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M1 ipRGCs Influence Visual Function through Retrograde Signaling in the Retina.

Cameron L PriggePo-Ting YehNan-Fu LiouChi-Chan LeeShih-Feng YouLei-Lei LiuDavid M McNeillKylie S ChewSamer HattarShih-Kuo Chen AlenDao-Qi Zhang
Published in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
Melanopsin-expressing intrinsically photosensitive retinal ganglion cells (ipRGCs) comprise a third class of retinal photoreceptors that are known to mediate physiological responses such as circadian photoentrainment. However, investigation into whether and how ipRGCs contribute to vision has just begun. Here, we provide convergent anatomical and physiological evidence that axon collaterals of ipRGCs constitute a centrifugal pathway to DACs, conveying melanopsin-based signals from the innermost retina to the outer retina. We further demonstrate that retrograde signals likely influence visual processing because elimination of axon collateral-bearing ipRGCs impairs light adaptation by limiting dopamine-dependent facilitation of the cone pathway. Our findings strongly support the hypothesis that retrograde melanopsin-based signaling influences visual function locally within the retina, a notion that refutes the dogma that RGCs only provide physiological signals to the brain.
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