Restoration of high-sensitivity patterned vision in motion with an engineered light-gated G protein-coupled receptor

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Abstract

Inherited retinal degenerations (IRDs) result in blindness due to apoptotic cell death of rods and cones, but spare other retinal neurons, providing a potential that delivery of a light-activated signaling protein to surviving neurons may restore vision. We previously demonstrated that aspects of vision could be restored by introduction into surviving cells of a G protein-coupled receptor for glutamate (mGluR) bearing a tethered photoswitchable agonist. However, this system, containing one photoswitchable agonist per glutamate binding site, yielded low sensitivity, responding only to visual stimuli at the intensity of bright outdoor light, similar to channelrhodopsins. To increase sensitivity, we designed a multi-branched photoswitch, bearing four light-activatable glutamates for each glutamate binding site. When tethered to a modified mGluR2 expressed in retinal ganglion cells via intravitreal AAV gene delivery, this photoswitch boosted sensitivity by ~100-fold compared to the unbranched (single photo-ligand) photoswitch. This improvement in sensitivity enabled an IRD mouse model ( rd1 ) to perform visually-guided object recognition under incidental room light and pattern recognition using standard LCD computer displays. The restored line pattern differentiation approached the acuity reported for normal mouse vision. Pattern recognition functioned as well as wildtype vision with line patterns moving at speeds of up to 36°/s. In summary, this two-component chemical-optogenetic approach combines high sensitivity and high acuity with superior motion vision, and, unlike optogenetic gene therapy, can be adjusted for dose, upgraded, as new photoswitches are developed, and discontinued at will.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
unpaywall
last seen: 2026-05-27T02:00:06.600101+00:00
License: CC-BY-4.0