M电流与持续性钠电流协同作用，以设定运动速度。

The M-current works in tandem with the persistent sodium current to set the speed of locomotion.

作者信息

Verneuil Jérémy, Brocard Cécile, Trouplin Virginie, Villard Laurent, Peyronnet-Roux Julie, Brocard Frédéric

机构信息

Institut de Neurosciences de la Timone, Aix-Marseille Université and Centre National de la Recherche Scientifique, Marseille, France.

Aix-Marseille Université, Inserm, MMG, Marseille, France.

出版信息

PLoS Biol. 2020 Nov 13;18(11):e3000738. doi: 10.1371/journal.pbio.3000738. eCollection 2020 Nov.

DOI:10.1371/journal.pbio.3000738

PMID:33186352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7688130/

Abstract

The central pattern generator (CPG) for locomotion is a set of pacemaker neurons endowed with inherent bursting driven by the persistent sodium current (INaP). How they proceed to regulate the locomotor rhythm remained unknown. Here, in neonatal rodents, we identified a persistent potassium current critical in regulating pacemakers and locomotion speed. This current recapitulates features of the M-current (IM): a subthreshold noninactivating outward current blocked by 10,10-bis(4-pyridinylmethyl)-9(10H)-anthracenone dihydrochloride (XE991) and enhanced by N-(2-chloro-5-pyrimidinyl)-3,4-difluorobenzamide (ICA73). Immunostaining and mutant mice highlight an important role of Kv7.2-containing channels in mediating IM. Pharmacological modulation of IM regulates the emergence and the frequency regime of both pacemaker and CPG activities and controls the speed of locomotion. Computational models captured these results and showed how an interplay between IM and INaP endows the locomotor CPG with rhythmogenic properties. Overall, this study provides fundamental insights into how IM and INaP work in tandem to set the speed of locomotion.

摘要

用于运动的中枢模式发生器（CPG）是一组具有由持续性钠电流（INaP）驱动的固有爆发活动的起搏器神经元。它们如何调节运动节律仍不清楚。在此，我们在新生啮齿动物中鉴定出一种对调节起搏器和运动速度至关重要的持续性钾电流。这种电流概括了M电流（IM）的特征：一种被10,10-双（4-吡啶基甲基）-9（10H）-蒽酮二盐酸盐（XE991）阻断并被N-（2-氯-5-嘧啶基）-3,4-二氟苯甲酰胺（ICA73）增强的阈下非失活外向电流。免疫染色和突变小鼠突出了含Kv7.2通道在介导IM中的重要作用。对IM的药理学调节可调节起搏器和CPG活动的出现及频率范围，并控制运动速度。计算模型捕捉到了这些结果，并展示了IM和INaP之间的相互作用如何赋予运动CPG节律生成特性。总体而言，这项研究为IM和INaP如何协同作用来设定运动速度提供了基本见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca17/7688130/275cce820394/pbio.3000738.g001.jpg

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M电流与持续性钠电流协同作用，以设定运动速度。

The M-current works in tandem with the persistent sodium current to set the speed of locomotion.

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