Müller glial cell photosensitivity: A novel function bringing higher complexity to vertebrate retinal physiology

MARCHESE, NATALIA A.; RIOS, MAXIMILIANO N.; GUIDO, MARIO E.

Journal of Photochemistry and Photobiology

Elsevier

Año: 2023

2666-4690

The retina of vertebrates is responsible for detecting and capturing ambient light for image and non-imageforming (NIF) functions through diverse projections to the brain which regulate visual processing, pupillarylight responses, photic synchronization of circadian rhythms and suppression of pineal melatonin, among others.For this, vertebrates have retained through evolution at least two sets of photoreceptors specialized primarily insuch visual and NIF tasks: visual photoreceptors cones and rods responsible for day/night vision, and intrinsicallyphotosensitive retinal ganglion cells (ipRGC) together with horizontal cells in some vertebrates, expressingmelanopsin (Opn4). Interestingly, Opn4 as well as encephalopsin (Opn3) and neuropsin (Opn5), responding toblue and UV light, respectively, are expressed in the inner retina and command light detection in the blue rangeof the visible spectra; they are responsible for a number of NIF functions still lacking characterization. Thoughmost retinal photoreceptors are derived from ciliary or neuronal progenitor cells, in recent years Müller glial cells(MCs), the most abundant retinal glial cell type, have been shown to express different blue opsins (Opn3 andOpn5) and the photoisomerase retinal G protein-coupled receptor (RGR), and to respond directly to light. MCsdisplay different essential functions to maintain the homeostasis and cell survival of the whole retina, contributingto glutamate metabolism and chromophore recycling. The novel photoreceptive capacity of MCs, mainly inthe blue region, offers several highly intriguing possibilities that increase the complexity levels for light detectionin the retina and its light-activated circuits, calling for further investigation. The goal of the present review is todiscuss the state of the art of research on the principal macroglial cells in the retina, focusing mainly on thenovel photic responses driven by MCs, the biochemical mechanisms triggered after light stimulation and theirputative functions and implications.