细胞类型特异性神经传递成像显示异氟烷麻醉中兴奋性-抑制性皮质网络紊乱。

Cell-type-specific imaging of neurotransmission reveals a disrupted excitatory-inhibitory cortical network in isoflurane anaesthesia.

机构信息

Department of Anaesthesiology and Perioperative Medicine, Xijing Hospital, The Fourth Military Medical University, Xi'an 710032, China.

Chinese Institute for Brain Research, Beijing 102206, China.

出版信息

EBioMedicine. 2021 Mar;65:103272. doi: 10.1016/j.ebiom.2021.103272. Epub 2021 Mar 7.

DOI:10.1016/j.ebiom.2021.103272

PMID:33691246

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7941179/

Abstract

BACKGROUND

Despite the fundamental clinical significance of general anaesthesia, the cortical mechanism underlying anaesthetic-induced loss of consciousness (aLOC) remains elusive.

METHODS

Here, we measured the dynamics of two major cortical neurotransmitters, gamma-aminobutyric acid (GABA) and glutamate, through in vivo two-photon imaging and genetically encoded neurotransmitter sensors in a cell type-specific manner in the primary visual (V1) cortex.

FINDINGS

We found a general decrease in cortical GABA transmission during aLOC. However, the glutamate transmission varies among different cortical cell types, where in it is almost preserved on pyramidal cells and is significantly reduced on inhibitory interneurons. Cortical interneurons expressing vasoactive intestinal peptide (VIP) and parvalbumin (PV) specialize in disinhibitory and inhibitory effects, respectively. During aLOC, VIP neuronal activity was delayed, and PV neuronal activity was dramatically inhibited and highly synchronized.

INTERPRETATION

These data reveal that aLOC resembles a cortical state with a disrupted excitatory-inhibitory network and suggest that a functional inhibitory network is indispensable in the maintenance of consciousness.

FUNDING

This work was supported by the grants of the National Natural Science Foundation of China (grant nos. 81620108012 and 82030038 to H.D. and grant nos. 31922029, 61890951, and 61890950 to J.H.).

摘要

背景

尽管全身麻醉具有重要的临床意义，但麻醉诱导意识丧失（aLOC）的皮质机制仍难以捉摸。

方法

在这里，我们通过活体双光子成像和遗传编码的神经递质传感器，以细胞类型特异性的方式测量了主要视觉（V1）皮层中两种主要皮质神经递质，γ-氨基丁酸（GABA）和谷氨酸的动力学。

结果

我们发现 aLOC 期间皮质 GABA 传递普遍减少。然而，谷氨酸传递在不同的皮质细胞类型之间存在差异，其中在锥体细胞上几乎保持不变，而在抑制性中间神经元上则显著减少。表达血管活性肠肽（VIP）和小白蛋白（PV）的皮质中间神经元分别专门发挥去抑制和抑制作用。在 aLOC 期间，VIP 神经元活动延迟，而 PV 神经元活动被强烈抑制且高度同步。

解释

这些数据揭示了 aLOC 类似于一种皮质状态，其中兴奋性-抑制性网络被破坏，并表明功能性抑制性网络对于维持意识是必不可少的。

资金

这项工作得到了中国国家自然科学基金（资助编号：H.D. 的 81620108012 和 82030038 以及 J.H. 的 31922029、61890951 和 61890950）的支持。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6ec7/7941179/817273b01e9b/gr1.jpg

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细胞类型特异性神经传递成像显示异氟烷麻醉中兴奋性-抑制性皮质网络紊乱。

Cell-type-specific imaging of neurotransmission reveals a disrupted excitatory-inhibitory cortical network in isoflurane anaesthesia.

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

FUNDING

背景

方法

结果

解释

资金

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