortness of breath 10 to 21 days ago, I also recommend a PCR swab test and quarantine until the PCR result is available.

If the individual has positive IgG antibodies, no recent symptoms and no fever, then no further testing is indicated and quarantine is not necessary.

In summary, it depends on which antibody was detected and if the individual had recent COVID-19 symptoms and/or fever.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

If two relatives had coronavirus and are now negative, am I safe to be with them if I have not?

The answer:

A recent study from the Korean Centers for Disease Control and Prevention tracked 285 COVID-19 survivors who had tested positive for the coronavirus after their illness had apparently resolved, as indicated by a previous negative test result. The virus samples collected from them couldnt be grown in culture, indicating the patients were shedding non-infectious or dead virus particles.

So once you recover, and you have no symptoms or fever, its safe to go out in public. However, I would recommend continuing to follow CDC precautions, including social distancing, good hand-washing hygiene, and wearing a face mask.

Since the pandemic was just recently declared on March 11, there is no data on long-term immune response.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

After much concentration with social distancing and staying at home I inadvertently drank from a soda my granddaughter had been drinking from. She is from a family of four with no apparent symptoms. I am 70 years old with Type 2 diabetes. Is there testing we should have done following this incident or any additional measures? Im nervous that after all my efforts the past 2 1/2 months that I will contract the virus.

The answer:

I congratulate you on all your efforts and safe practices. In my opinion, no testing is indicated unless you develop any symptoms or fever, and no additional measures are needed.

I believe your risk is very low concerning the one incident which you described, and I would not worry. I do recommend that you continue social distancing, good hand washing hygiene, and wearing a face mask. Youre doing a great job!

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

My employer has required me to havetwo negative tests before returning to work. How long do I have to wait after my first negative test before I can get my second test?

The answer:

The CDC has placed guidelines concerning returning to work after recovery from COVID-19.

These guidelines state that an individual should havetwo consecutive negative results of an FDA-approved COVID-19 molecular assay for detection of SARS-CoV-2 RNA from at least two consecutive respiratory specimens collected greater than 24 hours apart.

Therefore, the least amount of time between testing that can occur is 25 hours.

It is important to point out that an individual must havetwo consecutive negative tests, and results for these tests can take several days to be returned to the individual.

Jill D. Henning, associate professor of biology, University of Pittsburgh at Johnstown.

I am a personal trainer who has had an 89-year-old client request that I come to her home to train her. Besides being a trainer, I also have a part-time job at a regional airport near my home where I handle bagsand check in passengers, as well as cleaning the plane. I am very careful when I work about wearing a mask, gloves, using social distancing and washing my hands. Is it safe for my client if I train her?

The answer:

Im glad that you are using personal protective equipment (PPE) and practicing good hand-washing hygiene. The question of risk exposure for an 89-year-old individual is not insignificant, even though you are taking appropriate precautions.

In the United States, the highest incidence of severe outcomes with COVID-19 were in patients older than 85. Therefore, visitors other than caregivers are not recommended.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

I am 75 and have Post Polio Syndrome, chronic bronchitis and shingles. My husband is going back to work at an auto glass manufacturer. How can I isolate in my home? We also have three dogs. Could they carry the virus to me if he gets sick?

The answer:

Self-isolate in a private room and use a private bathroom, if possible. Wear a mask when you enter general living areas. Follow other Pennsylvania Department of Health and CDC recommendations and precautions including good hand-washing hygiene and frequently clean with a sanitizer common surfaces you may both touch.

CDC is aware of a small number of pets worldwide, including cats and dogs, reported to be infected with the virus that causes COVID-19, mostly after close contact with people with COVID-19. Based on the limited information available to date, the risk of animals spreading COVID-19 to people is considered to be low.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

I have symptoms of COVID-19 and am scheduled to do my test this morning. It will taketwo days to get results. Is it safe to use my inhaler and nasal spray? And if my test is positive, is it safe to use my inhaler and nasal spray?

The answer:

Im not aware of any inhaler and/or nasal spray contraindications with SARS-CoV-2 (COVID-19). I recommend that you follow-up with your primary care physician.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

If the virus has a very short life in/on non-living environments, why is it so important to deep clean spaces that have been vacated for several months?

Wouldnt routine cleaning suffice before the space is occupied again?

The answer:

Cleaning spaces that have been vacant for several months with a deep cleaning is a good idea in general. Many microbes could be present on these surfaces (Staphyloccous and Streptococcus species for example).

There have been news stories circulating that the CDC has changed their guidelines on how SARS CoV-2 spreads. This is untrue. The CDC merely placed the contaminated surfaces under a subcategory stating that the virus does not easily spread via contaminated surfaces. Both the old and new versions of the recommendations state that it is known that the virus can survive on contaminated surfaces for hours to days depending on the surface.

The best way to reduce risk of infection is to wash your hands regularly and clean surfaces with soap and water followed by a disinfectant.

Jill D. Henning, associate professor of biology, University of Pittsburgh at Johnstown.

My husband had COVID-19 symptoms, a sore throat,and because he is 63 years old, we wanted to check to see if he is OK. His results came back positive and he is on a 14-day quarantine. We have now all been tested in the family. So far my youngest daughters results came back negative. Should she move out to be safe?

The answer:

I am assuming the test that all of you received was the genome test. If your husband was positive for the genome, that is indicative of an active infection. This means he is contagious. He needs to quarantine himself and limit the exposure to other family members. It is recommended that high-touch surfaces be cleaned multiple times a day as well.

It is prudent for your daughter (and any other family member who tested negative) to self-isolate in a separate part of the home. Since she is currently living in your home and your husband tested positive, there may have been exposure to SARS CoV-2 since the testing. Testing gives us a snapshot of what is occurring, and since you are all in the same household, there could have been exposure after testing.

If she has a place to go to for 14 days where she is not risking exposure to others, you may want to consider having her go there.

Jill D. Henning, associate professor of biology, University of Pittsburgh at Johnstown.

If I pick up the virus from someone at noon, how soon do I start infecting others?

The answer:

A small number of studies suggest that some people can be contagious during the incubation period, the time between exposure to the virus and the onset of symptoms. The incubation period for SARS-CoV-2 (also known as the COVID-19 virus) is estimated to be between two and 14 days, with a median of five to seven days (possibly longer in children). Greater than 95% of patients develop symptoms within 10-12 days of infection.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

My ex and I have shared custody. She just called to say shes in quarantine waiting for COVID-19 test results. I have the children now, but she had them last week before her quarantine.

Do we need to quarantine now until we hear her results? From a concerned father.

The answer:

Yes, self-isolate to your home while you wait for her results. Whoever else lives in your home should also stay at home. Close contacts are people who have been withinsix feet of you for a period of 10 minutes or more. If you or the children develop symptoms, notify your health-care provider for instructions and testing.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

How can I keep COVID-19 from spreading in my home once I turn on my whole-house air conditioning? My husband works and I am doing my best to isolate him in his room and a bathroom across the hall.

The answer:

There have been two studies that show the airborne droplets containing SARS-CoV2 can spread farther than six feet when the airflow in a room is increased (either from an air conditioner or a heating system). These systems often draw air in from a room and cool it, sending the cool air throughout the home and the heat outside. This type of system has the potential to circulate the virus in a home if someone is infected.

A study out of the University of Oregon together with the University of California-Davis says the best way to reduce the spread of the virus and still ventilate a room is to open a window. Opening a window in the home will reduce the possible virus concentration by increasing the concentration of air from the outside.

If you cant open the window (allergies, asthma, 95-degree heat) and there is concern that someone in the home is infected (showing symptoms, asymptomatic or exposed), you could block the intake vent in the room(s) that individual is isolating in.

Duct tape can cover the vent and help to reduce the spread of the virus through the home.

Jill D. Henning, associate professor of biology, University of Pittsburgh at Johnstown.

Is there a COVID-19 test my 3-year-old grandson can take that would allow him to stay with us for a day or two if he tests negative? I am 71, and would do anything to see him again.

The answer:

Molecular (Polymerase Chain Reaction PCR) swab test detects RNA from SARS-CoV-2, also known as the COVID-19 virus. If the PCR is positive, the patient is considered infected with the COVID-19 virus and presumed to be contagious.

You mention testing your grandson, but also consider testing the grandparents as well. However, it is important to emphasize that a negative PCR does not exclude COVID-19.

Also, realize that the mean incubation period for COVID-19 is five days, and the range can be two to 14 days. This means that a negative result does not rule out infection.

Dr. David Csikos, chief medical officer, Chan Soon-Shiong Medical Center at Windber.

If a persons antibody IgGand IgM came back positive, are they able to spread the virus because of the IGM result?

The answer:

Testing shows us a snapshot of what is happening with a person andhis/her course of disease. The two types of antibody tests are looking for a particular type of immune response.

When we are exposed to a pathogenic microbe, our immune system has two ways to defeat it.

The first is called the innate response. This response is encoded in our DNA as a human.

Visit link:
Experts answer your COVID-19 questions: 'If two relatives had coronavirus and are now negative, am I safe to be with them if I have not?' -...

INTRODUCTION

Embryonic development is characterized by the temporal and spatial regulation of cell proliferation, migration, differentiation, and tissue formation. Although these processes are genetically determined, several signaling mechanisms including Wnt have been recognized as essential in regulating cell lineage specification and organogenesis (13).

The Na/Kadenosine triphosphatase (ATPase) (NKA), discovered in crab nerve fibers by Skou (4), belongs to the P-type ATPase superfamily. It has an enzymatic function that couples adenosine 5-triphosphate (ATP) hydrolysis to the transmembrane movement of Na+ and K+ in a cell lineagedependent manner. For example, while the NKA is involved in the formation of action potentials in excitable cells, its polarized distribution is key to the functionality of the epithelium.

In addition to its canonical enzymatic function, we and others have shown that the NKA has an enzymatic activityindependent signaling function through its interactions with membrane cholesterol and proteins such as Src, epidermal growth factor (EGF) receptor, and caveolin-1 (58). We use the term signaling with liberty here, referring to the ability of NKA to work as a receptor, a scaffold, and a signal integrator by regulating the functions of its interacting proteins. This newly appreciated signaling function of the NKA has been implicated in several cellular processes (912). However, direct genetic evidence supporting a role for NKA signaling in animal physiology and disease progression is still lacking. This is due, in part, to the technical difficulties in studying its signaling separately from its ATPase-mediated pumping function because the latter is required for the survival of animal cells (13). Fundamentally, it is unknown whether the signaling function is an intrinsic property of the protein NKA, as its Na+- and K+-driven enzymatic activity has been recognized as. Therefore, we were prompted to address two important questions: (i) Were the signaling and Na+/K+ transport functions of the NKA coevolved? (ii) If so, does the signaling function of NKA represent a primordial yet common mechanism for the regulation of a fundamental process in animal biology?

Structurally, the NKA is composed of both and subunits. The subunit contains the binding sites for Na+/K+ as well as ouabain, which are distinct from that of other P-type ATPases (14). It also has an N-terminal caveolin binding motif (CBM) proximal to the first transmembrane helix (fig. S1A). To assess the functionality of this motif, we made F97A and F100A mutations that map to the rat 1 NKA sequence. This strategy has been used by others to study the function of CBM in proteins other than the NKA (15). We used a knockdown and rescue protocol to generate a stable cell line (LW-mCBM) that essentially expresses just the CBM mutant 1, which was confirmed using [3H]ouabain binding assays (fig. S1B). Western blot and confocal imaging analyses showed that the expression of mutant 1 NKA in LW-mCBM was comparable to that in the control cell line, named AAC-19 cells (fig. S1, B and C). The expression of CBM mutant 1 was sufficient to restore the expression of the 1 subunit of the NKA, allowing normal plasma membrane targeting of the CBM mutant NKA in LW-mCBM cells (fig. S1, C and D). The successful generation of a stable CBM mutant 1 cell line suggests that the CBM is not essential for the enzymatic activity of the NKA because the ion-transporting function is necessary for animal cell survival (13). In further support, we conducted kinetic studies of the CBM mutant NKA. As shown in Fig. 1A, the overall enzymatic activity per unit of 1 NKA expression was identical between the control AAC-19 and LW-mCBM cells. The Km values of Na+, K+, and ouabain were comparable between the CBM mutant NKA and control (Fig. 1, B to D) (16). Together, these data indicate that the N-terminal CBM is not directly involved in the regulation of the enzymatic properties of the NKA.

(A) Crude membrane preparations were made from AAC-19 and LW-mCBM cells and measured for ouabain-sensitive ATPase activity as described in Material and Methods. (B) Ouabain concentration curve. Crude membrane from LW-mCBM cells was prepared and measured for ATPase activity in the presence of different concentrations of ouabain. Data are shown as percentage of control, and each point represents three independent experiments. Curve fit analysis and IC50 (median inhibitory concentration) were calculated by GraphPad. (C and D) Measurements of Na+ and K+ Km. Assays were done as in (B). The combined data were collected from at least three repeats, and Km value (means SEM) was calculated using GraphPad.

On the basis of the above, we next turned our attention to determining the effects of the CBM mutation on signaling capabilities of the 1 NKA. Specifically, we first conducted immunoprecipitation experiments. As we reported previously in many types of cells (8), immunoprecipitation of caveolin-1 coprecipitated 1 in AAC-19 cells. In contrast, mutation of the CBM resulted in an over 80% decrease in coprecipitated 1 in LW-mCBM cells (Fig. 2A).

(A) Cell lysates from AAC-19 and LW-mCBM were immunoprecipitated (IP) with polyclonal anticaveolin-1 antibody. Immunoprecipitated complex was analyzed by Western blot for 1 and caveolin-1 (n = 4). **P < 0.01 compared to AAC-19. (B) Cell lysates from AAC-19 and LW-mCBM cells were subjected to sucrose gradient fractionation as described in Materials and Methods. A representative Western blot of three independent experiments was shown. **P < 0.01 in comparison to AAC-19. (C) AAC-19 and LW-mCBM cells were treated with different concentrations of ouabain for 10 min and analyzed by Western blot. A representative Western blot was shown (n = 4). *P < 0.05 versus 0 mM ouabain. (D) Cell growth curves of AAC-19 and LW-mCBM. *P < 0.05 versus AAC-19 cells. (E) BrdU assay of AAC-19 and LW-mCBM. The values are means SEM from at least three independent experiments. Photo credit: Xiaoliang Wang, Marshall Institute for Interdisciplinary Research at Marshall University.

To substantiate these observations, we next conducted a detergent-free and carbonate-based density gradient fractionation procedure and found that 1 NKA and its main signaling partners (Src and caveolin-1) were co-enriched in the low-density caveolar fractions, as previously reported in epithelial cells (8, 17). In sharp contrast, the expression of the CBM mutant 1 caused the redistribution of these proteins from low-density to high-density fractions (Fig. 2B). Quantitatively, when the ratios of fraction 4/5 of each protein versus total were calculated, we found that the low-density fraction 4/5 prepared from the control AAC-19 cells contained ~60, ~70, and 80% of caveolin-1, Src, and 1 NKA, respectively. However, in LW-mCBM cells, only ~20% of caveolin-1, Src, and 1 NKA were detected in fraction 4/5 (Fig. 2B).

To address the functional consequences of the dissociation of the 1 NKA from its signaling partners in LW-mCBM cells, we exposed these cells to ouabain, a specific agonist of the receptor NKA/Src complex. As shown in Fig. 2C, while ouabain stimulated phosphorylation of extracellular signalregulated kinase (ERK), a downstream effector of the NKA/Src signaling pathway in AAC-19 cells (5, 8), it failed to do so in LW-mCBM cells.

We have previously shown that 1 NKA signaling is key to the dynamic regulation of cell growth (16, 18). As shown in Fig. 2D, LW-mCBM cells grew much slower than AAC-19 cells. 5-Bromo-2-deoxyuridine (BrdU) incorporation assays further verified that the expression of CBM mutant 1 resulted in an inhibition of cellular proliferation (Fig. 2E). In short, the above in vitro experiments indicate that the gain of CBM enables the NKA to perform the enzymatic activityindependent signaling functions.

With the preceding in vitro data suggesting that the CBM is critically important to the signaling function of the NKA, we next set forth to test the physiological significance of this finding. Thus, we generated a knock-in mouse line expressing the aforementioned CBM mutant 1. The CBM mutant (mCBM) mouse was generated using the Cre/LoxP gene targeting strategy (19), as depicted in fig. S2A. The chimeric offspring were crossed to C57BL6 females to yield mCBM heterozygous mice, and the desired F97A and F100A substitutions were verified (fig. S2B). mCBM heterozygous mice were born fertile and survived to adulthood. Our attempts to generate mCBM homozygous mice yielded no viable homozygous pups (Fig. 3A) in nearly 400 young mice genotyped by polymerase chain reaction (PCR). These results document for the first time that the CBM in the 1 subunit of the NKA represents a fundamental signaling mechanism essential for mouse embryonic development and survival.

(A) Early embryonic lethality of mCBM homozygous embryos. (B) Morphological comparison and body size of wild-type (WT) (top), heterozygous (middle), and homozygous (bottom) mCBM embryos at E9.5. Black bars, 0.3 mm. The arrows show the abnormal head morphology. Body size was measured from at least 12 embryos in different genotypes by ImageJ. Data are presented as means SEM. ***P < 0.01 versus the average of WT. (C) Sagittal sections of WT and homozygous (Homo) and heterozygous (Het) embryos at E9.5 with hematoxylin and eosin (H&E) staining. Homozygous embryos that had defective brain development indicated by open arrows. (D) Brain cross section of WT, homozygous, and heterozygous embryos at E9.5 with H&E staining. Homozygous embryos that had unclosed neural tube in forebrain, midbrain, and hindbrain were indicated by arrows; WT and heterozygous E9.5 embryos with closed neural tube were indicated by arrowhead. (E) Morphological comparison of WT and Na/K-ATPase 1 (+/) embryos at E9.5. White bars, 0.3 mm (n = 5 to 7). Photo credit: Xiaoliang Wang, Marshall Institute for Interdisciplinary Research at Marshall University.

There is evidence that endogenous ouabain is important in animal physiology because of its role in stimulating the signaling function of the NKA (10, 19, 20). Because the loss of the CBM abolishes ouabain-induced signal transduction in vitro, we tested whether administration of pNaKtide, a specific inhibitor of the receptor NKA/Src complex (21), would cause the same embryonic lethality as we observed in mCBM mice. As depicted in fig. S3, we observed no change in fetal survival after administration of pNaKtide to female mice before mating and continued until the end of pregnancy. It is important to mention that pNaKtide has been proven to be specific and effective in blocking the NKA/Src receptor signaling in vivo (2226), and our control experiments showed that pNaKtide could cross the placental barrier. Moreover, this lack of pNaKtide effect on mouse embryogenesis appears to be consistent with a previous report demonstrating that neutralization of endogenous ouabain by injection of an anti-ouabain antibody did affect the kidney development of neonatal mice but did not affect their overall survival (20). On the basis of these, we concluded that the NKA/Src receptor function in the CBM mutant embryo was not the direct cause of lethality and set out to identify a hitherto unrecognized NKA CBM-dependent yet NKA-Srcindependent underlying mechanism.

Embryo implantation within mice occurs around embryonic day 4.5 (E4.5) (27), followed by gastrulation around E5.5 to E7.5 (28), when the simple embryo develops into an organized and patterned structure with three germ layers (29). Subsequently, organogenesis takes place at E8.0 and onward; the patterned embryo starts to develop its organ systems including the brain, heart, limbs, and spinal cord.

