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This cancer treatment gives patients night-vision, and we finally know why – Big Think

February 14th, 2020 4:48 am

In the early 2000s, it was reported that a certain kind of skin cancer treatment called photodynamic therapy, which uses light to destroy malignant cells, had a bizarre side effect: It was giving patients enhanced night time vision.

Rods and cones photoreceptors in a human retina.

Photo Credit: Dr. Robert Fariss, National Eye Institute, NIH / Flickr

"Seeing" happens when a series of receptors in the retina, the cones and rods, collect light. Rods contain a lot of rhodopsin, a photosensitive protein that absorbs visible light thanks to an active compound found in it called retinal. When retinal is exposed to visible light, it splits from rhodopsin. This then allows the light signal to be converted into an electrical signal that the visual cortex of our brains interprets into sight. Of course, there is "less light" at night, which actually means that light radiation is not in a domain visible to humans. It's at higher wavelengths (the infrared level) that retinal is not sensitive to. Hence, why we can't see in the dark like many critters can.

But the vision process can be activated by another interaction of light and chemistry. As it turns out, a chlorin e6 injection under infrared light changes retinal in the same way that visible light does. This is the cause of the unforeseen night vision side effect of the treatment.

"Molecular simulation" is a method that uses an algorithm that integrates the laws of quantum and Newtonian physics to model the functioning of a biological system over time. The team used this method to mimic the biomechanical movements of individual atoms that is, their attraction or repulsion to one another along with the making or breaking of chemical bonds.

"For our simulation we placed a virtual rhodopsin protein inserted in its lipid membrane in contact with several chlorin e6 molecules and water, or several tens of thousands of atoms," Monari explained to CNRS. "Our super-calculators ran for several months and completed millions of calculations before they were able to simulate the entire biochemical reaction triggered by infrared radiation." In nature, this phenomena occurs within fractions of a nanosecond.

The molecular simulation showed that when the chlorin e6 molecule absorbs the infrared radiation, it interacts with the oxygen present in the eye tissue and transforms it into reactive, or singlet, oxygen. In addition to killing cancer cells, "singlet oxygen" can also react with retinal to enable a slightly enhanced eyesight at night, when light waves are at the infrared level.

Now that researchers know why the "supernatural" side effect occurs, they may be able to limit the chance of it happening to patients undergoing photodynamic treatment. Thinking further out, the researchers hope for the possibility that this chemical reaction could be harnessed to help treat certain types of blindness and sensitivity to light.

Ultimately, researchers say that this has been a big flex for the power of molecular simulations, which can give us astonishing scientific insights like this.

"Molecular simulation is already being used to shed light on fundamental mechanisms for example, why certain DNA lesions are better repaired than others and enable the selection of potential therapeutic molecules by mimicking their interaction with a chosen target," Monari told CNRS.

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This cancer treatment gives patients night-vision, and we finally know why - Big Think

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