Cannabinoids May Affect Vision in Vertebrates

by Bidita Debnath on  August 27, 2016 at 1:16 AM Research News   - G J E 4
Cannabinoid is an active agent in marijuana. A multidisciplinary team including researchers from the Montreal Neurological Institute has improved our understanding of how cannabinoids affect vision in vertebrates.
 Cannabinoids May Affect Vision in Vertebrates
Cannabinoids May Affect Vision in Vertebrates

Scientists used a variety of methods to test how tadpoles react to visual stimuli when they've been exposed to increased levels of exogenous or endogenous cannabinoids. Exogenous cannabinoids are artificially introduced drugs, whereas endogenous cannabinoids occur naturally in the body.

‘One class of cannabinoid receptor, known as CB1R, plays a role in the suppression of chloride transport into the retinal ganglion cells (RGCs).’
They found that, contrary to what they expected, activating cannabinoid signaling in tadpoles actually increased the activity in their retinal ganglion cells (RGCs), which are responsible for transmitting information about light detection from the eye to the brain. Previous studies found that cannabinoids typically work to reduce neurotransmission, not increase it.

"Initially you distrust yourself when you see something that goes against widely held ideas, but we tried the experiment so many times, using diverse techniques, and it was a consistent result," says Ed Ruthazer, a professor of neurology and neurosurgery at the Montreal Neurological Institute of McGill University, and the paper's senior author. "So then we knew we had to figure out what was going on. The first tendency is to want to ignore it. But it was such a strong effect, we knew there was something important here."

What the researchers found is that one class of cannabinoid receptor, known as CB1R, plays a role in the suppression of chloride transport into the RGCs. When the receptor is activated, chloride levels are reduced, which hyperpolarizes the cell, making it able to fire at higher frequencies when stimulated.

For the tadpoles, this meant they were able to detect dimmer objects in low light than when they had not been exposed to increased levels of cannabinoids. The team used software developed with McGill physics and chemistry professor Paul Wiseman to detect behavior changes in the tadpoles.

It is too early to say if cannabinoids have the same effect on human vision, but there is anecdotal evidence in scientific literature of cannabis ingestion improving night vision of Jamaican and Moroccan fishermen.

What's more interesting however, according to Ruthazer, is that they have discovered a previously unknown role for cannabinoids in brain signaling. Therapeutic use of cannabinoids is becoming increasingly accepted by the medical community, and the need for an accurate and thorough understanding of these chemicals' role in the brain is greater than ever.

"Our work provides an exciting potential mechanism for cannabinoid regulation of neuronal firing, but it will obviously be important to confirm that similar mechanisms are also at play in the eyes of mammals," says Ruthazer. "Though technically more challenging, a similar study should now be performed in the mouse retina or even in cultures of human retinal cells."

The full research paper was published in the journal eLife, and was made possible with funding from Canadian Institutes of Health Research, Fonds de recherche du Québec - Santé, Épilepsie Canada, and a Natural Sciences and Engineering Research Council CREATE Neuroengineering Training Grant.

Source: Eurekalert

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