To further analyze and explore the molecular mechanisms of the CBM mutation in the embryonic development of mice, we harvested the fertilized eggs at E1.5, and cultured them in vitro. It has previously been demonstrated that 1 knockout results in the failure of blastocyst formation (13). In contrast, we found that eggs from mCBM heterozygous parents developed into morphologically normal blastocysts. These findings indicate that loss of the CBM does not affect the molecular mechanisms necessary for blastocyst formation. Thus, a loss of functional 1 CBM and complete knockout of 1 NKA both result in embryonic lethality but differ by their specific mechanisms. Knockout of 1 NKA inevitably causes the loss of NKA enzymatic function, which is incompatible with life (13), and results in the failure of blastocyst formation in mice. In contrast, our in vitro data indicate that a loss of the CBM does not cause any notable alteration in NKA enzymatic activity, which is supported by the observation that mCBM mice are still capable of producing morphologically normal blastocysts. Consequently, CBM role in development appears to be critical at a developmental stage beyond blastocyst stage, and we further set out to identify this stage.

To this end, we collected and genotyped embryos or yolk sacs from mCBM heterozygous mice at different days of gestation. We first dissected 31 embryos at E12.5 from three different mice (Fig. 3A). Reabsorption and empty deciduae were observed in six implantation sites with only the mothers genotype detectable. At E9.5, we were able to dissect a total of 303 embryos. Sixty-four of them were mCBM homozygous (21%), 71 were wild-type (23%), and 168 were mCBM heterozygous (55%) (Fig. 3A).

To further analyze the embryonic developmental defects, we examined mCBM embryos at E7.5, E8.5, and E9.5. The embryos looked similar between wild-type and mCBM homozygous mice at E7.5 and E8.5 under dissection microscopy. However, we found several severe morphological defects in homozygous embryos at E9.5 (Fig. 3, C and D). First, the overall size of embryos was considerably reduced in mCBM homozygous embryos (about 35% the size of the wild-type embryos). In addition, the observed effect of the CBM mutant on embryonic size was gene dose dependent, as the mCBM heterozygous embryos were significantly smaller than those of wild-type embryos but much bigger than the homozygous embryos. Second, most homozygous embryos did not turn, a process normally initiated at E8.5, suggesting that the loss of a functional CBM was responsible for a developmental arrest at an early stage of organogenesis. Last, the most severe morphological defects were observed in the heads of the mCBM homozygous embryos. In addition to the reduced size (about 25% of the size of wild-type embryos), we observed that mCBM homozygous embryos failed to close their cephalic neural folds (anterior neuropore) as indicated by the arrow in Fig. 3B. This phenotype more closely resembled wild-type embryos at E8.0 to E8.5, suggesting again that the loss of CBM arrested organogenesis in its early stages. On the other hand, all heterozygous embryos, although smaller than wild-type embryos, showed normal head morphology (Fig. 3B).

To follow up on the above observations, we collected and made histological sections of wild-type, heterozygous, and homozygous embryos at E9.5 (Fig. 3, C and D). Normally, formation and closure of the anterior neuropore occurs at E9.5 (Fig. 3D). In sharp contrast, mCBM homozygous embryos developed defects in neural closure. Specifically, failure of neural tube closure at the level of forebrain, midbrain, and hindbrain was prominent in homozygous embryos (Fig. 3D).

To further explore the molecular mechanism by which the loss of the CBM led to defects in organogenesis, we next conducted RNA sequencing analyses (RNAseq) in wild-type and mCBM homozygous embryos. More than 17,000 genes were read out in either mCBM homozygous or wild-type samples. Data analyses indicated that 214 and 208 genes from mCBM homozygous embryos were significantly down- and up-regulated, respectively (fig. S4). Among them, the expression of a cluster of transcriptional factors important for neurogenesis was significantly reduced. As depicted in Fig. 4A, the expression of neurogenin 1 and 2 (Ngn1/2), two basic helix-loop-helix (bHLH) transcriptional factors (30), was significantly down-regulated in homozygous embryos. Ngn1/2 are considered to be determination factors for neurogenesis, while members of the NeuroD family of bHLH work downstream to promote neuronal differentiation (31). We found that the expression of NeuroD1/4 was further reduced in mCBM homozygous embryos. As expected from these findings, the marker of neural stem cells nestin (Nes) and other genes related to neurogenesis including huntington-associated protein 1 (Hap1), nuclear receptor subfamily 2 group E members 1 (Nr2e1), and adhesion G protein (heterotrimeric guanine nucleotidebinding protein)coupled receptor (Adgrb1) were all down-regulated in mCBM homozygous embryos (Fig. 4A). To verify these data, we performed reverse transcription quantitative PCR (RT-qPCR) analyses of both wild-type and mCBM homozygous embryos collected at E9.5. As depicted in Fig. 4 (B to D), the aforementioned transcriptional factors were all down-regulated in a cascade fashion. While a modest reduction was found with Ngn1/2, the expression of NeuroD1/4 was almost completely inhibited. To test whether the effects of the CBM mutation on the expression levels of these transcriptional factors were gene dose dependent, we also examined mRNA levels of Ngn1/2 and NeuroD1/4 in mCBM heterozygous embryos. As depicted in Fig. 4 (B and C), the expression of these genes followed the pattern found in homozygous embryos. The expression level in heterozygous embryos was significantly reduced compared to wild-type embryos but was much higher than that of mCBM homozygous embryos. These gene dosingdependent cascade effects suggest that the 1 NKA is an important upstream regulator but not a determinant of neurogenesis like Ngn1/2 (32) or a key receptor mechanism like Wnt is.

(A) RNAseq results of several neurogenesis and neural stem cell markers. Log2 ratio = 1 means twofold of change. *P < 0.05 compared to WT. (B and C) RT-qPCR analysis of selected gene expression in WT, heterozygous, and homozygous mCBM embryos at E9.5. (D) RT-qPCR analysis of neural stem cell marker gene expression in WT and homozygous mCBM E9.5 embryos. (E) RT-qPCR analysis of neurogenesis marker genes in WT and NKA 1+/ mouse E9.5 embryos. Quantitative data are presented as means SEM from at least six independent experiments. *P < 0.05, **P < 0.01 versus WT control.

As a control, we also assessed the expression of different isoforms of NKA and caveolin-1. As depicted in fig. S5, no changes were detected in the expression of the 1 isoform of the NKA. This is expected, as the mutations were only expressed on exon 4. Previous reports have demonstrated that, in addition to the 1 isoform, neurons also express the 3 isoform, while muscle and glial cells express the 2 isoform of the NKA (9). No difference was observed in the expression of 3, while the expression of 2 was too low to be measured. We were also unable to detect any change in the expression of caveolin-1.

The total amount of protein recognized by the anti-NKA 1 antibody is unchanged in mCBM heterozygous mouse tissues compared to that of the wild type, albeit with changes in distribution in caveolar versus noncaveolar fractions. This indicates that the CBM mutant protein is fully expressed, as observed in cells (fig. S1), and further demonstrates that a reduction of enzymatic activity is not responsible for the observed phenotype in mCBM homozygous embryos. However, because the expression of wild-type 1 in mCBM heterozygous animals is most likely reduced, the phenotypic changes we observed in these mice could be due to the reduction of wild-type 1 expression rather than the expression of CBM mutant 1. To address this important issue, we collected embryos from 1 NKA heterozygous (1+/) mice and their littermate controls (33). In contrast to mCBM heterozygotes, reduction of 1 expression alone did not change the size of embryos (Fig. 3D), head morphology, or the expression of neuronal transcriptional factors (Fig. 4E). Because NKA 1 haploinsufficiency did not phenocopy mCBM heterozygosity, it was concluded that the mCBM allele was responsible for the observed changes.

The CBM in NKA has a consensus sequence of FCxxxFGGF (fig. S6). To assess the generality of CBM-mediated regulation, we first turned to the conserveness of the CBM in animal NKA. A database search reveals that, like Wnt, the mature form of NKA (i.e., containing CBM, Na+/K+ binding sites, and subunit) is absent in unicellular organisms but present in all multicellular organisms within animal kingdom (fig. S6). Further analysis of published data confirms the coevolutionary nature of the CBM and the binding sites for Na+ and K+ in the NKA. The first indication is from the analysis of single-cell organisms. No mature form of NKA is found in these organisms (fig. S6A). However, Salpingoeca rosetta, a marine eukaryote belonging to the Choanoflagellates class, undergoes a very primitive level of cell differentiation and specialization in their life cycle and expresses a putative NKA with several conserved motifs involved in the binding of Na+/K+. On the other hand, it contains no CBM (fig. S6) and there is also no evidence that it expresses a subunit.

Second, as depicted in figs. S6 and S7, Caenorhabditis elegans, an example of a metazoan organism, expresses a mature form of NKA (eat-6) that contains binding sites for Na+ and K+ as well as the N-terminal CBM. It also expresses a couple of putative NKA such as catp-2 (34). However, they contain neither the CBM nor Na+ and K+ binding sites.

Third, although the X amino acids in the NKA CBM in invertebrates vary, only conserved substitutions occurred in this motif. This is in sharp contrast to many other membrane receptors/transducers such as Patched and G that also contain a consensus CBM (figs. S6 and S7). Within vertebrates, the CBM sequence FCRQLFGGF in NKA remains completely conserved across all species. Moreover, this sequence remains conserved in all isoforms of the subunit except for the 4 isoform, which is exclusively expressed in sperm. The 4 isoform in some species still adapts the CBM sequence found in invertebrates (fig. S6). Moreover, of a total of nine subunits found in zebrafish (35), five appear to be 1 homologs that, like the 4 isoform, contain both vertebrate and invertebrate CBM sequences.

Last, turning to the evolutionary aspect of the receptor NKA/Src complex, we found that the Src-binding NaKtide and Y260 sequences, in sharp contrast to the CBM, are only conserved in mammalian ATP1A1 (fig. S7). Therefore, the NKA/Src receptor may have evolved after the acquisition of the CBM, and hence is not a part of the fundamental regulation of animal organogenesis (fig. S3).

In short, the N-terminal CBM, like the binding sites for Na+ and K+, is conserved in all subunits of NKA in animals, even after taking into consideration gene duplications and the generation of different isoforms or homologs. Thus, we postulate that this CBM must be evolutionally conserved to enable the NKA, in parallel with its enzymatic function, to serve an important role in the origination of multicellular organisms within the animal kingdom.

Organogenesis represents a unique feature of multicellular organisms. In considering the preceding findings, we reasoned that the loss of NKA CBM would also affect embryonic development in invertebrates such as C. elegans. To test our hypothesis, we used CRISPR-Cas9 to knock in the equivalent CBM double mutations of F75A and F78A in C. elegans NKA gene eat-6 (named as syb575) (fig. S8). Similar to the impact of the expression of CBM mutant 1 NKA in mice, no homozygous worms were produced, whereas the heterozygous worms hatched normally. Moreover, by using the gene balancer nT1, we confirmed that the F75A and F78A double mutations induced embryonic lethality in syb575 homozygotes secondary to L1 arrest (Fig. 5A). Furthermore, the observed larval arrest due to the loss of the eat-6 CBM was rescued by a transgene expressing a wild-type eat-6 complementary DNA (cDNA) through an extrachromosomal array (Fig. 5B). The lethality phenotype in syb575 mutants was different from those of the eat-6 mutants defective in enzymatic (transport) activity, because while the eat-6 mutants had growth defects, they were able to grow past the L1 stage (36). An exception to this was a cold-sensitive eat-6 (ad792) mutant with severely reduced transport activity, which exhibited L1 arrest at lower temperatures similarly to the syb575 mutant worms (36). Overall, those data suggest that both CBM-mediated signaling and ion transport activity by the NKA are essential to full-scale organogenesis in C. elegans.

(A) Heterozygous CBM mutant (mCBM) worms syb575/nT1 have GFP signals in pharynx (pointed with the arrowhead), while mCBM homozygous worms are GFP negative and arrested at larval stage (pointed with an arrow). (B) Rescue with a WT eat-6 gene showing a mCBM homozygous worm with a transgenic marker sur-5::GFP. Arrow points the somatic GFP signals. (C) Mutation of CBM1 NKA (F97A; F100A) results in reduced colony formation in human iPSC (mCBM iPSC). (D) RT-qPCR analysis of stem cell markers and primary germ layer markers in WT and mCBM iPSC. *P < 0.05 compared to WT. n = 7. Photo credit: Liquan Cai, Marshall Institute for Interdisciplinary Research at Marshall University.

In short, our data indicate that loss of the NKA CBM results in defective organogenesis in both mice and C. elegans. This, together with our finding that the NKA CBM is conserved in all NKA regardless of isoform or homolog, indicates that the NKA was originally evolved as a dual functional protein in multicellular organisms, and that it represents a primordial and common mechanism for regulating stem cell differentiation and early stage of organogenesis in animals.

Turning now to even more general features of the CBM in organogenesis, we searched for the plant plasma membrane H-ATPase that functions equivalently to the animal NKA. Like the NKA, the plant plasma membrane H-ATPase also contains a sequence motif at the first transmembrane segment that is in accordance with the consensus CBM. This motif is completely conserved from blue algae to land plants but does not exist within yeast and bacteria (fig. S6).

To assess the human relevance of our findings, we used CRISPR-Cas9 gene editing to generate the same mutations in human induced pluripotent stem cells (iPSCs) (fig. S9). As depicted in Fig. 5C, the expression of mutant CBM 1 reduced the colony formation ability of human iPSCs. Concomitantly, this was accompanied by a significant reduction in the expression of stemness markers (both Nanog and Oct4), and transcriptional factors controlling germ layer differentiation (gene MIXL and T for mesoderm, OTX2 and SOX1 for ectoderm, and GATA4 and SOX17 for endoderm) (Fig. 5D). These findings confirm an essential role of the NKA CBM in the regulation of stem cell differentiation and suggest the potential utility of targeting the NKA for improving tissue regeneration.

The canonical Wnt pathway is made of multiple components localized in the plasma membrane and cytosol (2, 3). Functionally, this pathway is critically important in animal organogenesis (2, 37). For example, it plays an essential role in the establishment of neurogenic niches and regulates the differentiation of neural stem cells into neuroblasts during organogenesis by regulating the expression of transcriptional factors Ngn and NeuroD (37, 38). Thus, we were prompted by the observed neural defects in mice to test whether the expression of the CBM mutant 1 NKA affects Wnt/-catenin signaling.

In the first set of studies, we examined the cellular distribution of -catenin in LW-mCBM cells. As depicted in Fig. 6A, confocal imaging analysis showed that -catenin was distributed away from the plasma membrane in a vesicle-like form in LW-mCBM cells. To verify this finding, we fractionated the cell lysates as performed in Fig. 3B and observed that -catenin, like Src and caveolin-1, moved from the low-density fractions to high-density fractions when compared to control cells (Fig. 6B). Control experiments showed no changes in the expression of E-cadherin, glycogen synthase kinase3 (GSK-3), LRP5/6 (Low-density lipoprotein receptor-related protein 5 and 6), and -catenin in LW-mCBM cells (Fig. 6C).

(A) -Catenin staining of AAC-19 and LW-mCBM at basal level (n = 5). Blue arrow indicated -catenin signal in the cytoplasm of cells. (B) Sucrose gradient fractionation of -catenin in AAC-19 and LW-mCBM cells (n = 3). **P < 0.01. (C) Western blot analysis of Wnt/-catenin signaling proteins in AAC-19, LX-2, and LW-mCBM cells from at least six independent experiments. Two samples from each cell lines are presented. (D) Wnt3a induced TOPFlash luciferase report assay in AAC-19 and LW-mCBM (n = 8). ***P < 0.01. (E) Wnt3a induced expression of Wnt/-catenin targeting genes (n = 8). **P < 0.01. (F) Wnt3a induced TOPFlash luciferase report assay in AAC-19, LX-2, and LW-mCBM cells (n = 4). ***P < 0.01.

To test whether these changes in -catenin distribution alter the function of canonical Wnt signaling, we conducted a TOPFlash luciferase activity assay (39). Cells were transiently transfected with the reporter plasmid, exposed to Wnt3a conditional medium, and then subjected to TOPFlash luciferase assays. As shown in Fig. 6D, while Wnt3a induced a greater than 35-fold increase in luciferase activity in AAC-19 cells, it only produced a fourfold increase in LW-mCBM cells, which equates to an approximate 90% reduction in the dynamics of Wnt activation. To further test the impact of the CBM mutation on Wnt signaling, we examined the effects of Wnt3a on the expression of Wnt target genes. Cells were exposed to Wnt3a for 6 hours and subjected to RT-qPCR analysis. As depicted in Fig. 6E, while Wnt3a increased the expression of c-Myc, Lef, and NKD1 expression in AAC-19 cells, it failed to do so in LW-mCBM cells.

On the basis of the above observations, we reasoned that the NKA CBM might play an essential role in the dynamic regulation of Wnt signaling. We therefore analyzed Wnt signaling in our LX-2 cell line. This cell line was made by the same strategy used for the generation of LW-mCBM cells, and it expresses essentially just the 2 isoform (40). We have observed that 2 NKA, like CBM mutant 1, maintains cellular pumping capacity but is unable to signal via Src like a wild-type 1 NKA (40). However, unlike CBM mutant 1, 2 does contain the same CBM at the N terminus (fig. S6). As depicted in Fig. 6F, expression of the 2 isoform produced a rescue of Wnt signaling dynamics when compared to that in LW-mCBM cells, which reinforces the idea that the NKA CBM is key to the dynamics of Wnt signaling. Like in LW-mCBM cells, no change in -catenin expression was noted in LX-2 cells. However, compared to LW-mCBM cells, caveolin-1 expression was decreased in LX-2 cells, while ERK activity was increased (Fig. 6C). Together, these findings suggest that the conserved NKA CBM is essential for regulating Wnt signaling, which is independent of the pumping or CTS (ardiotonic steroid)activated Src-dependent signaling transduction.

To see whether there is evidence of Wnt signaling defects in mCBM homozygous embryos, we examined the RNAseq data using a tool kit of pathway analysis. As depicted in fig. S10, Wnt signaling appears to be defective at the transcriptional level. First, the expression of one of the Wnt receptors [Frizzled homolog 5 (Fzd5)] and one of the Wnt ligands (Wnt7b) was down-regulated (fig. S10A). Second, the Wnt/-catenin signaling inhibitor, secreted frizzled-related protein 5 (Sfrp5), was up-regulated in mCBM homozygous embryos. Third, the -catenin destruction complex component adenomatosis polyposis coli (APC) was down-regulated in mCBM homozygous embryos. All these defects in Wnt signaling were confirmed by RT-qPCR analysis of both wild-type and mCBM homozygous embryos at E9.5 (fig. S10B). In addition, APC down-regulation was also observed at the protein level in mCBM iPSCs (fig. S10C). Last, the defect in Wnt signaling was further substantiated by the altered expression of Wnt downstream target genes. As shown in fig. S10B, the expression of Lef and NKD1 was significantly reduced in mCBM homozygous embryos. The expression of c-Myc was too low to be detected.

Together, these data provide strong support to the notion that the CBM is a key to the regulation of Wnt by the NKA. We hypothesize that this critical function of the NKA CBM may explain why the CBM is conserved in all four subunit isoforms of the NKA. It is important to mention that the specific molecular defects in Wnt signaling that we have identified were tested in epithelial cells, a model we have previously used to characterize 1-specific signaling functions (16, 41). In view of the cell/tissue specificity of both NKA expression and subunit assemble (42) and Wnt signaling (13, 37), it is likely that this mechanism does not fully explain the Wnt signalingrelated defects in embryogenesis.

