Sncg, Mybpc1, and Parm1 Classify subpopulations of VIP-expressing interneurons in layers 2/3 of the somatosensory cortex-Reference-Cited by-同舟云学术

Sncg, Mybpc1, and Parm1 Classify subpopulations of VIP-expressing interneurons in layers 2/3 of the somatosensory cortex

Published:2022-08-27 Issue:8 Volume:33 Page:4293-4304
ISSN:1047-3211
Container-title:Cerebral Cortex
language:en
Short-container-title:

Author:

Jiang Shao-Na¹,Cao Jun-Wei¹,Liu Lin-Yun¹,Zhou Ying¹,Shan Guang-Yao²,Fu Ying-Hui¹,Shao Yun-Chao³,Yu Yong-Chun¹

Affiliation:

1. Fudan University Jing’an District Central Hospital of Shanghai, State Key Laboratory of Medical Neurobiology, MOE Frontiers Center for Brain Science, Institutes of Brain Science, , Dong'an Rold 131, Shanghai 200032 , China

2. Fudan University School of Clinical Medicine, , Dong'an Road 131, Shanghai 200032 , China

3. Fudan University Orthopaedic Department of Zhongshan Hospital, , Fenglin Road 180, Shanghai 200032 , China

Abstract

Abstract Neocortical vasoactive intestinal polypeptide-expressing (VIP+) interneurons display highly diverse morpho-electrophysiological and molecular properties. To begin to understand the function of VIP+ interneurons in cortical circuits, they must be clearly and comprehensively classified into distinct subpopulations based on specific molecular markers. Here, we utilized patch-clamp RT-PCR (Patch-PCR) to simultaneously obtain the morpho-electric properties and mRNA profiles of 155 VIP+ interneurons in layers 2 and 3 (L2/3) of the mouse somatosensory cortex. Using an unsupervised clustering method, we identified 3 electrophysiological types (E-types) and 2 morphological types (M-types) of VIP+ interneurons. Joint clustering based on the combined electrophysiological and morphological features resulted in 3 morpho-electric types (ME-types). More importantly, we found these 3 ME-types expressed distinct marker genes: ~94% of Sncg+ cells were ME-type 1, 100% of Mybpc1+ cells were ME-type 2, and ~78% of Parm1+ were ME-type 3. By clarifying the properties of subpopulations of cortical L2/3 VIP+ interneurons, this study establishes a basis for future investigations aiming to elucidate their physiological roles.

Funder

Collaborative Innovation Program of Shanghai Municipal Health Commission

Shanghai Municipal Education Commission

Shanghai Municipal Science and Technology Commission

National Natural Science Foundation of China

National Key Research and Development Program of China

Publisher

Oxford University Press (OUP)

Subject

Cellular and Molecular Neuroscience,Cognitive Neuroscience

Link

https://academic.oup.com/cercor/article-pdf/33/8/4293/49741705/bhac343.pdf

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