感觉输入驱动小鼠桶状皮层轴突起始段的快速稳态缩放。

Sensory input drives rapid homeostatic scaling of the axon initial segment in mouse barrel cortex.

作者信息

Jamann Nora, Dannehl Dominik, Lehmann Nadja, Wagener Robin, Thielemann Corinna, Schultz Christian, Staiger Jochen, Kole Maarten H P, Engelhardt Maren

机构信息

Axonal Signaling Group, Netherlands Institute for Neurosciences (NIN), Royal Netherlands Academy for Arts and Sciences (KNAW), Amsterdam, The Netherlands.

Cell Biology, Neurobiology and Biophysics, Department of Biology, Faculty of Science, Utrecht University, Utrecht, The Netherlands.

出版信息

Nat Commun. 2021 Jan 4;12(1):23. doi: 10.1038/s41467-020-20232-x.

DOI:10.1038/s41467-020-20232-x

PMID:33397944

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7782484/

Abstract

The axon initial segment (AIS) is a critical microdomain for action potential initiation and implicated in the regulation of neuronal excitability during activity-dependent plasticity. While structural AIS plasticity has been suggested to fine-tune neuronal activity when network states change, whether it acts in vivo as a homeostatic regulatory mechanism in behaviorally relevant contexts remains poorly understood. Using the mouse whisker-to-barrel pathway as a model system in combination with immunofluorescence, confocal analysis and electrophysiological recordings, we observed bidirectional AIS plasticity in cortical pyramidal neurons. Furthermore, we find that structural and functional AIS remodeling occurs in distinct temporal domains: Long-term sensory deprivation elicits an AIS length increase, accompanied with an increase in neuronal excitability, while sensory enrichment results in a rapid AIS shortening, accompanied by a decrease in action potential generation. Our findings highlight a central role of the AIS in the homeostatic regulation of neuronal input-output relations.

摘要

轴突起始段（AIS）是动作电位起始的关键微区，并且在活动依赖性可塑性过程中参与神经元兴奋性的调节。虽然已有研究表明，结构上的AIS可塑性可在网络状态改变时微调神经元活动，但在行为相关背景下，它是否作为一种体内稳态调节机制发挥作用仍知之甚少。我们以小鼠的触须-桶状皮层通路作为模型系统，结合免疫荧光、共聚焦分析和电生理记录，观察到皮层锥体神经元中存在双向AIS可塑性。此外，我们发现结构和功能上的AIS重塑发生在不同的时间域：长期感觉剥夺会导致AIS长度增加，并伴随神经元兴奋性增强，而感觉丰富则会导致AIS迅速缩短，并伴随动作电位产生减少。我们的研究结果突出了AIS在神经元输入-输出关系的稳态调节中的核心作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc9f/7782484/c86d7f5b6e2e/41467_2020_20232_Fig1_HTML.jpg

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感觉输入驱动小鼠桶状皮层轴突起始段的快速稳态缩放。

Sensory input drives rapid homeostatic scaling of the axon initial segment in mouse barrel cortex.

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