The enzymatic function of NKA coordinates the transmembrane movement of Na+/K+, which is essential for the survival of individual animal cells. At the tissue/organ level, the ATP-powered transport of Na+/K+ by the NKA is required for neuronal firing, muscle contraction, and the formation and functionality of epithelia and endothelia. The NKA was found to be essential for forming septate junction in Drosophila melanogaster (43, 44) via a regulatory mechanism independent of its ion-pumping activity. Here, we reveal an additional fundamentally important role of NKA in the regulation of signal transduction through a separate functional domain (CBM) unrelated to its enzymatic activity.

Our findings raise the question of why NKA acquired the CBM in addition to its binding sites for Na+ and K+. One possible explanation for this is that the additional functionality in NKA (fulfilled by the CBM) evolved for the purpose of regulating stem cell differentiation and organogenesis in multicellular organisms. Two observations support this hypothesis. First, both Wnt and NKA are present in the first multicellular organisms within the animal kingdom and are evolutionally conserved ever since. Thus, it is likely that the NKA and Wnt work in concert to enable stem cell differentiation and organogenesis in animals. Second, while Wnt is key to the cellular programs of stemness and cell lineage specification (2), it does not directly participate in cell lineagespecific activities of newly differentiated cells. Instead, this particular function might be fulfilled by the NKA. Conceivably, the NKA could have been evolved, as exemplified by the mitochondrial cytochrome c in ATP generation, to bring together two seemingly unrelated processes (i.e., Wnt signaling regulation via the CBM and ion transport through Na+ and K+ binding) into one signaling circuitry, which is critical to the dynamic regulation of transcriptional factors that are required for organogenesis in a temporally and spatially organized manner. Needless to say, this hypothesis remains to be tested. In addition, other important signaling pathways such as Notch and Sonic Hedgehog may also be regulated by NKA.

It is also of interest to note the evolutionary conserveness of the CBM in the plant plasma membrane H-ATPase. Like its counterpart within the animal kingdom, the plasma membrane H-ATPase is essential for plant organogenesis (45). Unlike the NKA, the plasma membrane H-ATPase exists in single-celled organisms such as yeast, and their ion-pumping function is regulated by similar mechanisms (46). However, yeast, with no use for cellular machinery needed for organogenesis, does not contain the H-ATPase with conserved CBM. Moreover, we also observed that no CBM exists in the plasma membrane Ca-ATPase (fig. S6), both of which belong to the same type II P-type ATPase family as the NKA. While the Ca-ATPase is a more ancient protein than the NKA, as its expression can be found in unicellular organisms, the H/K-ATPase appeared later than the NKA, at some point during the development of vertebrates. Thus, we suggest that the NKA may have evolved from a P-ATPase of unicellular organisms via the gain of both the CBM and Na+/K+ binding sites. In contrast, the H/K-ATPase may have evolved from the NKA, losing not only the Na+ binding site but also the CBM.

We have shown a direct interaction between the NKA and caveolin-1 (8, 17), which has been independently confirmed (47). The loss of the CBM significantly reduced the interaction between NKA and caveolin-1 as revealed by multiple assays. In addition to caveolin-1, we and others have reported several signal transductionrelated interactions (48). Of these, the potential interaction between 1 NKA and Src has attracted the most attention, especially in the past 10 years (7). While most studies indicated an important role of Src in CTS-activated signal transduction via 1 NKA, several publications have questioned whether 1 NKA interacts with Src directly to regulate Src functionality (49, 50). While this important difference remains to be experimentally addressed, we would like to point out the following facts. First, while we recognize the merit of using purified protein preparation to study protein interaction, it is important to recognize the limitation of using purified Src from bacterial expression system because they are heterogeneously phosphorylated. Second, we have reported multiple lines of evidence that support a direct interaction between 1 NKA and Src, including the identification of isoform-specific Src interaction, the mapping of potential Src-interacting sites in the 1 isoform, and the development of pNaKtide as Src inhibitor and receptor antagonist. These findings have substantially increased our understanding of 1 NKA/Src interaction in cell biology and animal physiology. It is important to mention that several groups not associated with us have successfully used pNaKtide to block ouabain and NKA signaling in vitro and in vivo (2326, 51). While our group and others continue to characterize the molecular basis and biological function of the NKA/Src receptor complex, we propound that the question of NKA/caveolin-1 interaction is a more pressing one in the context of this study. The role of CBM in caveolin-protein interaction and caveolae-related signaling is still debated (41, 52, 53).

Last, we conclude from these interesting findings that the NKA is not just an ion pump or a CBM-directed regulator but a critical multifunctional protein. This whole functionality underlies a hitherto unrecognized common mechanism essential for stem cell differentiation and organogenesis in multicellular organisms within the animal kingdom. Moreover, many recent studies also support the concept that the 1 NKA has acquired more functional motifs (e.g., Src-binding sites for the formation of NKA/Src receptor complex) during evolution. In addition, we have demonstrated that either knockdown of 1 NKA or the expression of an N-terminal fragment containing the CBM of the 1 subunit was sufficient to attenuate purinergic calcium signaling in renal epithelial cells (54). The 1 NKA is also found to be essential for CD36 and CD40 signaling in macrophages and renal epithelial cells (55, 56). Aside from the profound biological and fundamental implications, the previously unidentified NKA-mediated regulation of Wnt signaling through its N-terminal CBM may have substantial implications in our understanding of disease progression. The rapidly increasing appreciation of Wnt signaling in the pathogenesis of cancer and cardiovascular diseases (2, 3, 38) underlies the potential utility of NKA as a multidrug target (12, 22, 57, 58).

Acknowledgments: Funding: This work was supported by grants from: National Institutes of Health (NIH) Research Enhancement Award (R15) (R15 HL 145666); American Heart Association (AHA) Scientist Development Grant (#17SDG33661117); Brickstreet Foundation and the Huntington Foundation, which provide discretionary funds to the Joan C. Edwards School of Medicine. (These funds are both in the form of endowments that are held by Marshall University). Author contributions: Conceptualization: Z.X., X.W., J.X.X., L.C., G.-Z.Z., S.V.P., and J.I.S.; methodology: X.W., L.C., I.L., D.W., and G.-Z.Z.; investigation: X.W., L.C., X.C., J.W., Y.C., and J.Z.; writing (original draft): X.W., J.X.X., and Z.X.; writing (review and editing): Z.X., J.X.X., L.C., J.I.S., S.V.P., D.W., G.-Z.Z., and X.W.; funding acquisition: Z.X.; visualization: X.W. and Z.X. Competing interests: The authors declare that they have no competing interests. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials. Additional data related to this paper may be requested from the authors.

More here:
A caveolin binding motif in Na/K-ATPase is required for stem cell differentiation and organogenesis in mammals and C. elegans - Science Advances

The Media for Stem Cell market research encompasses an exhaustive analysis of the market outlook, framework, and socio-economic impacts. The report covers the accurate investigation of the market size, share, product footprint, revenue, and progress rate. Driven by primary and secondary researches, the Media for Stem Cell market study offers reliable and authentic projections regarding the technical jargon.All the players running in the global Media for Stem Cell market are elaborated thoroughly in the Media for Stem Cell market report on the basis of proprietary technologies, distribution channels, industrial penetration, manufacturing processes, and revenue. In addition, the report examines R&D developments, legal policies, and strategies defining the competitiveness of the Media for Stem Cell market players.The report on the Media for Stem Cell market provides a birds eye view of the current proceeding within the Media for Stem Cell market. Further, the report also takes into account the impact of the novel COVID-19 pandemic on the Media for Stem Cell market and offers a clear assessment of the projected market fluctuations during the forecast period.

Get Free Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Market Report @ https://www.marketresearchhub.com/enquiry.php?type=S&repid=2670996&source=atm

Segment by Type, the Media for Stem Cell market is segmented intoPluripotent Stem Cell CultureHematopoietic Stem Cell CultureMesenchymal Stem Cell Culture

Segment by ApplicationScientific ResearchIndustrial Production

Global Media for Stem Cell Market: Regional AnalysisThe Media for Stem Cell market is analysed and market size information is provided by regions (countries). The report includes country-wise and region-wise market size for the period 2015-2026. It also includes market size and forecast by Type and by Application segment in terms of sales and revenue for the period 2015-2026.The key regions covered in the Media for Stem Cell market report are:North AmericaU.S.CanadaEuropeGermanyFranceU.K.ItalyRussiaAsia-PacificChinaJapanSouth KoreaIndiaAustraliaTaiwanIndonesiaThailandMalaysiaPhilippinesVietnamLatin AmericaMexicoBrazilArgentinaMiddle East & AfricaTurkeySaudi ArabiaU.A.E

Global Media for Stem Cell Market: Competitive AnalysisThis section of the report identifies various key manufacturers of the market. It helps the reader understand the strategies and collaborations that players are focusing on combat competition in the market. The comprehensive report provides a significant microscopic look at the market. The reader can identify the footprints of the manufacturers by knowing about the global revenue of manufacturers, the global price of manufacturers, and sales by manufacturers during the forecast period of 2015 to 2019.

The major players in global Media for Stem Cell market include:Thermo FisherSTEMCELL TechnologiesMerck MilliporeLonzaGE HealthcareMiltenyi BiotecPromoCellCorningCellGenixTakaraHiMedia

Do You Have Any Query Or Specific Requirement? Ask to Our Industry [emailprotected] https://www.marketresearchhub.com/enquiry.php?type=E&repid=2670996&source=atm

Objectives of the Media for Stem Cell Market Study:To define, describe, and analyze the global Media for Stem Cell market based on oil type, product type, ship type, and regionTo forecast and analyze the Media for Stem Cell market size (in terms of value and volume) and submarkets in 5 regions, namely, APAC, Europe, North America, Central & South America, and the Middle East & AfricaTo forecast and analyze the Media for Stem Cell market at country-level for each regionTo strategically analyze each submarket with respect to individual growth trends and their contribution to the global Media for Stem Cell marketTo analyze opportunities in the market for stakeholders by identifying high growth segments of the global Media for Stem Cell marketTo identify trends and factors driving or inhibiting the growth of the market and submarketsTo analyze competitive developments, such as expansions and new product launches, in the global Media for Stem Cell marketTo strategically profile key market players and comprehensively analyze their growth strategiesThe Media for Stem Cell market research focuses on the market structure and various factors (positive and negative) affecting the growth of the market. The study encloses a precise evaluation of the Media for Stem Cell market, including growth rate, current scenario, and volume inflation prospects, on the basis of DROT and Porters Five Forces analyses. In addition, the Media for Stem Cell market study provides reliable and authentic projections regarding the technical jargon.

You can Buy This Report from Here @ https://www.marketresearchhub.com/checkout?rep_id=2670996&licType=S&source=atm

After reading the Media for Stem Cell market report, readers can:Identify the factors affecting the Media for Stem Cell market growth drivers, restraints, opportunities and trends.Examine the Y-o-Y growth of the global Media for Stem Cell market.Analyze trends impacting the demand prospect for the Media for Stem Cell in various regions.Recognize different tactics leveraged by players of the global Media for Stem Cell market.Identify the Media for Stem Cell market impact on various industries.

Go here to see the original:
Global trade impact of the Coronavirus Media for Stem Cell Market 2019 Analysis, Industry Size, Share Leaders, Current Status by Major vendors and...

Abstract

Increasing occurrence of moderate to severe intrauterine adhesion (IUA) is seriously affecting the quality of human life. The aim of the study was to establish IUA models in nonhuman primates and to explore the dual repair effects of human umbilical cordderived mesenchymal stem cells (huMSCs) loaded on autocrosslinked hyaluronic acid gel (HA-GEL) on endometrial damage and adhesion. Here, we recorded the menstrual cycle data in detail with uterine cavities observed and endometrial tissues detected after intervention, and the thicker endometria, decreased amount of fibrotic formation, increased number of endometrium glands, etc., suggested that both HA-GEL and huMSC/HA-GEL complexes could partially repair IUA caused by mechanical injury, but huMSC/HA-GEL complex transplantation had notable dual repair effects: a reliable antiadhesion property and the promotion of endometrial regeneration.

Intrauterine adhesion (IUA), known as Asherman syndrome, is described as the partial or complete binding of the uterine cavity due to the buildup of scar tissue formation in the upper functional layer, resulting from endometrial damage to the lower basal layer (1). Repeated intrauterine operations, such as dilatation and curettage (D&C) and hysteroscopy, are the main cause of the common prevalence of IUA, with approximately 45% of moderate-to-severe cases occurring in these circumstances (2). Severe endometrium dysfunction will cause women within reproductive age to have this reproductive disadvantage, which was once considered a terminal disease that caused infertility (3, 4).

Therefore, the vital aim for IUA treatment is to re-establish the uterine cavity and restore endometrial function. The current and standard operation method for IUA is hysteroscopic transcervical resection of adhesion (TCRA), while the preferred alternative involves the combined application of various adjuvant therapies, including physical barriers (contraceptive device, intrauterine balloon device, Foley balloon, etc.) for postoperative adhesion and estrogen therapy and amnion graft for endometrial regeneration (58). Although there is a certain therapeutic efficacy of these antiadhesion strategies, there are some disadvantages and shortcomings to the strategies that cannot be ignored, such as resistance to secondary surgery, limited area of isolation, induction of intrauterine inflammatory response, and difficulty in endometrial regeneration (9). Further, the high recurrence rate of postoperative adhesion and the low clinical pregnancy rate are still a focus and are universally recognized as a problem for patients with severe IUAs (4, 10).

Autocrosslinked hyaluronic acid gel (HA-GEL), another promising physical barrier with natural mix of extracellular matrix and synovial fluid, has been approved by China Food & Drug Administration (CFDA) as a medical device for clinical practice after hysteroscopic adhesiolysis to achieve improvement in histocompatibility and viscosity, and the American Association of Gynecologic Laparoscopists has reported the effectiveness of HA-GEL in the prevention of IUAs in 2017 (11). The application of HA-GEL in uterine cavity treatment has its own advantages of few degradations by product retention following the outflow of menstrual blood (11, 12). Compared to the previously used biomaterials, HA-GEL has a prolonged absorption time (as long as 7 to 14 days), the expansion characteristics of which can continuously isolate the postoperative uterine cavity to resist adhesion recurrence, and its other material properties can regulate the inflammatory response and repair endometrial injuries. Related experimental and clinical studies have suggested that HA-GEL is effective in the prevention of postoperative adhesion, and when combined application with a TCRA operation, it showed increases (~58.5%) in the effective rate of postoperative antiadhesion and decreases (~66.1%) in the postoperative recurrence rate (13). However, for severe IUA with a seriously injured basal layer and a loss of functional endometrium, endometrial regeneration remains an enormous challenge owing to the limited efficacy of current interventions.

Recently, stem cellbased therapy has emerged as a promising and exciting method of tissue regeneration (1416). Human umbilical cordderived mesenchymal stem cells (huMSCs) originate from the embryonic mesoderm and have the potential for multipotent differentiation; they have been regarded as a promising and extensive source for cell-based therapies due to their easy collection from discarded umbilical cords and their low immunogenicity. Some studies have shown the potential of huMSCs to repair damaged tissue (1720), and the feasibility of stem cells in restoring the endometrial structure and function has also been verified by additional clinical and experimental studies (2124). In this study, we used rhesus monkeys to construct a previously unidentified animal model of IUA and aimed to develop a complex of huMSCs loaded on HA-GEL to increase the local perseverance and activity of the stem cells and to improve the poor prognosis with the following dual functions: preventing postoperative adhesion with biomaterials and repairing the full layer of uterine wall. We also aimed to analyze the related repair or endometrial injuries, to study the motivation behind endometrial regeneration, and to explore the underlying mechanisms.

huMSCs [passage 3 (P3) to P9] had an appearance that was similar to typical spindle-shaped fibroblast-like cells, and they were arranged closely with vortex-like growth (fig. S1A1). The positive cells that were expanded in the enriching culture were successfully induced to become osteoblasts with bone matrix formation and adipocytes with lipid droplet formation (fig. S1A2 and A3). In addition, fluorescence-activated cell sorting (FACS) showed that the targeted cells expressed CD44 (99.40%), CD73 (99.56%), CD90 (99.92%), and CD105 (99.80%), but not CD34, CD45, and HLA-DR (<1%; fig. S1B).

To further evaluate the safety of huMSCs on HA-GEL, FACS results preliminarily verified that there was a low parentage of apoptotic cells in the coculture group (huMSCs/HA-GEL), and there was no notable difference between the coculture group and the culture-separated group (huMSCs) (fig. S2, A to C). In addition, the live-dead cell staining result we obtained before was added, and the result showed a small number of dead cells in both the huMSCs/HA-GEL and huMSCs groups, without significant difference compared with that in the culture-separated group (huMSCs) (fig. S2, D and E).

Two months after endometrial intervention by uterine D&C, all six monkeys stopped menstruating; smaller uterine cavities and pale and uneven endometrial surfaces were observed, which had an adhesive zone full of endometrial cavity fluid. Thinner endometrial tissue was detected and observed under Doppler ultrasound scanning with discontinuous endometria and strong echo (Fig. 1A), and the endometrial thickness (1.9833 0.4298 mm) after mechanical injury showed significant differences when compared with the thickness (4.0333 0.5185 mm) before intervention (P < 0.01, n = 6; Fig. 1B and table S1). Changes in the structure of the endometrial tissues were assessed by hematoxylin and eosin (H&E) staining. Two months after mechanical injury, the endometrium was disorganized and had few or no glands (Fig. 1C). Endometrial gland numbers decreased markedly compared with those of the premechanical injury (0.6839 0.8608 versus 6.8576 2.6901 per unit area, respectively) (P < 0.001, n = 6; Fig. 1D and table S1). Similarly, to further evaluate the degree of fibrosis, Masson staining was performed at 2 months after mechanical injury (Fig. 1E). Increased fibrotic area ratios were detected and were analyzed quantitatively; more collagen deposition was observed at 2 months after mechanical injury compared with that of the premechanical injury (0.6557 0.6359% versus 0.0716 0.0942%) (P < 0.05, n = 6; Fig. 1F and table S1).

(A) Detection of Doppler ultrasound. A1: Representative image of endometrial thickness for pre-D&C; A2: Representative image of endometrial thickness at 2 months post-D&C (red arrow, the endometrium echo; blue area, the largest cross section of endometrium). (B) Comparisons of endometrial thickness for pre- or post-D&C. (C) H&E staining of endometria for pre-D&C (C1, C3, and C5) and post-D&C (C2, C4, and C6); 10401, 10403, and 10406, respectively; see table S3 for details. Inserted overview pictures are of lower magnification; black squares are highly magnified regions. (D) Masson staining of endometria for pre-D&C (D1, D3, and D5) and post-D&C (D2, D4, and D6); 10401, 10403, and 10406, respectively; see table S3 for details. Inserted overview pictures are of lower magnification; black squares are highly magnified regions. (E) Comparisons of endometrial gland numbers per unit area for pre- or post-D&C. (F) Comparisons of fibrotic area ratios for pre- or post-D&C. *P < 0.05, **P < 0.01, and ***P < 0.001 versus the pre-D&C group, and the results shown are the mean SEM of three technical replicates from each animal.

