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A circuit suppressing retinal drive to the optokinetic system during fast image motion

Adam Mani, Xinzhu Yang, Tiffany A. Zhao, Megan L. Leyrer, Daniel Schreck and David M. Berson ()
Additional contact information
Adam Mani: Brown University
Xinzhu Yang: Brown University
Tiffany A. Zhao: Brown University
Megan L. Leyrer: Brown University
Daniel Schreck: Brown University
David M. Berson: Brown University

Nature Communications, 2023, vol. 14, issue 1, 1-14

Abstract: Abstract Optokinetic nystagmus (OKN) assists stabilization of the retinal image during head rotation. OKN is driven by ON direction selective retinal ganglion cells (ON DSGCs), which encode both the direction and speed of global retinal slip. The synaptic circuits responsible for the direction selectivity of ON DSGCs are well understood, but those sculpting their slow-speed preference remain enigmatic. Here, we probe this mechanism in mouse retina through patch clamp recordings, functional imaging, genetic manipulation, and electron microscopic reconstructions. We confirm earlier evidence that feedforward glycinergic inhibition is the main suppressor of ON DSGC responses to fast motion, and reveal the source for this inhibition—the VGluT3 amacrine cell, a dual neurotransmitter, excitatory/inhibitory interneuron. Together, our results identify a role for VGluT3 cells in limiting the speed range of OKN. More broadly, they suggest VGluT3 cells shape the response of many retinal cell types to fast motion, suppressing it in some while enhancing it in others.

Date: 2023
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DOI: 10.1038/s41467-023-40527-z

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