特异性与可塑性：树突棘细胞与轴突起始段连接在功能皮质网络形成中的作用

Specific and Plastic: Chandelier Cell-to-Axon Initial Segment Connections in Shaping Functional Cortical Network.

机构信息

Institutes of Brain Science, State Key Laboratory of Medical Neurobiology and MOE Frontiers Center for Brain Science, Department of Neurobiology, Zhongshan Hospital, Fudan University, Shanghai, 200032, China.

Songjiang Research Institute, Shanghai Songjiang District Central Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai, 200025, China.

出版信息

Neurosci Bull. 2024 Nov;40(11):1774-1788. doi: 10.1007/s12264-024-01266-3. Epub 2024 Jul 30.

DOI:10.1007/s12264-024-01266-3

PMID:39080101

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11607270/

Abstract

Axon initial segment (AIS) is the most excitable subcellular domain of a neuron for action potential initiation. AISs of cortical projection neurons (PNs) receive GABAergic synaptic inputs primarily from chandelier cells (ChCs), which are believed to regulate action potential generation and modulate neuronal excitability. As individual ChCs often innervate hundreds of PNs, they may alter the activity of PN ensembles and even impact the entire neural network. During postnatal development or in response to changes in network activity, the AISs and axo-axonic synapses undergo dynamic structural and functional changes that underlie the wiring, refinement, and adaptation of cortical microcircuits. Here we briefly introduce the history of ChCs and review recent research advances employing modern genetic and molecular tools. Special attention will be attributed to the plasticity of the AIS and the ChC-PN connections, which play a pivotal role in shaping the dynamic network under both physiological and pathological conditions.

摘要

轴突起始段（AIS）是神经元产生动作电位的最兴奋亚细胞区。皮质投射神经元（PNs）的 AIS 主要接收来自篮状细胞（ChCs）的 GABA 能突触输入，据信 ChCs 可调节动作电位的产生并调节神经元兴奋性。由于单个 ChC 通常可支配数百个 PN，因此它们可能改变 PN 集合体的活动，甚至影响整个神经网络。在出生后发育过程中或响应网络活动变化时，AIS 和轴突-轴突突触经历动态结构和功能变化，为皮质微电路的布线、细化和适应提供基础。本文简要介绍了 ChC 的历史，并综述了利用现代遗传和分子工具的最新研究进展。特别关注 AIS 和 ChC-PN 连接的可塑性，这在生理和病理条件下对塑造动态网络起着关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f26/11607270/0aa490bf1581/12264_2024_1266_Fig1_HTML.jpg

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特异性与可塑性：树突棘细胞与轴突起始段连接在功能皮质网络形成中的作用

Specific and Plastic: Chandelier Cell-to-Axon Initial Segment Connections in Shaping Functional Cortical Network.

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