Two months after the huMSCs/HA-GEL complex was transplanted into the uterine cavity, menstruation resumed cycling in all monkeys, and there were significantly more endometrial gland numbers (4.9662 1.4935, per unit area) than there were (3.6320 1.0060, per unit area) after HA-GEL transplantation alone (P < 0.01; Fig. 2, A and B, and table S2). Moreover, the huMSCs/HA-GEL transplantation group showed marked decreases in fibrotic areas (5.5955 3.6572%) compared with that of the HA-GEL transplantation group (14.2131 13.7193%) (P < 0.01; Fig. 2, C and D, and table S2).

(A) Endometrial H&E staining at 2 months after HA-GEL transplantation (A1, A3, and A4 correspond to 10401, 10403, and 10404, respectively) and huMSCs/HA-GEL transplantation (A2, A5, and A6 correspond to 10402, 10405, and 10406, respectively); 10401 to 10406, see table S3 for details. (B) Endometrial Masson staining at 2 months after HA-GEL transplantation (B1, B3, and B4 correspond to 10401, 10403, and 10404, respectively) and huMSCs/HA-GEL transplantation (B2, B5, and B6 correspond to 10402, 10405, and 10406, respectively); 10401 to 10406, see table S3 for details. (C) Comparisons of endometrial gland numbers per unit area between the HA-GEL transplantation group and the huMSC/HA-GEL transplantation group. (D) Comparisons of fibrotic area ratios between the HA-GEL transplantation group and the huMSCs/HA-GEL transplantation group. ##P < 0.01 versus HA-GEL transplantation group, and the results shown are the mean SEM of three technical replicates from each animal.

Abdominal surgeries were carried out, and three normal uterine cavities were exposed and revealed a thicker endometrium without an adhesive zone and endometrial cavity fluid in the huMSCs/HA-GEL transplantation group, whereas three uterine cavities in the HA-GEL transplantation group were still found to be abnormal with a mild to moderate amount of adhesion and a thinner rough endometrium (Fig. 3A). In addition, the smooth and thicker endometrial tissue with a third-line echo was also revealed and verified by ultrasound examination in the huMSCs/HA-GEL transplantation group (Fig. 3B), and the endometrial thickness (4.2667 0.5558 mm) was significantly different compared with that (1.0667 0.6650 mm) in the HA-GEL transplantation group (P < 0.01; Fig. 3C and table S2). Furthermore, the ultrastructure of the endometrium in the huMSCs/HA-GEL transplantation group showed short and sparse microvilli on the surface of epithelial cells, mucinous secretions in the glandular cavity with orderly arranged cells, tight intercellular junctions, and obvious edema of stroma, but the endometrial ends were uneven and the cellular edges had a frayed morphology. Further, loose connections between cells were observed in the HA-GEL transplantation group (Fig. 3D).

(A) Representative images of uterine cavities in the HA-GEL transplantation and huMSCs/HA-GEL transplantation groups (the dotted area and the red arrow mark the endometrial area). (B) Representative images of endometrial thickness for ultrasound detection in the HA-GEL transplantation and huMSCs/HA-GEL transplantation groups (the red arrow marks the endometrial echo; the blue area marks the largest cross section of the endometrium). (C) Comparisons of endometrial thickness between the HA-GEL transplantation group and the huMSCs/HA-GEL transplantation group. (D) Representative images of ultrastructural changes in the HA-GEL transplantation and huMSCs/HA-GEL transplantation groups (the left panel shows the surface of epithelial cells; the right panel shows the intercellular changes). ##P < 0.01 versus 2 months postHA-GEL, and the results shown are the mean SEM of three technical replicates from each animal. Photos provided by Lingjuan Wang and Chengliang Xiong (Institute of Reproductive Health, Center of Reproductive Medicine, Tongji Medical College, Huazhong University of Science and Technology).

By systematic and comprehensive comparison of endometrial tissues before surgery, increased gland numbers were found both in the HA-GEL transplantation group (3.63 1.01 versus 0.68 0.86, respectively, per unit area; P < 0.001) and in the huMSCs/HA-GEL transplantation group (4.97 1.49 versus 0.68 0.86, respectively, per unit area; P < 0.001). The gland numbers were approaching normal levels (6.86 2.69, per unit area; pre-D&C) 2 months after huMSCs/HA-GEL transplantation (Fig. 4A and table S3). Conversely, the Masson staining showed an increasing degree of fibrotic aggravation 2 months after HA-GEL transplantation (14.21 13.72% versus 0.66 0.64%; P < 0.05), but there was only a slight increase in fibrosis and some relief of aggravation after transplantation of the huMSCs/HA-GEL complex (5.60 3.66 versus 0.66 0.64; P < 0.01) (Fig. 4B and table S3). There was no significant difference in endometrial thickness or after mechanical injury (1.07 0.67 versus 1.98 0.41 mm) 2 months after HA-GEL transplantation compared with that of the HA-GEL transplantation, while the endometrial thickness was notably increased after transplantation of the huMSCs/HA-GEL complex (4.27 0.56 versus 1.98 0.41 mm; P < 0.01) that was similar to the normal levels observed before mechanical injury of the endometria (4.03 0.52 mm; pre-D&C) (Fig. 4C and table S3).

(A) Comparisons of endometrial gland numbers per unit area. (B) Comparisons of ratios of fibrotic area (%). (C) Comparisons of endometrial thickness (mm). *P < 0.05, **P < 0.01, and ***P < 0.001, all versus pre-D&C; ###P < 0.001 versus pre-D&C; #P < 0.05, ##P < 0.01, and ###P < 0.001, all versus 2 months post-D&C; ##P < 0.01 versus 2 months postHA-GEL, and the results shown are the mean SEM of three technical replicates from each animal.

The probe Vysis SRY Probe LSI SRY Spectrum Orange/Vysis CEP X Spectrum Green was used to mark huMSCs by a fluorescence in situ hybridization (FISH) technique. However, it was unclear if there was homology of probe sequences for the Yp11.3 region [sex-determining region Y (SRY), associated probe sequence] and DXZ1 (Xp11.1-Xq11.1) (CEP X, associated probe sequence) between human and rhesus monkeys. By directly extracting DNA from huMSCs (containing XY chromosome) and the spleens of rhesus monkeys, it was verified that the two probe sequences did not share homology between human and rhesus monkey (fig. S3). Then, human endometrial tissue was obtained as a positive control group (Fig. 5A), and one of the three endometria in the HA-GEL transplantation group was randomly selected as a negative control (Fig. 5B). FISH detection showed the absence of a positive signal (green/orange double signal or green signal) in the endometria 2 months after huMSCs/HA-GEL transplantation (Fig. 5, C to E), suggesting that huMSCs failed to locate to the endometrium after transplantation into the uterine cavity.

(A) Positive control, human endometrium (containing XX chromosomes); the red arrow indicates the green signal for Vysis CEP X (DXZ1). (B) Endometrial localization of huMSCs in the HA-GEL transplantation group (negative control). (C to E) Distribution of huMSCs in endometria 2 months after huMSCs/HA-GEL co-transplantation. Double/single-labeled staining (orange/green signal or just green signal) cells were defined as huMSCs. For details on 10402, 10405, and 10406, see table S3. Inserted overview pictures show a lower magnification.

Furthermore, potential cytokines secreted by huMSCs were further detected in the endometria by immunofluorescence staining, and as expected, increased positive expression was found in the endometria of the huMSCs/HA-GEL transplantation group; there were significant differences in insulin-like growth factor (IGF-1), epidermal growth factor (EGF), and brain-derived neurotrophic factor (BDNF) between the two transplanted groups (P < 0.05), but there were no significant differences in vascular endothelial growth factor (VEGF) and hepatocyte growth factor (HGF) (Fig. 6, A and B). In addition, when compared with the HA-GEL transplantation group, the expression levels of proinflammatory cytokines [interferon- (IFN-)] were significantly decreased in the huMSCs/HA-GEL transplantation group (P < 0.01, Fig. 6C1), and significantly up-regulated expression was found for the anti-inflammatory cytokine [interleukin 4 (IL-4)] (P < 0.01, Fig. 6C2), as well as related cytokines that promote cell proliferation and tissue repair (IGF-1 and EGF) (P < 0.001, P < 0.05, respectively; Fig. 6, C3 and C4).

(A) The expression and localization of the potential cytokines secreted by huMSCs in the HA-GEL transplantation group and the huMSCs/HA-GEL transplantation group; inserted overview pictures show a lower magnification. (B) The optical density (OD) value of IGF-1, EGF, BDNF, VEGF, and HGF 2 months after HA-GEL transplantation or huMSCs/HA-GEL co-transplantation. (C1) Comparison of IFN- mRNA expression between the HA-GEL transplantation group and the huMSC/HA-GEL transplantation group. (C2) Comparison of IL-4 mRNA expression between the HA-GEL transplantation group and the huMSC/HA-GEL transplantation group. (C3) Comparison of IGF-1 mRNA expression between the HA-GEL transplantation group and the huMSC/HA-GEL transplantation group. (C4) Comparison of EGF mRNA expression between the HA-GEL transplantation group and the huMSC/HA-GEL transplantation group. *P < 0.05, **P < 0.01, and ***P < 0.001 versus 2 months postHA-GEL; the results shown are the mean SEM of three technical replicates from each animal.

At present, according to relevant reports, approximately 2.8 to 45.5% of women with impaired fertility suffer from IUA, and more than 90% of cases occur after pregnancy-related D&C (25). In this study, an IUA model was successfully established with an invasive surgery in nonhuman primates (rhesus monkeys), which have a genetic background, endocrine system, menstrual cycle, and anatomical structure that are similar to humans (26). This model allowed us to further explore new approaches for the intervention and treatment of adhesion, especially the thin endometrium caused by endometrial injury.

In the primate experiments, 6- to 7-year-old rhesus monkeys (reproductive age) were identified as the ideal subjects for establishing IUA models; they had regular menstrual cycles of approximately 21 to 30 days, which was observed and recorded in succession for the 2 months before mechanical injury. We developed the first model of endometrial injury in rhesus monkeys by open abdominal surgery; we verified the successful establishment by visualizing the hard and narrow cervix and confirmed that D&C could ultimately lead to severe IUA, which was characterized by severe endometrial fibrosis, loss of normal endometrial glands, paper-thin and discontinuous endometria, full of adhesive zone and endometrial cavity fluid, as well as amenorrhea, as noted by the American Fertility Society scoring method (27).

This study explored the effect of transplantation huMSCs combined with HA-GEL on intrauterine reconstruction and endometrial regeneration in an IUA model. In our study, when compared with the control group (transplantation of only HA-GEL), the effects of the group with huMSCs were confirmed by Doppler ultrasonic scanning, histological inspection, and ultrastructure detection 2 months after transplantation. In the experimental group, the injured endometrial tissue presented with a thicker endometrium, an increased number of endometrial glands, a decreased fibrotic area, and typical changes in the secretory phase, showing how the positive huMSCs acted upon endometrial repair and regeneration through secreting cytokines and growth factors (16); further, the HA-GEL acted as a physical barrier to severe adhesion and provided an ideal physical support for the attachment of huMSCs to prevent their rapid outflow from uterine cavity.

Specifically, in the control group (HA-GEL transplanted alone), subjects did not recover menstruation and normal uterine cavity. However, recovery of menstruation, the appearance of a normal uterine cavity, and normal cycling were observed in the other three rhesus monkeys 2 months after huMSCs/HA-GEL co-transplantation, suggesting the great effect of the huMSCs/HA-GEL complex on the reconstruction of the uterine cavity and on the blocking of adhesion. Meanwhile, we also found that HA-GEL transplantation could increase the number of endometrial glands, but it played no effective role in endometrial thickness, which was important because it was less effective than the huMSCs/HA-GEL complex. This amelioration of the damage to the endometria resulted in nearly normal levels and suggested the re-emergence of endometrial repair and regeneration after huMSCs/HA-GEL co-transplantation. In addition, the degree of fibrosis in the damaged endometria was found to be increasingly worse 2 months after transplantation despite HA-GEL or huMSCs/HA-GEL intervention, and it remained unclear whether HA-GEL had an effect on resisting fibrogenesis because of the small sample size of rhesus monkeys. Obviously, huMSCs/HA-GEL intervention relieved the worse aspects of fibrogenesis, suggesting a better outcome and potential effect on the reconstruction of abnormal tissue.

Then, it was unclear what the underlying mechanism of endometrial reconstruction was. Transplanted huMSCs were tracked in endometria, and the result showed no obvious labeled signal in endometrial tissue at 2 months after huMSCs/HA-GEL complex transplantation, which was contrary to a previous report (28, 29). To explain these conflicting results, three possibilities were proposed: (i) missed target area due to random sampling, (ii) completely eliminated following the outflow of menstrual blood, and (iii) huMSC apoptosis and depletion. However, the last two assumptions were preferred for the reason of multipoint sampling and continuous paraffin section, and if the endometrial tissues were obtained at 1 week or 2 weeks after huMSCs/HA transplantation, we might get different results owing to the similar menstrual cycles to human and different physiological function from animal models such as mice and rabbits. Alternatively, some cytokines and growth factors related to huMSCs were detected, and the results showed that huMSCs/HA-GEL complex transplantation could obviously increase the expression of IGF-1, EGF, BDNF, and so on compared to that of the control group (HA-GEL transplanted alone). Growth factors and their related peptides were deemed to mediate and regulate hormones working on target tissues through autocrine or paracrine function, and some growth factors, the endocrine basis of endometrium recycling including transforming growth factor, EGF, IGF, fibroblast growth factor, etc., were reported to regulate the differentiation and proliferation of endometrial cells (30). EGF, present in stromal and epithelial cells of the endometrium, could regulate endometrial proliferation, gland secretion, and decidual transformation (31). IGF played important roles in endometrial physiology and could regulate the cell cycle and promoted the proliferation of endometrial epithelial cells after the activation of estrogen (32, 33). Moreover, some reports showed the key role of BDNF in the regulation of endometrial cell proliferation by the downstream signal transducer and activator of transcription 3 signaling pathway and participating in the damage repair of endometrium (34, 35). Furthermore, considering the effect of huMSCs on uncontrolled fibrogenesis resulting from inflammatory activity and endometrial cell proliferation, anti-inflammatory cytokines (IL-4) were observed to be up-regulated, and proinflammatory cytokines (IFN-) were down-regulated; further, related cytokines that promote cell proliferation and tissue repair were up-regulated, such as IGF-1 and EGF, suggesting that excessive fiber formation could be inhibited by anti-inflammatory effects due to the advantageous microenvironment constructed by abundant huMSCs in the uterine cavity. VEGF, as the most important vascular growth factor, could be stimulated by ischemia and hypoxia in the endometrial layer after endometrial injury and played an important role in the early stage of endometrial repair and proliferation; during the time, angiogenesis could be promoted rapidly, but no effects were shown once the neovascularization was over (3639). We speculated that no difference found in VEGF expression might be related to the samples extracted from the endometrium during the secretory phase, a plateau stage of vascular repair and VEGF secretion in the endometrial basal layer. Overall, all of these results further verified the important role of huMSCs in damage repair by secreting a series of paracrine factors, such as anti-inflammatory factors, growth factors, and cytokines, related to constructing the microenvironment with properties such as anti-inflammatory, promoting repair, maintaining cell function, angiogenesis, etc., which was consistent with the previous report (40).

In conclusion, this study showed that both HA-GEL and huMSC/HA-GEL complexes could partially repair severe IUA caused by mechanical injury, but huMSC/HA-GEL complex transplantation indicated significant advantages in the dual repair effects of antiadhesive property and promotion of endometrial regeneration. By constructing a complex of huMSCs/HA-GEL with a biomaterial to prevent adhesion and allow stem cells to act at the appropriate site of repair of the endometrium, we have provided a method for solving a problem for patients with moderate to severe IUA and thin endometria caused by IUA. We hope that this novel strategy using the huMSCs/HA-GEL complex will be offered as a basic clinical research strategy in the future, and it might be a potential valuable treatment for gel loaded with cytokines to repair moderate to severe IUA.

The basic information for the six rhesus monkeys used in this study is shown in table S4. They were bred and supplied by Fujian Experiment Center of Nonhuman Primate for Family Planning, where they were maintained the clean-class animal feeding standards. We used these rhesus monkeys in the study following the outlined steps of the flowchart (fig. S4) from 17 September 2018 to 16 March 2019 with regular menstrual cycle observed (26). All experiments were conducted in accordance with the National Research Councils Guideline for the Care and Use of Laboratory Animals and approved by the Ethics Committee of the Center of Reproductive Medicine of Tongji Medical College of Huazhong University of Science and Technology in China.

The six rhesus monkeys were chosen for IUA models following mechanical injury, and intraperitoneal surgery was the proper choice for curettage in view of the special structure of the vagina and the cervix, which are characterized by hardness, toughness, a small aperture, and a long cervix. All monkeys were provided general anesthesia with an appropriate dose of ketamine by intramuscular injection, and then a mid-abdominal longitudinal incision was made to expose the uterus. A vertical incision (~0.5 cm) was made in the lower uterine segment. A small curettage spoon was used to deeply scrape the uterine walls until they became rough and pale, and the collected endometrial tissues were stored at 80C. Subsequently, the uterine and abdominal incisions were closed by continuous stitching with 6-0 Vicryl sutures and 3-0 silk absorbable sutures, respectively. After the operation, antibiotics were used to prevent infection, and observation on the first day after the operation showed that these rhesus monkeys were in good condition.

huMSCs were kindly provided by the Stem Cell Laboratory of the Center of Reproductive Medicine (Tongji Medical College, Huazhong University of Science and Technology, China). Frozen huMSCs between P3 and P9 were freshly seeded in 10-cm culture dishes (1 106 cells per dish) in Iscoves modified Dulbeccos medium (IMDM, Genom, China) supplemented with 10% (v/v) fetal bovine serum (FBS, Gibco, USA), penicillin (100 U/ml), and streptomycin (100 mg/ml; Gibco, USA). Briefly, the phenotypes of huMSCs were specifically identified by FACS, and the osteogenic and adipogenic capacities of the mesenchymal stem cells were assessed with a MesenCult Osteogenic Stimulatory Kit (STEMCELL Technologies Inc., Canada) and a MesenCult Adipogenic Differentiation Kit (STEMCELL Technologies Inc., Canada). P3 to P9 were used for the experiments.

To further evaluate the safety of huMSCs on HA-GEL, we mixed huMSCs (1 105 to 2 105 per well) and 300 l of HA-GEL [Con., 5 mg/ml; Bioregen, Co., Ltd., China, approved by CFDA as a medical device (no. 20153641542)] evenly with sterile syringes in 24-well plates and then added IMDM (Genom, China), including 10% (v/v) FBS (Gibco, USA), penicillin (100 U/ml), and streptomycin (100 mg/ml) (Gibco, USA). After co-culture for 48 hours, 0.8% collagenase type I supplemented with appropriate hyaluronidase was used to digest HA-GEL and release huMSCs, and FACS was chosen for the detection of cell apoptosis index in the coculture group (huMSCs/HA-GEL) and the culture-separated group (huMSCs), as well as live-dead cell detection with Live-Dead Cytotoxicity Assay Kit (MesGen Biotechnology, Shanghai).

Briefly, 50 l of huMSCs (1 107 to 2 107 cells) were injected into 200 l of HA-GEL (Bioregen, Co., Ltd. China), and then they were immediately transplanted into the uterine cavity through the open abdominal cavity. At the same time, the uterine cavity in the negative control group was injected into 200 l of HA-GEL following the same procedure that was used for the huMSC/HA-GEL transplantation group. All operations were performed under sterile conditions.

The endometrial thickness (before mechanical injury or after surgery for 2 months) was measured by an abdominal two-dimensional ultrasound system (Medison SA-600 Ultrasound System, Korea) with 3.5-MHz pulse repetition frequency to evaluate the damage to the endometrium and the endometrial regeneration.

