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Local processing in neurites of VGluT3-expressing amacrine cells differentially organizes visual information.


ABSTRACT: Neurons receive synaptic inputs on extensive neurite arbors. How information is organized across arbors and how local processing in neurites contributes to circuit function is mostly unknown. Here, we used two-photon Ca2+ imaging to study visual processing in VGluT3-expressing amacrine cells (VG3-ACs) in the mouse retina. Contrast preferences (ON vs. OFF) varied across VG3-AC arbors depending on the laminar position of neurites, with ON responses preferring larger stimuli than OFF responses. Although arbors of neighboring cells overlap extensively, imaging population activity revealed continuous topographic maps of visual space in the VG3-AC plexus. All VG3-AC neurites responded strongly to object motion, but remained silent during global image motion. Thus, VG3-AC arbors limit vertical and lateral integration of contrast and location information, respectively. We propose that this local processing enables the dense VG3-AC plexus to contribute precise object motion signals to diverse targets without distorting target-specific contrast preferences and spatial receptive fields.

SUBMITTER: Hsiang JC 

PROVIDER: S-EPMC5653236 | biostudies-literature | 2017 Oct

REPOSITORIES: biostudies-literature

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Local processing in neurites of VGluT3-expressing amacrine cells differentially organizes visual information.

Hsiang Jen-Chun JC   Johnson Keith P KP   Madisen Linda L   Zeng Hongkui H   Kerschensteiner Daniel D  

eLife 20171012


Neurons receive synaptic inputs on extensive neurite arbors. How information is organized across arbors and how local processing in neurites contributes to circuit function is mostly unknown. Here, we used two-photon Ca<sup>2+</sup> imaging to study visual processing in VGluT3-expressing amacrine cells (VG3-ACs) in the mouse retina. Contrast preferences (ON vs. OFF) varied across VG3-AC arbors depending on the laminar position of neurites, with ON responses preferring larger stimuli than OFF res  ...[more]

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