2021
DOI: 10.1101/2021.10.31.466688
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A retinal circuit that vetoes optokinetic responses to fast visual motion

Abstract: Optokinetic nystagmus (OKN) is a visuomotor reflex that works in tandem with the vestibulo-ocular reflex (VOR) to stabilize the retinal image during self-motion. OKN requires information about both the direction and speed of retinal image motion. Both components are computed within the retina because they are already encoded in the spike trains of the specific class of retinal output neurons that drives OKN ─ the ON direction-selective ganglion cells (ON DSGCs). The synaptic circuits that shape the directional… Show more

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Cited by 4 publications
(8 citation statements)
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“…Further insight into how oDSGCs encode motion can be gained by comparing their tuning properties to those of the more comprehensively studied ooDSGCs. While prior work has focused on speed tuning as the primary difference between oDSGCs and ooDSGCs 14,26,49,57,79 , our results reveal an additional difference between these two classes of DSGCs that has been previously overlooked: oDSGCs are contrast-sensitive ( Fig 7 ), whereas ooDSGCs are not 62 . In ooDSGCs, preservation of E/I across contrasts is apparently critical for retaining contrast-invariant direction tuning 61,63 .…”
Section: Discussioncontrasting
confidence: 58%
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“…Further insight into how oDSGCs encode motion can be gained by comparing their tuning properties to those of the more comprehensively studied ooDSGCs. While prior work has focused on speed tuning as the primary difference between oDSGCs and ooDSGCs 14,26,49,57,79 , our results reveal an additional difference between these two classes of DSGCs that has been previously overlooked: oDSGCs are contrast-sensitive ( Fig 7 ), whereas ooDSGCs are not 62 . In ooDSGCs, preservation of E/I across contrasts is apparently critical for retaining contrast-invariant direction tuning 61,63 .…”
Section: Discussioncontrasting
confidence: 58%
“…The asymmetric spike tuning of Superior and Inferior oDSGCs is associated with differences in the magnitude of excitatory synaptic input to each cell type (Fig 3). Three synaptic partners are primary candidates for the source of this asymmetry: (1) glutamatergic input from bipolar cells (types 5 and 7), (2) cholinergic input from SACs, and (3) glutamatergic input from VGluT3 amacrine cells [44][45][46]49,50,58,77,78 . Glutamatergic conductances in oDSGCs rely on AMPARs and NMDARs, whereas cholinergic conductances rely on nicotinic AChRs 79 .…”
Section: Discussionmentioning
confidence: 99%
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“…We next investigated the consequences of removing the FLRT2-UNC5C signaling system for DS circuit synaptic specificity. Normally, starburst amacrine cells provide virtually all of the inhibitory synapses onto ooDSGC dendrites (Bleckert et al, 2018; Mani et al, 2022; Sivyer et al, 2019; Yoshida et al, 2001). However, mutant ooDSGCs send dendrites into IPL regions lacking starburst arbors (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…However, it is highly unlikely that these synapses are derived from a cell type that normally connects to ooDSGCs. Aside from starburst cells, ooDSGCs can also receive synapses from several other amacrine types, but these synapses are either glutamatergic (Mani et al, 2022) or are targeted to the cell body rather than the dendritic arbor (Bleckert et al, 2018). Thus, the presence of non-starburst inhibitory inputs onto ooDSGC dendrites represents a striking loss of specificity.…”
Section: Implications For Wiring Of the Retinal Direction-selective C...mentioning
confidence: 99%