The scraped pieces of endometrium were fixed in 4% paraformaldehyde for 24 hours and then embedded in paraffin. Serial paraffin-embedded sections (4 m) were obtained, sequentially dewaxed in xylene I and xylene II for 20 min each, and rehydrated in a series of ethanol solutions with a decreasing concentration (100% for 10 min, 100% for 10 min, 95% for 5 min, 90% for 5 min, 80% for 5 min, and 70% for 5 min). Then, the sections were rinsed in distilled water (three times, 5 min each). The sections were stained with an H&E solution (Servicebio, China) according to the manufacturers instructions. After staining, endometrial morphologic features were observed, and the number of uterine glands per unit area was counted according to five randomly selected high-power fields of each slide.

The 4-m paraffin sections of endometrium were dewaxed and rehydrated as described above and then were immersed in Masson A solution (Servicebio, China) overnight, which was followed by a brief wash under running water. Then, the sections were stained in a mixed solution of Masson A and Masson B (1:1, Servicebio, China) for 1 min, washed under running water, and placed in 1% hydrochloric acid alcohol for 10 s before they were washed again. Subsequently, sections were immersed in Masson D solution (Servicebio, China) for 6 min and then were stained in Masson E solution (Servicebio, China) for 1 min. The solution was then slightly drained, and the sections were placed directly in Masson F solution (Servicebio, China) for 2 to 30 s, and then they were rinsed in 1% glacial acetic acid for differentiation of the signals. Last, the sections were dehydrated in absolute ethyl alcohol, clarified in xylene for 5 min, and sealed in Permount Mounting Medium (Sinopharm Chemical Reagent Co., Ltd., China). Endometrial fibrosis was assessed according to five random fields on each slide, and the fibrotic area ratios were calculated using Image-Pro Plus software (version 6.0).

The total DNA samples were extracted from spleen tissue of rhesus monkeys and huMSCs carrying XY or XX chromosomes with a TIANamp Genomic DNA Kit (Tiangen Biotech Co., Ltd., Beijing). mRNA samples were extracted from endometrial tissue, and cDNA was synthesized with a RevertAid First Strand cDNA Synthesis Kit (Thermo, USA). Subsequently, quantitative real-time polymerase chain reaction (qRT-PCR) was performed to verify the specific expression of the DXZ1 gene on the X chromosome, SRY on the Y chromosome, and IFN-, IL-4, IGF-1, and EGF using StepOne and StepOnePlus Real-Time PCR Systems Version 2.3. The final reaction volume of 20 l contained 10 l of Bestar qPCR MasterMix (SYBR Green) (DBI Bioscience), 4 l of DNA samples, 0.4 l of forward/reverse primer (10 M), and 5.2 l of DNA/RNase-free double-distilled water (ddH2O). Last, agarose gel electrophoresis was performed to verify the expression of DXZ1 and SRY in the spleen and huMSC tissues. In addition, primer sequences used for DXZ1 (Xp11.1-Xq11.1), SRY (Yp11.3 Region), IFN-, IL-4, IGF-1, and EGF are summarized in table S5.

FISH analysis was performed to trace huMSCs for 2 months after the huMSCs/HA-GEL complexes were transplanted into the uterine cavity. Endometrial tissue was collected and immediately fixed in 10% paraformaldehyde before paraffin embedding. A Vysis SRY Probe LSI SRY Spectrum Orange/Vysis CEP X Spectrum Green Kit (Abbott Laboratories, USA) was used to mark huMSCs in the endometrium. All paraffin sections were dewaxed, rehydrated, hybridized with the probe, and so on according to the probes instructions; a final counterstaining of 4,6-diamidino-2-phenylindole (DAPI) was added, and visualization took place with fluorescence microscopy (Nikon Eclipse Ci, Nikon DS-U3). The orange (SRY/Y chromosome) and/or green (DXZ1/X chromosome) signals were used to verify the presence or absence of huMSCs in the endometrium.

The following factors were analyzed after transplantation of the huMSCs/HA-GEL complex: trophic factors (cytokines) that are secreted by huMSCs [according to relevant reports (17)], proinflammatory cytokines, anti-inflammatory cytokines, and related cytokines that promote cell proliferation and tissue repair. After fixation with 4% paraformaldehyde, paraffin embedding, and cutting 4-m paraffin sections, the slides were immersed in xylene and rehydrated through incubation in a series of alcohol gradients. The following specific antibodies were applied to sections at 4C overnight in humidified chambers: recombinant anti-BDNF antibody (EPR1292) (ab108319, Abcam), anti-VEGF antibody (C-1: sc-7269, Santa Cruz), antiIGF-1 antibody (W18: sc-74116, Santa Cruz), anti-HGFa antibody (H-10: sc-374422, Santa Cruz), and anti-EGF antibody (F-9: sc-166779, Santa Cruz). Then, these sections were incubated with a Cy3-tagged secondary antibody for 1 hour at room temperature and were then rinsed in ddH2O three times. Counterstaining was performed with DAPI for 5 min, and the fluorescence signal was detected under a fluorescence microscope (Nikon Eclipse Ci, Nikon DS-U3).

We collected three technical replicates from each animal and repeated the experiments at least three times. The data presented as the mean SEM were analyzed with Statistical Package for the Social Sciences Statistics 17.0. The normally distributed numerical variance was assessed by a t test with homogeneity of variance, and 2 tests were used to analyze the differences between two or more rates. The percentage of positive area after H&E staining and Masson staining was measured using ImageJ 1.43u (Wayne Rasband, National Institutes of Health, USA). Statistical significance was assumed for P < 0.05.

This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license, which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.

Acknowledgments: We acknowledge the breeding and technical assistance of Fujian Experiment Center of Nonhuman Primate for Family Planning. We thank C. Yu for the operation of uterine D&C and open abdominal surgery. We thank C. Xiong and P. Su for their invaluable contributions in critically revising the manuscript and providing guidance for important intellectual content. We thank M. Zhang, T. Chang, and S. Song for analyzing the data and collecting the samples. Funding: This work was supported by the National Natural Science Foundation of China (NSFC 81571434) and the National Key Research and Development Program of China (2017YFC1002002). The funders played no role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript. Author contributions: W.X. designed the study and published this manuscript; L.W. and C.Y. performed the experiments and wrote the manuscript; M.Z., T.C., and S.S. analyzed the data and collected the samples; C.X. and P.S. provided their invaluable contributions in critically revising the manuscript and providing guidance for important intellectual content. Competing interests: The authors declare that they have no competing interests. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials. Additional data related to this paper may be requested from the authors.

View original post here:
In situ repair abilities of human umbilical cordderived mesenchymal stem cells and autocrosslinked hyaluronic acid gel complex in rhesus monkeys with...

Liposuction Equipment Marketreport focused on the comprehensive analysis of current and future prospects of the Liposuction Equipment industry. This report is a consolidation of primary and secondary research, which provides market size, share, dynamics, and forecast for various segments and sub-segments considering the macro and micro environmental factors.

This report provides an in-depth analysis of past trends, future trends, demographics, technological advancements, and regulatory requirements for the Liposuction Equipment market has been done in order to calculate the growth rates for each segment and sub-segments. The report also provides the market impact and new opportunities created due to the COVID19 pandemic.

Get Sample Copy (Including FULL TOC, Graphs and Tables) of this report @: https://www.a2zmarketresearch.com/sample?reportId=157925

Top Key Vendors of this Market are:

Alma Lasers, Ambicare Clinics, Bruker Corporation, Cutera, Cynosure Inc., Erchonia, Genesis Biosystems, AMD Global Telemedicine, Invasix Aesthetic Solutions, Ambicare Clinics, Sciton Inc., Solta Medical, Valeant Pharmaceuticals, Wells Johnson Co, Zeltiq aesthetics Inc, Carl Zeiss Meditec, Inc.

Various factors are responsible for the markets growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Liposuction Equipment market. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market. The influence of the latest government guidelines is also analyzed in detail in the report. It studies the Liposuction Equipment markets trajectory between forecast periods.

The report provides insights on the following pointers:

Market Penetration:Comprehensive information on the product portfolios of the top players in the Liposuction Equipment market.

Product Development/Innovation:Detailed insights on the upcoming technologies, R&D activities, and product launches in the market.

Competitive Assessment: In-depth assessment of the market strategies, geographic and business segments of the leading players in the market.

Market Development:Comprehensive information about emerging markets. This report analyzes the market for various segments across geographies.

Market Diversification:Exhaustive information about new products, untapped geographies, recent developments, and investments in the Liposuction Equipment market.

Hurry Up! Get Upto 30% Discount on this Report @: https://www.a2zmarketresearch.com/discount?reportId=157925

The report summarized the high revenue that has been generated across locations like, North America, Japan, Europe, Asia, and India along with the facts and figures of Liposuction Equipment market. It focuses on the major points, which are necessary to make positive impacts on the market policies, international transactions, speculation, and supply demand in the global market.

Global Liposuction Equipment Market Segmentation:

Market Segmentation by Type:

Negative-pressure Liposuction EquipmentUltrasonic Liposuction EquipmentPower Assisted Liposuction Equipment

Market Segmentation by Application:

HospitalsAmbulatory Surgical CentersCosmetic Surgical Centers

Table of Contents

Global Liposuction Equipment Market Research Report 2020 2026

Chapter 1 Liposuction Equipment Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Liposuction Equipment Market Forecast

For more Information, Inquire @: https://www.a2zmarketresearch.com/enquiry?reportId=157925

If you have any special requirements, please let us know and we will offer you the report as you want.

More here:
Liposuction Equipment Market will touch a new level in upcoming year with Top Key players like Alma Lasers, Ambicare Clinics, Bruker Corporation,...

'); jQuery('.cart-remove-box a').on('click', function(){ link = jQuery(this).attr('href'); jQuery.ajax({ url: link, cache: false }); jQuery('.cart-remove-box').remove(); setTimeout(function(){window.location.reload();}, 800); }); }); //jQuery('#ajax_loader').hide(); // clear being added addToCartButton.text(defaultText).removeAttr('disabled').removeClass('disabled'); addToCartButton.parent().find('.disabled-blocker').remove(); loadingDots.remove(); clearInterval(loadingDotId); jQuery('body').append(""); setTimeout(function () {jQuery('.add-to-cart-success').slideUp(500)}, 5000); }); } try { jQuery.ajax( { url : url, dataType : 'json', type : 'post', data : data, complete: function(){ if(jQuery('body').hasClass('product-edit') || jQuery('body').hasClass('wishlist-index-configure')){ jQuery.ajax({ url: "https://www.stemcell.com/meigeeactions/updatecart/", cache: false }).done(function(html){ jQuery('header#header .top-cart').replaceWith(html); }); jQuery('#ajax_loader').hide(); jQuery('body').append(""); setTimeout(function () {jQuery('.add-to-cart-success').slideUp(500)}, 5000); } }, success : function(data) { if(data.status == 'ERROR'){ jQuery('body').append(''); }else{ ajaxComplete(); } } }); } catch (e) { } // End of our new ajax code this.form.action = oldUrl; if (e) { throw e; } } }.bind(productAddToCartForm); productAddToCartForm.submitLight = function(button, url){ if(this.validator) { var nv = Validation.methods; delete Validation.methods['required-entry']; delete Validation.methods['validate-one-required']; delete Validation.methods['validate-one-required-by-name']; if (this.validator.validate()) { if (url) { this.form.action = url; } this.form.submit(); } Object.extend(Validation.methods, nv); } }.bind(productAddToCartForm); function setAjaxData(data,iframe,name,image){ if(data.status == 'ERROR'){ jQuery('body').append(''); }else{ if(data.sidebar && !iframe){ if(jQuery('.top-cart').length){ jQuery('.top-cart').replaceWith(data.sidebar); } if(jQuery('.sidebar .block.block-cart').length){ if(jQuery('#cart-sidebar').length){ jQuery('#cart-sidebar').html(jQuery(data.sidebar).find('#mini-cart')); jQuery('.sidebar .block.block-cart .subtotal').html(jQuery(data.sidebar).find('.subtotal')); }else{ jQuery('.sidebar .block.block-cart p.empty').remove(); content = jQuery('.sidebar .block.block-cart .block-content'); jQuery('').appendTo(content); jQuery('').appendTo(content); content.find('#cart-sidebar').html(jQuery(data.sidebar).find('#mini-cart').html()); content.find('.actions').append(jQuery(data.sidebar).find('.subtotal')); content.find('.actions').append(jQuery(data.sidebar).find('.actions button.button')); } cartProductRemove('#cart-sidebar li.item a.btn-remove', { confirm: 'Are you sure you would like to remove this item from the shopping cart?', submit: 'Ok', calcel: 'Cancel' }); } jQuery.fancybox.close(); jQuery('body').append(''); }else{ jQuery.ajax({ url: "https://www.stemcell.com/meigeeactions/updatecart/", cache: false }).done(function(html){ jQuery('header#header .top-cart').replaceWith(html); jQuery('.top-cart #mini-cart li.item a.btn-remove').on('click', function(event){ event.preventDefault(); jQuery('body').append('Are you sure you would like to remove this item from the shopping cart?OkCancel'); jQuery('.cart-remove-box a').on('click', function(){ link = jQuery(this).attr('href'); jQuery.ajax({ url: link, cache: false }); jQuery('.cart-remove-box').remove(); setTimeout(function(){window.location.reload();}, 800); }); }); jQuery.fancybox.close(); jQuery('body').append(''); }); } } setTimeout(function () {jQuery('.add-to-cart-success').slideUp(500)}, 5000); } // The EasySep Human B Cell Enrichment Kit is designed to isolate B cells from fresh or previously frozen peripheral blood mononuclear cells by negative selection. Unwanted cells are targeted for removal with Tetrameric Antibody Complexes recognizing non-B cells and dextran-coated magnetic particles. The labeled cells are separated using an EasySep magnet without the use of columns. Desired cells are poured off into a new tube.

For even faster cell isolations, we recommend the new EasySep Human B Cell Isolation Kit (17954), which isolates cells in just 9 minutes.

Advantages:

Fast, easy-to-use and column-free Up to 99% purity Untouched, viable cells

Magnet Compatibility:

EasySep Magnet (Catalog #18000)

The Big Easy EasySep Magnet (Catalog #18001)

Easy 50 EasySep Magnet (Catalog #18002)

EasyPlate EasySep Magnet (Catalog 18102)

EasyEights EasySep Magnet (Catalog #18103)

RoboSep-S (Catalog #21000)

Subtype:

Cell Isolation Kits

Sample Source:

Leukapheresis; PBMC

Selection Method:

Negative

Application:

Cell Isolation

Area of Interest:

Immunology

Document Type

Product Name

Catalog #

Lot #

Language

Yes. The EasySep kits use either a negative selection approach by targeting and removing unwanted cells or a positive selection approach targeting desired cells. Depletion kits are also available for the removal of cells with a specific undesired marker (e.g. GlyA).

Magnetic particles are crosslinked to cells using Tetrameric Antibody Complexes (TAC). When placed in the EasySep Magnet, labeled cells migrate to the wall of the tube. The unlabeled cells are then poured off into a separate fraction.

The EasySep procedure is column-free. That's right - no columns!

The Product Information Sheet provided with each EasySep kit contains detailed staining information.

Yes. RoboSep, the fully automated cell separator, automates all EasySep labeling and cell separation steps.

Yes. We recommend a cell concentration of 2x108 cells/mL and a minimum working volume of 100 L. Samples containing 2x107 cells or fewer should be suspended in 100 L of buffer.

Yes, the EasySep particles are flow cytometry-compatible, as they are very uniform in size and about 5000X smaller than other commercially available magnetic beads used with column-free systems.

No, but due to the small size of these particles, they will not interfere with downstream applications.

Yes; however, this may impact the kit's performance. The provided EasySep protocols have already been optimized to balance purity, recovery and time spent on the isolation.

Yes, the purity of targeted cells will increase with additional rounds of separations; however, cell recovery will decrease.

If particle binding is a key concern, we offer two options for negative selection. The EasySep negative selection kits can isolate untouched cells with comparable purities, while RosetteSep can isolate untouched cells directly from whole blood without using particles or magnets.

Read More

This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.

Research Area Workflow Stages for

Workflow Stages

Figure 1. FACS Histogram Results With EasySep Human B Cell Enrichment Kit

Starting with frozen mononuclear cells, the CD19+ cell content of the enriched fraction typically ranges from 95% - 99%.

D. G. W. Alanine et al.

The Plasmodium falciparum reticulocyte-binding protein homolog 5 (PfRH5) is the leading target for next-generation vaccines against the disease-causing blood-stage of malaria. However, little is known about how human antibodies confer functional immunity against this antigen. We isolated a panel of human monoclonal antibodies (mAbs) against PfRH5 from peripheral blood B cells from vaccinees in the first clinical trial of a PfRH5-based vaccine. We identified a subset of mAbs with neutralizing activity that bind to three distinct sites and another subset of mAbs that are non-functional, or even antagonistic to neutralizing antibodies. We also identify the epitope of a novel group of non-neutralizing antibodies that significantly reduce the speed of red blood cell invasion by the merozoite, thereby potentiating the effect of all neutralizing PfRH5 antibodies as well as synergizing with antibodies targeting other malaria invasion proteins. Our results provide a roadmap for structure-guided vaccine development to maximize antibody efficacy against blood-stage malaria.

K. Kwak et al.

Protective antibody responses to vaccination or infection depend on affinity maturation, a process by which high-affinity germinal center (GC) B cells are selected on the basis of their ability to bind, gather, and present antigen to T follicular helper (Tfh) cells. Here, we show that human GC B cells have intrinsically higher-affinity thresholds for both B cell antigen receptor (BCR) signaling and antigen gathering as compared with na{{i}}ve B cells and that these functions are mediated by distinct cellular structures and pathways that ultimately lead to antigen affinity- and Tfh cell-dependent differentiation to plasma cells. GC B cells bound antigen through highly dynamic actin- and ezrin-rich pod-like structures that concentrated BCRs. The behavior of these structures was dictated by the intrinsic antigen affinity thresholds of GC B cells. Low-affinity antigens triggered continuous engagement and disengagement of membrane-associated antigens whereas high-affinity antigens induced stable synapse formation. The pod-like structures also mediated affinity-dependent antigen internalization by unconventional pathways distinct from those of na{"{i}}ve B cells. Thus intrinsic properties of human GC B cells set thresholds for affinity selection."""

D. G. Gonzalez et al.

We examined the unique contributions of the cytokines IL-21 and IL-4 on germinal center (GC) B cell initiation and subsequent maturation in a murine model system. Similar to other reports, we found T follicular helper cell expression of IL-21 begins prior to T follicular helper cell migration into the B cell follicle and precedes that of IL-4. Consistent with this timing, IL-21 signaling has a greater influence on the perifollicular pre-GC B cell transition to the intrafollicular stage. Notably, Bcl6hi B cells can form in the combined absence of IL-21R- and STAT6-derived signals; however, these nascent GC B cells cease to proliferate and are more prone to apoptosis. When B cells lack either IL-21R or STAT6, aberrant GCs form atypical centroblasts and centrocytes that differ in their phenotypic maturation and costimulatory molecule expression. Thus, IL-4 and IL-21 play nonredundant roles in the phased progression of GC B cell development that can initiate in the combined absence of these cytokine signals.

Pé et al.

