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VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
by Caldejon, Shiella , Eric Kenji Lee , Nguyen, Thuyanh V , White, Cassandra , Gabriel Koch Ocker , Millman, Daniel J , Seid, Sam , Lecoq, Jerome A , Kato, India , Buice, Michael A , Larkin, Josh D , Nayan, Chelsea , Reid, R Clay , Saskia Ej De Vries , Luviano, Jennifer , North, Kat
in Feedback inhibition / Information processing / Interneurons / Intestine / Locomotion / Motion detection / Neuroscience / Pyramidal cells / Somatostatin / Vasoactive agents / Vasoactive intestinal peptide / Visual cortex
2019
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VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
by Caldejon, Shiella , Eric Kenji Lee , Nguyen, Thuyanh V , White, Cassandra , Gabriel Koch Ocker , Millman, Daniel J , Seid, Sam , Lecoq, Jerome A , Kato, India , Buice, Michael A , Larkin, Josh D , Nayan, Chelsea , Reid, R Clay , Saskia Ej De Vries , Luviano, Jennifer , North, Kat
in Feedback inhibition / Information processing / Interneurons / Intestine / Locomotion / Motion detection / Neuroscience / Pyramidal cells / Somatostatin / Vasoactive agents / Vasoactive intestinal peptide / Visual cortex
2019
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VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
by Caldejon, Shiella , Eric Kenji Lee , Nguyen, Thuyanh V , White, Cassandra , Gabriel Koch Ocker , Millman, Daniel J , Seid, Sam , Lecoq, Jerome A , Kato, India , Buice, Michael A , Larkin, Josh D , Nayan, Chelsea , Reid, R Clay , Saskia Ej De Vries , Luviano, Jennifer , North, Kat
in Feedback inhibition / Information processing / Interneurons / Intestine / Locomotion / Motion detection / Neuroscience / Pyramidal cells / Somatostatin / Vasoactive agents / Vasoactive intestinal peptide / Visual cortex
2019

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VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
VIP interneurons selectively enhance weak but behaviorally-relevant stimuli
Paper

VIP interneurons selectively enhance weak but behaviorally-relevant stimuli

Caldejon, Shiella,
Eric Kenji Lee,
Nguyen, Thuyanh V,
White, Cassandra,
Gabriel Koch Ocker,
Millman, Daniel J,
Seid, Sam,
Lecoq, Jerome A,
Kato, India,
Buice, Michael A,
Larkin, Josh D,
Nayan, Chelsea,
Reid, R Clay,
Saskia Ej De Vries,
Luviano, Jennifer,
North, Kat
2019
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Overview
Vasoactive intestinal peptide-expressing (VIP) interneurons in cortex regulate feedback inhibition of pyramidal neurons through suppression of somatostatin-expressing (SST) interneurons and, reciprocally, SST neurons inhibit VIP neurons. Here, we show that VIP neurons in mouse primary visual cortex have complementary contrast tuning to SST neurons and respond synergistically to front-to-back visual motion and locomotion. Network modeling indicates that this VIP-SST mutual antagonism regulates the gain of cortex to achieve both sensitivity to behaviorally-relevant stimuli and network stability.
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Publisher
Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory
Subject

Feedback inhibition

/ Information processing

/ Interneurons

/ Intestine

/ Locomotion

/ Motion detection

/ Neuroscience

/ Pyramidal cells

/ Somatostatin

/ Vasoactive agents

/ Vasoactive intestinal peptide

/ Visual cortex

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