Type 1 diabetes (T1D) is characterized by a chronic, progressive autoimmune attack against pancreas-specific antigens, effecting the destruction of insulin-producing -cells. Here we show interleukin-2 (IL-2) is a non-pancreatic autoimmune target in T1D. Anti-IL-2 autoantibodies, as well as T cells specific for a single orthologous epitope of IL-2, are present in the peripheral blood of non-obese diabetic (NOD) mice and patients with T1D. In NOD mice, the generation of anti-IL-2 autoantibodies is genetically determined and their titre increases with age and disease onset. In T1D patients, circulating IgG memory B cells specific for IL-2 or insulin are present at similar frequencies. Anti-IL-2 autoantibodies cloned from T1D patients demonstrate clonality, a high degree of somatic hypermutation and nanomolar affinities, indicating a germinal centre origin and underscoring the synergy between cognate autoreactive T and B cells leading to defective immune tolerance.

Carroll VA et al.

HIV-1 infection is associated with increased risk for B-cell lymphomas. How HIV infection promotes the development of lymphoma is unclear, but it may involve chronic B-cell activation, inflammation, and/or impaired immunity, possibly leading to a loss of control of oncogenic viruses and reduced tumor immunosurveillance. We hypothesized that HIV structural proteins may contribute to lymphomagenesis directly, because they can persist long term in lymph nodes in the absence of viral replication. The HIV-1 transgenic mouse Tg26 carries a noninfectious HIV-1 provirus lacking part of the gag-pol region, thus constituting a model for studying the effects of viral products in pathogenesis. Approximately 15% of Tg26 mice spontaneously develop leukemia/lymphoma. We investigated which viral proteins are associated with the development of leukemia/lymphoma in the Tg26 mouse model, and performed microarray analysis on RNA from spleen and lymph nodes to identify potential mechanisms of lymphomagenesis. Of the viral proteins examined, only expression of HIV-1 matrix protein p17 was associated with leukemia/lymphoma development and was highly expressed in bone marrow before disease. The tumor cells resembled pro-B cells, and were CD19(+)IgM(-)IgD(-)CD93(+)CD43(+)CD21(-)CD23(-)VpreB(+)CXCR4(+) Consistent with the pro-B-cell stage of B-cell development, microarray analysis revealed enrichment of transcripts, including Rag1, Rag2, CD93, Vpreb1, Vpreb3, and Igll1 We confirmed RAG1 expression in Tg26 tumors, and hypothesized that HIV-1 matrix protein p17 may directly induce RAG1 in B cells. Stimulation of human activated B cells with p17 enhanced RAG1 expression in three of seven donors, suggesting that intracellular signaling by p17 may lead to genomic instability and transformation.

STEMCELL TECHNOLOGIES INC.S QUALITY MANAGEMENT SYSTEM IS CERTIFIED TO ISO 13485. PRODUCTS ARE FOR RESEARCH USE ONLY AND NOT INTENDED FOR HUMAN OR ANIMAL DIAGNOSTIC OR THERAPEUTIC USES UNLESS OTHERWISE STATED.

Internal Search Keywords: 19054|19054RF|19054C.2|19014|14054 |B cell isolation|Easy sep B cell

Visit link:
EasySep Human B Cell Enrichment Kit

Phase 1 Clinical Study to Evaluate Multiple Doses of FT538 as Monotherapy for Acute Myeloid Leukemia and in Combination with Anti-CD38 Monoclonal Antibody Therapy for Multiple Myeloma

Off-the-shelf NK Cell Product Candidate Derived from Clonal Master iPSC Line Engineered with Three Functional Components to Enhance Innate Immunity

SAN DIEGO, May 20, 2020 (GLOBE NEWSWIRE) -- Fate Therapeutics, Inc. (FATE), a clinical-stage biopharmaceutical company dedicated to the development of programmed cellular immunotherapies for cancer and immune disorders, announced today that the U.S. Food and Drug Administration (FDA) has cleared the Companys Investigational New Drug (IND) application for FT538, the first CRISPR-edited, iPSC-derived cell therapy. FT538 is an off-the-shelf natural killer (NK) cell cancer immunotherapy that is derived from a clonal master induced pluripotent stem cell (iPSC) line engineered with three functional components to enhance innate immunity: a novel high-affinity, non-cleavable CD16 (hnCD16) Fc receptor; an IL-15/IL-15 receptor fusion (IL-15RF); and the elimination of CD38 expression. The Company plans to initiateclinical investigation of three once-weekly doses of FT538as a monotherapy in acute myeloid leukemia (AML) and in combination with daratumumab, a CD38-directed monoclonal antibody therapy, for the treatment of multiple myeloma.

We are very pleased to expand the clinical application of our proprietary iPSC product platform to multiple myeloma, where rates of relapse remain high, said Scott Wolchko, President and Chief Executive Officer of Fate Therapeutics. Clinical data suggest that deficiencies in NK cell-mediated immunity, which are evident even at the earliest stages of myeloma, continue to accumulate through disease progression. We believe administration of FT538 to patients can restore innate immunity, and that the anti-cancer effect of certain standard of care treatments, such as monoclonal antibodies, can be more effective when combined with the engineered functionality of FT538.

The three functional components of FT538 are designed to boost the innate immune response in cancer patients, where endogenous NK cells are typically diminished in both number and function due to prior treatment regimens and tumor suppressive mechanisms. In preclinical studies, FT538 has shown superior NK cell effector function, as compared to endogenous NK cells, with the potential to confer significant anti-tumor activity to patients through multiple mechanisms of action including:

The first-in-human, multi-center, dose-escalation Phase 1 clinical trial of FT538 is designed to determine the maximum tolerated dose (MTD) of three once-weekly doses of FT538 in up to 105 adult patients across four dose cohorts (100M cells per dose; 300M cells per dose; 900M cells per dose; and 1.5B cells per dose). The study will assess two treatment regimens: Regimen A as a monotherapy in patients with relapsed / refractory AML; and Regimen B in combination with daratumumab, an FDA-approved anti-CD38 monoclonal antibody, in patients with relapsed / refractory multiple myeloma who have failed at least two lines of therapy. In addition, the Company may initiate a third treatment regimen in combination with elotuzumab, an FDA-approved anti-SLAMF7 monoclonal antibody, in patients with relapsed / refractory multiple myeloma who have failed at least two lines of therapy starting at one dose level below the MTD of Regimen B. For all regimens, multiple indication- or dose-specific dose-expansion cohorts of up to 15 patients per cohort may be enrolled to further evaluate the clinical activity of FT538.

FT538 is the fourth off-the-shelf, iPSC-derived NK cell product candidate from the Companys proprietary iPSC product platform cleared for clinical investigation by the FDA. The Company has initiated clinical manufacture of FT538 at its GMP facility in San Diego, CA.

About Fate Therapeutics iPSC Product PlatformThe Companys proprietary induced pluripotent stem cell (iPSC) product platform enables mass production of off-the-shelf, engineered, homogeneous cell products that can be administered with multiple doses to deliver more effective pharmacologic activity, including in combination with cycles of other cancer treatments. Human iPSCs possess the unique dual properties of unlimited self-renewal and differentiation potential into all cell types of the body. The Companys first-of-kind approach involves engineering human iPSCs in a one-time genetic modification event and selecting a single engineered iPSC for maintenance as a clonal master iPSC line. Analogous to master cell lines used to manufacture biopharmaceutical drug products such as monoclonal antibodies, clonal master iPSC lines are a renewable source for manufacturing cell therapy products which are well-defined and uniform in composition, can be mass produced at significant scale in a cost-effective manner, and can be delivered off-the-shelf for patient treatment. As a result, the Companys platform is uniquely capable of overcoming numerous limitations associated with the production of cell therapies using patient- or donor-sourced cells, which is logistically complex and expensive and is subject to batch-to-batch and cell-to-cell variability that can affect clinical safety and efficacy. Fate Therapeutics iPSC product platform is supported by an intellectual property portfolio of over 300 issued patents and 150 pending patent applications.

Story continues

About Fate Therapeutics, Inc.Fate Therapeutics is a clinical-stage biopharmaceutical company dedicated to the development of first-in-class cellular immunotherapies for cancer and immune disorders. The Company has established a leadership position in the clinical development and manufacture of universal, off-the-shelf cell products using its proprietary induced pluripotent stem cell (iPSC) product platform. The Companys immuno-oncology product candidates include natural killer (NK) cell and T-cell cancer immunotherapies, which are designed to synergize with well-established cancer therapies, including immune checkpoint inhibitors and monoclonal antibodies, and to target tumor-associated antigens with chimeric antigen receptors (CARs). The Companys immuno-regulatory product candidates include ProTmune, a pharmacologically modulated, donor cell graft that is currently being evaluated in a Phase 2 clinical trial for the prevention of graft-versus-host disease, and a myeloid-derived suppressor cell immunotherapy for promoting immune tolerance in patients with immune disorders. Fate Therapeutics is headquartered in San Diego, CA. For more information, please visit http://www.fatetherapeutics.com.

Forward-Looking StatementsThis release contains "forward-looking statements" within the meaning of the Private Securities Litigation Reform Act of 1995 including statements regarding the advancement of and plans related to the Company's product candidates and clinical studies, the Companys progress, plans and timelines for the clinical investigation of its product candidates, the therapeutic potential of the Companys product candidates including FT538, and the Companys clinical development strategy for FT538. These and any other forward-looking statements in this release are based on management's current expectations of future events and are subject to a number of risks and uncertainties that could cause actual results to differ materially and adversely from those set forth in or implied by such forward-looking statements. These risks and uncertainties include, but are not limited to, the risk of difficulties or delay in the initiation of any planned clinical studies, or in the enrollment or evaluation of subjects in any ongoing or future clinical studies, the risk that the Company may cease or delay preclinical or clinical development of any of its product candidates for a variety of reasons (including requirements that may be imposed by regulatory authorities on the initiation or conduct of clinical trials or to support regulatory approval, difficulties in manufacturing or supplying the Companys product candidates for clinical testing, and any adverse events or other negative results that may be observed during preclinical or clinical development), the risk that results observed in preclinical studies of FT538 may not be replicated in ongoing or future clinical trials or studies, and the risk that FT538 may not produce therapeutic benefits or may cause other unanticipated adverse effects. For a discussion of other risks and uncertainties, and other important factors, any of which could cause the Companys actual results to differ from those contained in the forward-looking statements, see the risks and uncertainties detailed in the Companys periodic filings with the Securities and Exchange Commission, including but not limited to the Companys most recently filed periodic report, and from time to time in the Companys press releases and other investor communications.Fate Therapeutics is providing the information in this release as of this date and does not undertake any obligation to update any forward-looking statements contained in this release as a result of new information, future events or otherwise.

Contact:Christina TartagliaStern Investor Relations, Inc.212.362.1200christina@sternir.com

See the original post:
Fate Therapeutics Announces FDA Clearance of IND Application for FT538, First CRISPR-edited, iPSC-derived Cell Therapy - Yahoo Finance

President Trump announced on Wednesday that the United States will pull out from the major 35-nation arms control treaty that allows nations to operate reconnaissance flights over other territoriesa critical agreement for building trust and maintaining peace between countries. The official withdrawal from the post-Cold War Open Skies agreement will reportedly happen in six months in accordance with the treatys exit policy. The move was prompted by several instances where Russia refused to comply with the pact, which poses a threat to the U.S. military and cybersecurity, The New York Times reports.

It will be the third major arms control agreement Trump has chosen to exitafter the Iran nuclear deal and the Intermediate Nuclear Forces treatyand reportedly indicates that he may also choose to pull out from the U.S.-Russia nuclear pact START. During the course of this review it has become abundantly clear that it is no longer in Americas interests to remain a party to the Open Skies treaty, a top U.S. official told Reuters.

Link:
Trump Moves to Withdraw From Yet Another Arms Control Treaty - The Daily Beast

Any company in Michigan that allows Donald Trump inside its facilities without wearing a face mask could face legal action, the states attorney general has warned ahead of the presidents Thursday visit. Trump is due in the state to look around a Ford facility in Ypsilanti that has been repurposed to make ventilators for coronavirus patients. The president has refused to wear a mask in public so farbut thats not something state officials will take lightly. Michigan Attorney General Dana Nessel told CNN early Thursday: Honestly, if [Trump] fails to wear a mask, hes going to be asked not to return to any enclosed facilities inside our state. She added: I think were going to take action against any company or any facility that allows him inside those facilities and puts our workers at risk. We simply cant afford it here in our state. Rep. Debbie Dingell (D-MI), who represents the district that includes the Ford plant, also told CNN: Leaders need to lead... I hope the president will follow the protocols because people will see the importance of wearing those masks. It matters. Michigan has been hard-hit by the pandemic, with more than 52,000 cases and more than 5,000 deaths.

See the article here:
Michigan Will Sue Companies That Let Trump Inside Unmasked, Warns State AG - The Daily Beast

Ontario Announces First Phase of Research Projects to Fight COVID-19Ontario-Based Solutions Contribute to the Global Effort against the Outbreak

Ontario is funding the following research on preventing, detecting and treating COVID-19. These projects focus on important areas of research, including vaccine development, diagnostics, drug trials and development, and social sciences.

A Randomized Open-Label Trial of CONvalescent Plasma for Hospitalized Adults with Acute COVID-19 Respiratory Illness (CONCOR-1)Donald Arnold, Principal InvestigatorMcMaster University

CONCOR-1 is a clinical trial that will collect blood plasma from individuals who have recovered from COVID-19, known as COVID-19 convalescent plasma. Convalescent plasma contains COVID-19 antibodies, proteins that help fight the virus. Convalescent plasma will be injected into patients currently fighting the infection, to test whether this is an effective treatment for the virus. This clinical trial will enrol patients 16 years of age and older admitted to hospital with COVID-19 and who require supplemental oxygen for respiratory illness.

Partners include 60 hospitals across Canada and three hospitals in New York City, the Canadian Blood Services and Hma-Qubec and the New York Blood Center.

Research and Deployment of Rapid High-Throughput Diagnostic Testing for COVID-19Marek Smieja, Principal InvestigatorSt Joseph's Healthcare Hamilton

This project will increase Ontario's COVID-19 testing capacity by deploying robotic liquid handling technology, specimen pooling, and efficient sample preparation, while reducing biological risk and ensuring reliable results. The Disease Diagnostics & Development group in the Research Institute of St Joe's Hamilton (RSJH) is collaborating with the Hamilton Regional Laboratory Medicine Program (HRLMP) and other clinical laboratories across the province to quickly develop, validate, and deliver high-throughput, COVID-19 testing, with the goal of testing up to 6,000 samples per lab daily.

Assay Development for SARS-CoV-2 Sero-SurveillanceJennifer Gommerman, Principal InvestigatorUniversity of Toronto

This study will provide a better understanding of the immune response to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus that causes COVID-19. This approach aims to measure the level and/or types of antibodies induced by SARS-CoV-2 infection in the blood of acute and convalescent patients. In addition, measuring these antibodies in the saliva of asymptomatic infected subjects identified through contact tracing will provide insights into what the early immune response to the virus looks like, and how this may correlate with clinical outcome. This knowledge, as well as the development of a robust serosurveillance platform, represents a powerful weapon in our fight against COVID-19.

Multivalent Antibody Scaffold to Deliver an Exceptionally Potent and Broad Antiviral Against SARS-CoV-2Jean-Philippe Julien, Principal InvestigatorThe Hospital for Sick Children

This project has the potential to develop a unique antibody-based molecule for protection and treatment against COVID-19. Molecular technology will allow these researchers to decipher the vulnerabilities of the virus with the goal of developing a potent and broad antiviral that neutralizes SARS-CoV-2 and prevents associated COVID-19 symptoms.

Developing Prophylactic Virus-Vectored Vaccines for COVID-19Byram Bridle, Leonardo Susta and Sarah Wootton (Co-Principal Investigators, University of Guelph); Darwyn Kobasa, National Microbiology Laboratory, Public Health Agency of Canada (Collaborator) University of Guelph

This research aims to develop a vaccination strategy for COVID-19. By developing avian avulavirus (AAvV-1) and adenovirus viral-vectored vaccines expressing the SARS-CoV-2 spike protein as a target antigen, researchers will test these vaccines in mice to identify a way to induce robust protective mucosal (respiratory, gastrointestinal and urogenital tract) and systemic immunity. Mucosal immunity plays a significant role in preventing pathogens from getting into the body. Systemic immunity clears any pathogens that bypass mucosal barriers. After optimization, these vaccines will be evaluated in a hamster challenge model at the National Microbiology Laboratory in Winnipeg.

The RAPID COVID Study - Application of Point-of-Care COVID-19 Testing to Optimize Patient Care, Resource Allocation and Safety for Frontline StaffDerek So, Principal InvestigatorUniversity of Ottawa Heart Institute

This study will determine the role of point-of-care testing (POC) as a tool to improve care of COVID-19 patients and conserve resources. A major obstacle facing hospitals during the COVID-19 outbreak is the inability to quickly diagnose who is infected with the virus. Delayed test results could mean that patients, who ultimately test negative, are treated for days utilising resources that could be better deployed elsewhere. An immediate diagnosis of COVID-19 among carriers could provide more expedient treatment, prevent clinical deterioration and help health care workers avoid unnecessary risk of exposure.

In collaboration with Spartan Biosciences, which has developed a novel point-of-care 45-minute bedside COVID-19 test, and a team of specialists from six centres in Ontario, this research will evaluate the efficacy of POC testing to determine when, how and to who it can be applied.

A Prospective, Observational Research Study on the Diagnosis of COVID-19 Infection from Stool Samples of Children and AdultsNikhil Pai, Jeff Pernica, Marek Smieja (Co-Principal Investigators)McMaster University

Through the development and use of a novel test to diagnose COVID-19 from stool samples, this team will assess up to 4,500 stool samples collected from outpatient clinics, emergency departments and inpatient wards across eight major Hamilton region hospitals and clinics. This work will improve COVID-19 disease detection in children and adults who lack respiratory symptoms, are asymptomatic, or are presumed to have "recovered" from past infection. The researchers hope to expand COVID-19 testing options across Canada and ultimately, better identify patients who carry high risk of community transmission than traditional respiratory testing alone.

Cellular Immuno-Therapy for COVID-19 Induced Acute Respiratory Distress Syndrome: The CIRCA-19 TrialDuncan Stewart, Principal InvestigatorOttawa Hospital Research Institute

Through a series of trials, this research will rapidly evaluate the safety and efficacy of using mesenchymal stromal/stem cells, or MSCs, to help treat patients with COVID-19 related acute respiratory distress syndrome (ARDS). Up to 25 percent of all patients admitted to hospital require admission to an intensive care unit, and as many as 40 percent develop severe difficulty breathing due to ARDS.

In total, 27 patients will undergo three sequential trials. The first trial, called the Vanguard study, is designed to quickly determine the optimal dosing strategy of MSCs derived from bone marrow to treat patients experiencing ARDS. The next two trials will use the optimal dose of cells determined by the Vanguard trial, but will administer MSCs derived from the umbilical cord, which is an abundant and readily available source.

Rapid Identification of Immunogenic and T-cell Epitopes to Enable Serologic Testing, Passive Immunotherapy, and Epitope Vaccine for COVID-19Shawn Li, Principal InvestigatorWestern University

To curb the COVID-19 outbreak caused by the SARS-CoV-2 virus, researchers are looking to solve three critical challenges as quickly as possible - detection, treatment, and vaccination. This project will address these challenges by developing a point-of-care blood test to identify infected individuals, including those without symptoms, devising strategies for the production of virus-neutralizing antibodies to treat the severely ill, and identifying viral epitopes to inform epitope-vaccine development.

The Impact of the Coronavirus Pandemic on Children with Medical Complexity Technology Dependency: A Novel Research Cohort StudyAudrey Lim, Principal InvestigatorMcMaster University

This study addresses how to effectively manage pediatric patients remotely by identifying the barriers and facilitators of virtual clinics. COVID-19 is placing strain on families of children with medical complexity, medical fragility and technology dependency. Many of these children are dependent on life sustaining technology such as tracheostomy, home mechanical ventilation, and/or enteral feeding tubes. Though accounting for less than 1 percent of all children in Ontario, this group is at increased risk of multiple and prolonged hospitalizations and poorer health outcomes. Normally, these children are seen at a hospital to address their multiple complex needs, however due to COVID-19, all in-person clinic appointments have been replaced by virtual clinics. Parental satisfaction with virtual clinic healthcare teams will also be assessed using a quality improvement tool developed for this study. This research has the potential to advance virtual medicine, beyond COVID-19.

Food Retail Environment Surveillance for Health and Economic Resiliency: FRESHER OntarioJason Gilliland, Principal InvestigatorWestern University

The Food Retail Environment Surveillance for Health & Economic Resiliency (FRESHER) project is a rapid response to the widespread closures of, and modified operating conditions for, many retail food outlets. The FRESHER project will examine the economic and social impacts of COVID-19 in Southwestern Ontario by identifying what businesses modified their operations, temporarily closed or permanently closed during the outbreak and how the outbreak has affected businesses and their employees. This study will help inform policies and programs that will maintain Ontario's food security, incentivize economic growth during the recovery period, and improve resiliency among businesses during future pandemics and emergencies.

Protective Immunity in Individuals Infected with COVID-19Ishac Nazy, Principal InvestigatorMcMaster University

The goal of this research is to determine the makeup, concentration, strength and viral properties of anti-SARS-CoV-2 antibodies to provide insights into the immune response of individuals infected with COVID-19. Working with Dr. Arnold (CONCOR-1 study on convalescent plasma therapy), this team will use samples from recovered patients to test whether antibodies exist, and if they are able to bind and neutralize the virus. This research will determine whether immunity is longstanding or if it wanes over time; and will inform researchers how immune-based treatments work to fight off the virus, including convalescent plasma or future vaccines.

Clinical Research on the Therapeutic Benefits of Annexin A5 in Severe COVID-19 PatientsClaudio Martin, Principal InvestigatorLawson Health Research Institute

There are currently no proven therapies to treat COVID-19. In the most severe cases, the disease is complicated by sepsis acute respiratory distress syndrome (ARDS), and multiorgan failure. Sepsis is a life-threatening condition caused by the body's response to an infection. While the body normally releases chemicals to fight an infection, sepsis occurs when the body's response to these chemicals is out of balance, triggering systemic inflammation that can damage multiple organs. Many critically ill COVID-19 patients develop sepsis 1-2 days before ARDS, suggesting that sepsis is a major contributor to the development of organ and respiratory failure.

This clinical trial will examine the effects of Annexin A5, in treating critically ill COVID-19 patients who develop sepsis. Annexin A5 is a human protein that has potent anti-inflammatory, anti-apoptotic (cell death prevention) and moderate anticoagulant (blood clot prevention) properties. The ultimate goal of the trial is to use Annexin A5 to treat sepsis and prevent respiratory and multi-organ failure.

Novel Coronavirus Antiviral Drug Discovery Using High-Throughput ScreeningJean-Simon Diallo, Principal InvestigatorOttawa Hospital Research Institute

Using a novel bio-sensor that detects drugs that disrupt the attachment of coronaviruses to cells, this research will test approximately 1,200 approved drugs to better understand their potential to prevent viral infection in cells and their ability to block the interaction between COVID-19 and its receptor. A second phase of this study will attempt to identify novel antivirals from a small (>220,000) molecule library.

Canada's COVID-19 Pandemic Response and Impact in Low-Income and Homeless or At-Risk for Homelessness Populations in Ottawa (Canada): A Mixed Method StudySmita Pakhale, Principal InvestigatorThe Ottawa Hospital Research Institute

Vulnerable populations face numerous social and health inequities that are exacerbated during times of crises. Lessons learned from previous public health crises suggest that inappropriate communication strategies jeopardize risk reduction for vulnerable populations. The objective of this research is to measure the impacts of COVID-19 public health emergency response efforts and communication strategies on Ottawa's low-income, homeless or at-risk for homelessness populations. The findings could help inform public health messaging strategies and pandemic approaches for vulnerable populations.

More:
Ontario Announces First Phase of Research Projects to Fight COVID-19 - Government of Ontario News

If these were normal circumstances, Yuki Bhambri would probably be back on the grind of the tennis tour trying to qualify for a Grand Slam again. It would be a far cry from his breakthrough 2018 season, where he crossed top 100 and played all four Majors, but at least he would be back and fighting on court.

However as things stand, the former India No 1 has not played a competitive match since October 2018 after battling a debilitating knee injury that wasnt correctly diagnosed for months and led to a layoff that is 18 months and counting now.

From a career-best ranking of 83 in April 2018 to losing his ranking and being tagged as inactive on the official ATP charts, it has been a period of difficulty and confusion for the 27-year-old, who has been a junior world No 1 and Grand Slam champion.

Its been a pain a struggle. The [past] 18 months have felt like five years. From not being able to really put any load on my knee, I think its a big achievement to be able to finally get back to playing tennis and do even the basic exercises, Bhambri told Scroll.in.

But even then, there are two ways to look at the long time away from the sport due to injury and now an extended break due to the coronavirus pandemic. The positive is, of course, a shutdown of the entire tennis tour means that the timeline for recovery is extended. Does he see this time off, although due to a negative reason, as beneficial?

Yes, it does for me and for everyone whos been out injured because you dont miss out on the tour. Everyone in the same situation, everyone comes back without hitting a tennis ball for months. Ill not be missing the Grand Slams or any events and it gives me time to come back. So for the few ones, like me, Roger Federer, Juan Martin del Potro, this is a good time. Of course, you dont want it to happen due to a pandemic, he added.

The Indian has been spending time at home in Delhi, trying to get whatever fitness training he can at home with the tennis courts shut amid the nationwide lockdown but he knows its not enough.

Its difficult and different, no matter how much you train at home, its not the same. Youre obviously doing it for your career, for tennis and Im not able to play it and theres only a certain amount that you can really do at home. For me, its really just about being active and doing bits and pieces so that I dont have to start from scratch when I get back on the court, he added.

I was already following a bunch of exercises I need to for my knee rehab. But sometimes modifications are needed and Im in constant touch with my team. Theres only so much you know you can do but I think Ive been good enough in being active, said the Indian who is coached by Stephen Koon from the Impact Tennis Academy in Thailand.

Bhambri admitted that he is unsure if he would be a 100% if the tour were to restart.

Its pretty good but I am not match-fit. I made a lot of progress and if I had to, even right now Id give myself a 70% chance. I need to get out there and practice because I havent done anything in regards to my physical fitness for about over a year and a half now.

The body takes some time to get used to it again and for that Id have to be on the court I presume for at least a couple of months, to be able to get back to running and being able to take the load of a match. I had just started to do that and get into a routine when the lockdown happened. Once its over Ill get back to practice but looking at things, we may not have a tennis season this year he added.

As candid as Bhambri is while talking about the past few months, the toll becomes evident when he describes the excruciating details of his injury and the experimental treatment. He was injured in mid-2018 but it was only in September 2019 when he consulted with Dr Angel Ruiz Cortorro, who has worked with many top injured tennis players including Rafael Nadal, that Bhambri got a clear idea of the problem.

From what I understand of the diagnosis I have a small, partial tear in the medial part of my knee. Because it was tiny and in the middle of the tendon, no one could really figure it out and I was somewhere stuck in between because surgery would have been too big a step to repair it and the basic modern medication and therapy werent working. So I had to try different kinds of treatments, different injections to help heal the tendon, he said.

I was seeing doctors in the US and getting different opinions. But a few of them had the same idea, which was an experimental treatment called stem cell. This procedure was more advanced in Spain and there are very few countries that actually do it; they dont even do it in the States. Since I was getting different opinions, I decided to get in touch with Dr Cortorro just to have another opinion and went with him because hes the one who has treated a lot of tennis players who had knee trouble, Bhambri added.

The decision paid off because after almost a year of taking different injections and waiting for months to see if they made a difference, he finally made progress in late 2019. Around the new year is when I got back on court to hit the ball and I have seen improvement every week, which is a good sign.

Also read: Yuki Bhambri on building up the ammo to fire his way to the top

In his career so far, Bhambri is no stranger to injuries or fighting back from them, but even then one needs immense self-belief to be able to deal with this long and complicated rehab process.

There havent been too many positives, he laughed, but admitted that his success in 2017-18 was a reminder of what he is capable of.

I needed to keep reminding myself that I want to come back and continue playing to get back at the level I was at. I think having tasted success of finally playing the Slams, my first Wimbledon, winning a few matches at the Masters 1000 in Indian Wells and Miami, pushed me as well to try. Wanting to play those events again kept me going, he said.

Coming from a family of tennis players also helped the 27-year-old. His sister Ankita is the Indian Fed Cup coach while other sister Sanaa and cousin Prerna are all pro tennis players.

Theyre always on the lookout, helping out; specially both my sisters who have been helping with the research, making sure I am finishing training and not being lazy my parents coming in and asking if Ive iced my knee or not. So theyve all been actively involved and try to help it in whatever way they can, he said.

Read the original:
Indian tennis: For injury-plagued Yuki Bhambri, the lockdown is both a chance and another challenge - Scroll.in

Three arms of this trial will be leronlimab, remdesivir, and leronlimab + remdesivir

VANCOUVER, Washington, May 18, 2020 (GLOBE NEWSWIRE) -- CytoDyn Inc. (OTC.QB: CYDY), (CytoDyn or the Company), a late-stage biotechnology company developing leronlimab (PRO 140), a CCR5 antagonist with the potential for multiple therapeutic indications, today announced it will be submitting a protocol to the U.S. Food and Drug Administration (FDA) for a factorial design trial to compare effectiveness of leronlimab versus remdesivir and in combination with remdesivir for the treatment of COVID-19.

Leronlimab was administered to more than sixty patients with COVID-19 under emergency Investigational New Drug (eINDs) authorizations granted by the FDA. Preliminary results from this patient population led to CytoDyns Phase 2b/3 clinical trial for 390 patients, which is randomized, placebo-controlled with 2:1 ratio (active drug to placebo ratio). CytoDyn has also been granted a Phase 2 randomized clinical trial study in the U.S. for a Phase 2 randomized clinical trial for mild-to-moderate COVID-19 population in the U.S. CytoDyn plans to update the public regarding current eIND results later this week.

We believe the randomized head-to-head comparison of leronlimab to remdesivir and in combination will provide answers to the lingering question regarding effective treatment options for patients suffering from COVID-19. We look forward to working both in the United States and with potential international sites to help provide effective treatment options for COVID-19, said Jacob Lalezari, M.D., Chief Science Officer of CytoDyn.

Unfortunately, COVID-19 remains a global public health challenge, and its economic impact continues to devastate the world economy. With a second wave of potential cases threatening to surface in the fall and winter of 2020, it is more important than ever to be sure successful treatment options are available to protect the lives of patients. CytoDyn has assurance from its manufacturer that it will have available over 1 million vials this year and could ramp up production to 2-3 million vials this year alone, said, Nader Pourhassan, Ph.D., President and Chief Executive Officer of CytoDyn.

About Coronavirus Disease 2019CytoDyn is currently enrolling patients in two clinical trials for COVID-19, a Phase 2 randomized clinical trial for mild-to-moderate COVID-19 population in the U.S. and a Phase 2b/3 randomized clinical trial for severe and critically ill COVID-19 population in several hospitals throughout the country.

SARS-CoV-2 was identified as the cause of an outbreak of respiratory illness first detected in Wuhan, China. The origin of SARS-CoV-2 causing the COVID-19 disease is uncertain, and the virus is highly contagious. COVID-19 typically transmits person to person through respiratory droplets, commonly resulting from coughing, sneezing, and close personal contact. Coronaviruses are a large family of viruses, some causing illness in people and others that circulate among animals. For confirmed COVID-19 infections, symptoms have included fever, cough, and shortness of breath. The symptoms of COVID-19 may appear in as few as two days or as long as 14 days after exposure. Clinical manifestations in patients have ranged from non-existent to severe and fatal. At this time, there are minimal treatment options for COVID-19.

About Leronlimab (PRO 140) and BLA Submission for the HIV Combination TherapyThe FDA has granted a Fast Track designation to CytoDyn for two potential indications of leronlimab for deadly diseases. The first as a combination therapy with HAART for HIV-infected patients and the second is for metastatic triple-negative breast cancer.Leronlimab is an investigational humanized IgG4 mAb that blocks CCR5, a cellular receptor that is important in HIV infection, tumor metastases, and other diseases, including NASH.Leronlimab has completed nine clinical trials in over 800 people, including meeting its primary endpoints in a pivotal Phase 3 trial (leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients).

In the setting of HIV/AIDS, leronlimab is a viral-entry inhibitor; it masks CCR5, thus protecting healthy T cells from viral infection by blocking the predominant HIV (R5) subtype from entering those cells. Leronlimab has been the subject of nine clinical trials, each of which demonstrated that leronlimab could significantly reduce or control HIV viral load in humans. The leronlimab antibody appears to be a powerful antiviral agent leading to potentially fewer side effects and less frequent dosing requirements compared with daily drug therapies currently in use.

The Company filed its BLA for Leronlimab as a Combination Therapy for Highly Treatment Experienced HIV Patients with the FDA on April 27, 2020, and submitted additional FDA requested clinical datasets on May 11, 2020. After the BLA submission is deemed completed, the FDA sets a PDUFA goal date. CytoDyn has Fast Track designation for leronlimab and a rolling review for its BLA, as previously assigned by the FDA, and the Company plans to request a priority review for the BLA. A priority review designation means the FDAs goal is to take action on the marketing application within six months of receipt (compared with 10 months under standard review).

In the setting of cancer, research has shown that CCR5 may play a role in tumor invasion, metastases, and tumor microenvironment control. Increased CCR5 expression is an indicator of disease status in several cancers. Published studies have shown that blocking CCR5 can reduce tumor metastases in laboratory and animal models of aggressive breast and prostate cancer. Leronlimab reduced human breast cancer metastasis by more than 98% in a murine xenograft model. CytoDyn is, therefore, conducting aPhase 1b/2 human clinical trial in metastatic triple-negative breast cancer and was granted Fast Track designation in May 2019.

The CCR5 receptor appears to play a central role in modulating immune cell trafficking to sites of inflammation. It may be crucial in the development of acute graft-versus-host disease (GvHD) and other inflammatory conditions. Clinical studies by others further support the concept that blocking CCR5 using a chemical inhibitor can reduce the clinical impact of acute GvHD without significantly affecting the engraftment of transplanted bone marrow stem cells. CytoDyn is currently conducting a Phase 2 clinical study with leronlimab to support further the concept that the CCR5 receptor on engrafted cells is critical for the development of acute GvHD, blocking the CCR5 receptor from recognizing specific immune signaling molecules is a viable approach to mitigating acute GvHD. The FDA has granted orphan drug designation to leronlimab for the prevention of GvHD.

About CytoDynCytoDyn is a late-stage biotechnology company developing innovative treatments for multiple therapeutic indications based on leronlimab, a novel humanized monoclonal antibody targeting the CCR5 receptor. CCR5 appears to play a critical role in the ability of HIV to enter and infect healthy T-cells.The CCR5 receptor also appears to be implicated in tumor metastasis and immune-mediated illnesses, such as GvHD and NASH. CytoDyn has successfully completed a Phase 3 pivotal trial with leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients. CytoDyn filed its BLA in April 2020 to seek FDA approval for leronlimab as a combination therapy for highly treatment experienced HIV patients, and submitted additional FDA requested clinical datasets on May 11, 2020. CytoDyn is also conducting a Phase 3 investigative trial with leronlimab as a once-weekly monotherapy for HIV-infected patients. CytoDyn plans to initiate a registration-directed study of leronlimab monotherapy indication. If successful, it could support a label extension. Clinical results to date from multiple trials have shown that leronlimab can significantly reduce viral burden in people infected with HIV. No drug-related serious site injection reactions reported in about 800 patients treated with leronlimab and no drug-related SAEs reported in patients treated with 700 mg dose of leronlimab. Moreover, a Phase 2b clinical trial demonstrated that leronlimab monotherapy can prevent viral escape in HIV-infected patients; some patients on leronlimab monotherapy have remained virally suppressed for more than five years. CytoDyn is also conducting a Phase 2 trial to evaluate leronlimab for the prevention of GvHD and a Phase 1b/2 clinical trial with leronlimab in metastatic triple-negative breast cancer. More information is atwww.cytodyn.com.

Forward-Looking StatementsThis press releasecontains certain forward-looking statements that involve risks, uncertainties and assumptions that are difficult to predict. Words and expressions reflecting optimism, satisfaction or disappointment with current prospects, as well as words such as believes, hopes, intends, estimates, expects, projects, plans, anticipates and variations thereof, or the use of future tense, identify forward-looking statements, but their absence does not mean that a statement is not forward-looking. Forward-looking statements specifically include statements about leronlimab, its ability to have positive health outcomes, the possible results of clinical trials, studies or other programs or ability to continue those programs, the ability to obtain regulatory approval for commercial sales, and the market for actual commercial sales. The Companys forward-looking statements are not guarantees of performance, and actual results could vary materially from those contained in or expressed by such statements due to risks and uncertainties including: (i)the sufficiency of the Companys cash position, (ii)the Companys ability to raise additional capital to fund its operations, (iii) the Companys ability to meet its debt obligations, if any, (iv)the Companys ability to enter into partnership or licensing arrangements with third parties, (v)the Companys ability to identify patients to enroll in its clinical trials in a timely fashion, (vi)the Companys ability to achieve approval of a marketable product, (vii)the design, implementation and conduct of the Companys clinical trials, (viii)the results of the Companys clinical trials, including the possibility of unfavorable clinical trial results, (ix)the market for, and marketability of, any product that is approved, (x)the existence or development of vaccines, drugs, or other treatments that are viewed by medical professionals or patients as superior to the Companys products, (xi)regulatory initiatives, compliance with governmental regulations and the regulatory approval process, (xii)general economic and business conditions, (xiii)changes in foreign, political, and social conditions, and (xiv)various other matters, many of which are beyond the Companys control. The Company urges investors to consider specifically the various risk factors identified in its most recent Form10-K, and any risk factors or cautionary statements included in any subsequent Form10-Q or Form8-K, filed with the Securities and Exchange Commission. Except as required by law, the Company does not undertake any responsibility to update any forward-looking statements to take into account events or circumstances that occur after the date of this press release.

CYTODYN CONTACTSInvestors: Dave Gentry, CEORedChip CompaniesOffice: 1.800.RED.CHIP (733.2447)Cell: 407.491.4498dave@redchip.com

Read this article:
CytoDyn to Prepare a Phase 3 Protocol to Submit to the FDA for a Three-Arm Comparative and Combination Trial of Leronlimab and Remdesivir -...

The study is anticipated to consist of approximately thirty patients with potential involvement of the NIH of Mexico in other CytoDyn trials

VANCOUVER, Washington, May 19, 2020 (GLOBE NEWSWIRE) -- CytoDyn Inc. (OTC.QB: CYDY), (CytoDyn” or the Company”), a late-stage biotechnology company developing leronlimab (PRO 140), a CCR5 antagonist with the potential for multiple therapeutic indications, today announced it will be coordinating with the NIH of Mexico and providing leronlimab for a trial for the severe/critical COVID-19 population in Mexico with the potential to collaborate on further CytoDyn COVID-19 trials.

CytoDyn is currently enrolling a Phase 2b/3 clinical trial for 390 patients, which is a randomized, placebo-controlled with 2:1 ratio (active drug to placebo ratio). CytoDyn is also enrolling a Phase 2 randomized clinical trial with 75 patients in the mild-to-moderate COVID-19 population. CytoDyn has been granted more than sixty emergency Investigational New Drug (eIND) authorizations by the U.S. Food and Drug Administration (FDA) and plans to provide clinical updates for this patient population later in the week.

We look forward to evaluating leronlimab as a treatment option for patients of COVID-19. We have seen the devastation of this disease on the citizens of Mexico and are looking forward to providing effective treatment options to mitigate the devastation of COVID-19,” said Dr. Gustavo Reyes Tern, head of the Coordinating Commission of National Institutes of Health and High Specialty Hospitals of Mexico, an organization that coordinates the main institutions of medical care and public research in the country.

The NIH of Mexico is committed to help alleviate human suffering and mortality of Mexican citizens. The Metropolitan Area of the Valley of Mexico has a population of approximately 21.5 million people and the contagious nature of COVID-19 is relentless. We look forward to working with the NIH of Mexico to rapidly commence with the proposed study. We also believe that this study results, along with the ongoing Phase 2 study, could establish a path for quick approval in Mexico for use of leronlimab in COVID-19 patients,” said Nader Pourhassan, Ph.D., President and Chief Executive Officer of CytoDyn.

About Coronavirus Disease 2019 CytoDyn is currently enrolling patients in two clinical trials for COVID-19, a Phase 2 randomized clinical trial for mild-to-moderate COVID-19 population in the U.S. and a Phase 2b/3 randomized clinical trial for severe and critically ill COVID-19 population in several hospitals throughout the country.

SARS-CoV-2 was identified as the cause of an outbreak of respiratory illness first detected in Wuhan, China. The origin of SARS-CoV-2 causing the COVID-19 disease is uncertain, and the virus is highly contagious. COVID-19 typically transmits person to person through respiratory droplets, commonly resulting from coughing, sneezing, and close personal contact. Coronaviruses are a large family of viruses, some causing illness in people and others that circulate among animals. For confirmed COVID-19 infections, symptoms have included fever, cough, and shortness of breath. The symptoms of COVID-19 may appear in as few as two days or as long as 14 days after exposure. Clinical manifestations in patients have ranged from non-existent to severe and fatal. At this time, there are minimal treatment options for COVID-19.

About Leronlimab (PRO 140) and BLA Submission for the HIV Combination Therapy The FDA has granted a Fast Track” designation to CytoDyn for two potential indications of leronlimab for deadly diseases. The first as a combination therapy with HAART for HIV-infected patients and the second is for metastatic triple-negative breast cancer. Leronlimab is an investigational humanized IgG4 mAb that blocks CCR5, a cellular receptor that is important in HIV infection, tumor metastases, and other diseases, including NASH. Leronlimab has completed nine clinical trials in over 800 people, including meeting its primary endpoints in a pivotal Phase 3 trial (leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients).

In the setting of HIV/AIDS, leronlimab is a viral-entry inhibitor; it masks CCR5, thus protecting healthy T cells from viral infection by blocking the predominant HIV (R5) subtype from entering those cells. Leronlimab has been the subject of nine clinical trials, each of which demonstrated that leronlimab could significantly reduce or control HIV viral load in humans. The leronlimab antibody appears to be a powerful antiviral agent leading to potentially fewer side effects and less frequent dosing requirements compared with daily drug therapies currently in use.

The Company filed its BLA for Leronlimab as a Combination Therapy for Highly Treatment Experienced HIV Patients with the FDA on April 27, 2020, and submitted additional FDA requested clinical datasets on May 11, 2020. After the BLA submission is deemed completed, the FDA sets a PDUFA goal date. CytoDyn has Fast Track designation for leronlimab and a rolling review for its BLA, as previously assigned by the FDA, and the Company plans to request a priority review for the BLA. A priority review designation means the FDA’s goal is to take action on the marketing application within six months of receipt (compared with 10 months under standard review).

In the setting of cancer, research has shown that CCR5 may play a role in tumor invasion, metastases, and tumor microenvironment control. Increased CCR5 expression is an indicator of disease status in several cancers. Published studies have shown that blocking CCR5 can reduce tumor metastases in laboratory and animal models of aggressive breast and prostate cancer. Leronlimab reduced human breast cancer metastasis by more than 98% in a murine xenograft model. CytoDyn is, therefore, conducting a Phase 1b/2 human clinical trial in metastatic triple-negative breast cancer and was granted Fast Track designation in May 2019.

The CCR5 receptor appears to play a central role in modulating immune cell trafficking to sites of inflammation. It may be crucial in the development of acute graft-versus-host disease (GvHD) and other inflammatory conditions. Clinical studies by others further support the concept that blocking CCR5 using a chemical inhibitor can reduce the clinical impact of acute GvHD without significantly affecting the engraftment of transplanted bone marrow stem cells. CytoDyn is currently conducting a Phase 2 clinical study with leronlimab to support further the concept that the CCR5 receptor on engrafted cells is critical for the development of acute GvHD, blocking the CCR5 receptor from recognizing specific immune signaling molecules is a viable approach to mitigating acute GvHD. The FDA has granted orphan drug” designation to leronlimab for the prevention of GvHD.

About CytoDyn CytoDyn is a late-stage biotechnology company developing innovative treatments for multiple therapeutic indications based on leronlimab, a novel humanized monoclonal antibody targeting the CCR5 receptor. CCR5 appears to play a critical role in the ability of HIV to enter and infect healthy T-cells. The CCR5 receptor also appears to be implicated in tumor metastasis and immune-mediated illnesses, such as GvHD and NASH. CytoDyn has successfully completed a Phase 3 pivotal trial with leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients. CytoDyn filed its BLA in April 2020 to seek FDA approval for leronlimab as a combination therapy for highly treatment experienced HIV patients, and submitted additional FDA requested clinical datasets on May 11, 2020. CytoDyn is also conducting a Phase 3 investigative trial with leronlimab as a once-weekly monotherapy for HIV-infected patients. CytoDyn plans to initiate a registration-directed study of leronlimab monotherapy indication. If successful, it could support a label extension. Clinical results to date from multiple trials have shown that leronlimab can significantly reduce viral burden in people infected with HIV. No drug-related serious site injection reactions reported in about 800 patients treated with leronlimab and no drug-related SAEs reported in patients treated with 700 mg dose of leronlimab. Moreover, a Phase 2b clinical trial demonstrated that leronlimab monotherapy can prevent viral escape in HIV-infected patients; some patients on leronlimab monotherapy have remained virally suppressed for more than five years. CytoDyn is also conducting a Phase 2 trial to evaluate leronlimab for the prevention of GvHD and a Phase 1b/2 clinical trial with leronlimab in metastatic triple-negative breast cancer. More information is at http://www.cytodyn.com.

Forward-Looking Statements This press release contains certain forward-looking statements that involve risks, uncertainties and assumptions that are difficult to predict. Words and expressions reflecting optimism, satisfaction or disappointment with current prospects, as well as words such as believes,” hopes,” intends,” estimates,” expects,” projects,” plans,” anticipates” and variations thereof, or the use of future tense, identify forward-looking statements, but their absence does not mean that a statement is not forward-looking. Forward-looking statements specifically include statements about leronlimab, its ability to have positive health outcomes, the possible results of clinical trials, studies or other programs or ability to continue those programs, the ability to obtain regulatory approval for commercial sales, and the market for actual commercial sales. The Company’s forward-looking statements are not guarantees of performance, and actual results could vary materially from those contained in or expressed by such statements due to risks and uncertainties including: (i) the sufficiency of the Company’s cash position, (ii) the Company’s ability to raise additional capital to fund its operations, (iii) the Company’s ability to meet its debt obligations, if any, (iv) the Company’s ability to enter into partnership or licensing arrangements with third parties, (v) the Company’s ability to identify patients to enroll in its clinical trials in a timely fashion, (vi) the Company’s ability to achieve approval of a marketable product, (vii) the design, implementation and conduct of the Company’s clinical trials, (viii) the results of the Company’s clinical trials, including the possibility of unfavorable clinical trial results, (ix) the market for, and marketability of, any product that is approved, (x) the existence or development of vaccines, drugs, or other treatments that are viewed by medical professionals or patients as superior to the Company’s products, (xi) regulatory initiatives, compliance with governmental regulations and the regulatory approval process, (xii) general economic and business conditions, (xiii) changes in foreign, political, and social conditions, and (xiv) various other matters, many of which are beyond the Company’s control. The Company urges investors to consider specifically the various risk factors identified in its most recent Form 10-K, and any risk factors or cautionary statements included in any subsequent Form 10-Q or Form 8-K, filed with the Securities and Exchange Commission. Except as required by law, the Company does not undertake any responsibility to update any forward-looking statements to take into account events or circumstances that occur after the date of this press release.

CYTODYN CONTACTS Investors: Dave Gentry, CEO RedChip Companies Office: 1.800.RED.CHIP (733.2447) Cell: 407.491.4498 dave@redchip.com

Read this article:
CytoDyn and the Mexican National Institutes of Health Participate in a Collaborative Study of Leronlimab for the Treatment of Severe/Critical COVID-19...

Magnifier Research has offered the latest report titled Global Canine Arthritis Treatment Market Size, Status and Forecast 2020-2026 which facilitates clients with the changing trends in various markets, regions, and consumers in the global market. The report exhibits on current market analysis scenario, upcoming as well as future opportunities, revenue growth, pricing, and profitability. It gives business summary which includes an examination of the current and past market, analysis of major players dominating the global Canine Arthritis Treatment market, their revenue, their business summary, product segmentation, as well as market size, share, growth, trends analysis, segment and forecasts from 2020-2026.

Market Analysis:

The report highlights the qualified and verifiable aspects of market data. Clients needs are ensured and a thorough understanding of market capacities in the real-time scenario has been offered in this report. It provides a competitive landscape of the global Canine Arthritis Treatment market and analyzes key manufacturers individually with information on specifications of the product, annual industry performance, revenue graphs, and sales figure. The research study focuses on manufacturing analysis including the operations, process, raw materials, cost structure, and manufacturing cost strategies. Moreover, the downstream buyers, industrial chain analysis, and raw material sources along with the accurate insights of market dynamics are covered in the report.

DOWNLOAD FREE SAMPLE REPORT: https://www.magnifierresearch.com/report-detail/30410/request-sample

The main players featured in the global Canine Arthritis Treatment market report are: Elanco (Eli Lilly and Company), Boehringer Ingelheim, Zoetis Inc, Vetoquinol S.A., Bayer AG, Aratana Therapeutics Inc, Norbrook Laboratories Limited, VetStem Biopharma, Dechra Pharmaceuticals Plc,

Market outlook by applications: Veterinary Hospitals and Clinics, Retail Pharmacies, Drug Stores, E-commerce,

Market statistics by types:

The next chapter on regional segmentation describes the regional aspects of the global Canine Arthritis Treatment market. This chapter explains the regulatory framework that is expected to affect the entire market. It illuminates the scenario of the market and anticipates its impact on the market. Key regions analyzed in the market are: North America (United States, Canada, Mexico), Asia-Pacific (China, Japan, South Korea, India, Australia, Indonesia, Thailand, Malaysia, Philippines, Vietnam), Europe (Germany, France, UK, Italy, Russia, Rest of Europe), Central & South America (Brazil, Rest of South America), Middle East & Africa (GCC Countries, Turkey, Egypt, South Africa, Rest of Middle East & Africa)

In this new business intelligence report, the analysts have incorporated a comprehensive evaluation of the positive and negative factors, as well as the opportunities regarding the global Canine Arthritis Treatment market. Market risks, challenges, major drivers, restraints, future trends, technological innovations are demonstrated in the report. Additionally, the report presents the industrial chain analysis, downstream buyers, and raw material sources along with the accurate insights of market dynamics.

ACCESS FULL REPORT: https://www.magnifierresearch.com/report/global-canine-arthritis-treatment-market-size-status-and-30410.html

Key Questions Answered In The Report:

Customization of the Report:This report can be customized to meet the clients requirements. Please connect with our sales team ([emailprotected]), who will ensure that you get a report that suits your needs. You can also get in touch with our executives on +1-201-465-4211 to share your research requirements.

About Us

Magnifier Research is a leading market intelligence company that sells reports of top publishers in the technology industry. Our extensive research reports cover detailed market assessments that include major technological improvements in the industry. Magnifier Research also specializes in analyzing hi-tech systems and current processing systems in its expertise. We have a team of experts that compile precise research reports and actively advise top companies to improve their existing processes. Our experts have extensive experience in the topics that they cover. Magnifier Research provides you the full spectrum of services related to market research, and corroborate with the clients to increase the revenue stream, and address process gaps.

Contact UsMark StoneHead of Business DevelopmentPhone: +1-201-465-4211Email: [emailprotected]Web: http://www.magnifierresearch.com

See the article here:
Global Canine Arthritis Treatment Market 2020 Manufacturer Landscape, Revenue and Volume Analysis and Segment Information upto 2026 - Cole of Duty

Adding the anti-CD20 monoclonal antibody rituximab (various brands) to induction chemotherapy in patients with B-precursor acute lymphoblastic leukaemia (B-ALL) does not improve outcomes, UK researchers have found in a primary analysis of phase 3 trial data.

However, a separate examination of findings from the same study may nevertheless point to an update to the genetic classification for the disease that could help in creating an overall combined clinical and genetic risk score.

The research was published as an abstract from the British Society for Haematology 60th Annual Scientific Meeting, which was cancelled due to the COVID-19 pandemic.

UKALL14 involved patients with B-ALL aged 2565 years, regardless of Philadelphia chromosome (Ph) status or CD20 expression, who were randomised to standard induction chemotherapy (SOC) with or without 4 doses of rituximab (SOC+R).

Focusing on patients recruited after an amendment to the SOC regimen in April 2012, the team conducted an intention-to-treat analysis in 288 SOC patients and 289 given SOC+R, of whom 95.5% received all 4 doses of the immunotherapy.

Adele Fielding, professor of haematology at University College London Cancer Institute, London, and colleagues report that complete remission rates, at 92.7% with SOC and 94.8% with SOC+R, were similar in the two treatment arms.

There was also no difference in minimal residual disease (MRD) rates, with 42.2% and 41.8%, respectively, negative for residual disease.

Adverse, including severe, event rates were similar between the two cohorts, and there was no difference in non-relapse mortality.

After a median follow-up of 50.5 months, the researchers calculate that the 3-year event-free survival (EFS) for patients given SOC was 41.9% versus 48.7% for those receiving SOC+R, at a hazard ratio of 0.88 (p=0.28).

This contrasts with the French GRAALL-2005/R study, in which adults aged 1859 years with CD20-positive, Phnegative ALL were randomised to chemotherapy with or without rituximab, with a total of 16 to 18 infusions given across all treatment phases.

Their results indicated that adding rituximab to the ALL chemotherapy protocol improved outcomes, increasing EFS by 33% versus chemotherapy alone (p=0.04).

Prof Fielding told Medscape News UK that, for UKALL14, they had "hypothesised that giving rituximab early would make the difference, namely in helping to eliminate MRD early on".

"We were anxious not to give too much in case of toxicity from infections. It turned out that it is not toxic and doesnt seem to work to eliminate MRD early on."

She added that, in fact, "the French data showed that too," which prompts her to wonder at the mechanism of action of rituximab in B-ALL.

"Maybe you need more doses at times when patients have functional neutrophils or macrophages, or natural killer cells."

Prof Fielding also pointed out that, in the French study, they focused on patients with Ph-negative disease and in those in whom more than 20% of blasts expressed CD20.

"An important finding from our workis that the level of CD20 expression does not correlate with response to rituximab."

Approached for comment, Rachel Kahn, research communications manager at Blood Cancer UK, said that, "the immunotherapy drug rituximab remains a vital treatment for many types of blood cancer".

She told Medscape News UK, however, that "this interesting research suggests that there may not be any additional benefit of taking this drug for people with ALL".

She highlighted that the results nevertheless suggested that patients who underwent myeloablative allogeneic stem cell transplant (MAallaSCT) appeared to derive a significant benefit from adding rituximab to SOC.

Three-year EFS was 50.7% among MAallaSCT patients given SOC alone versus 72.2% in those receiving SOC+R, at a hazard ratio of 0.47 (p=0.03), which was related to a reduction in relapse risk.

This effect was not seen in patients given reduced intensity allogeneic stem cell transplantation or in maintenance groups, prompting Rachel Kahn to call for further research to identify which patients with ALL "may benefit from taking rituximab".

Prof Fielding said that, as they "do not have any plausible biological explanation" for the finding, the team is "going to be cautious about interpreting" it.

Overall, she feels that, as rituximab is "safe, its probably better to give it to everyone", as "our ability to do that is greater than our ability to do proper flow cytometry in local centres to accurately quantify CD20".

In a separate analysis, Prof Fielding and colleagues looked at all 653 patients who started treatment both before and after the SOC regimen amendment, of whom 49% were found to have high-risk chromosomal abnormalities.

These included 31% with BCR-ABL1, 8% with KMT2A-AFF1, 9% with HoL and 5% with CK abnormalities.

CK and HoL patients had lower 3-year overall survival than the overall cohort, at 24% and 19%, respectively, versus 52%, while patients with KMT2A-AFF1 fusion had an overall survival of 44% and BCR-ABL1 patients had a similar survival to the overall group.

The team also identified a series of other chromosomal abnormalities, including 1.3% with ABL-class fusions and the same proportion with JAK-STAT abnormalities, the latter had reduced 3-year overall survival, at 35%.

In contrast, among the 3% of patients with ZNF384 fusions, only two relapsed and none died.

Having found that secondary copy number alterations affecting key genes had no impact on outcomes, the team proposed "an amendment to the genetic risk classification for adult ALL", consisting of:

very high risk: CK, HoL or JAK-STAT abnormalities

high risk: all KMT2A fusions

tyrosine kinase sensitive: BCR-ABL1 and ABL-class fusions

low-risk: ZNF384 fusions

standard risk: all other patients

The team writes: "The integration of these primary genetic risk factors with other risk factors such as age, white cell count and MRD into an overall risk score is a key goal of our current work."

Prof Fielding said that the "immediate goal" of the team is "evaluating an overall risk score in our next trial, UKALL15, which has been submitted to Cancer Research UK for funding".

Rachel Kahn commented that "this research is a key example of how important it is to continue developing risk scores based on the make-up of the cancer, which can help clinicians understand how likely someone is to respond to treatment".

"This study shows that further clues can be found based on changes to a patients chromosomes."

She continued: "The more we know about how abnormalities influence how risky a cancer is thought to be, the closer we get to being able to personalise treatment to each individual to give them the most effective treatments and the best possible chance of survival."

The study was funded by Cancer Research UK.

No conflicts of interest declared.

[However, Fielding declared to ASH : Amgen: Consultancy; Novartis: Consultancy; Pfizer: Consultancy; Incyte: Consultancy.

BSH 2020: Abstracts BSH2020-OR-001 & BSH2020-OR-004

Read more from the original source:
Rituximab Offers No Extra Benefit to Induction Chemo in ALL - Medscape