肌纤维中残余力增强的独特力学和结构特征。

The distinctive mechanical and structural signatures of residual force enhancement in myofibers.

作者信息

Hessel Anthony L, Kuehn Michel N, Palmer Bradley M, Nissen Devin, Mishra Dhruv, Joumaa Venus, Freundt Johanna K, Ma Weikang, Nishikawa Kiisa C, Irving Thomas C, Linke Wolfgang A

机构信息

Institute of Physiology II, University Hospital Muenster, University of Muenster, Muenster 48149, Germany.

Department of Molecular Physiology and Biophysics, University of Vermont, Burlington, VT 05405.

出版信息

Proc Natl Acad Sci U S A. 2024 Dec 24;121(52):e2413883121. doi: 10.1073/pnas.2413883121. Epub 2024 Dec 16.

DOI:10.1073/pnas.2413883121

PMID:39680764

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11670058/

Abstract

In muscle, titin proteins connect myofilaments together and are thought to be critical for contraction, especially during residual force enhancement (RFE) when steady-state force is elevated after an active stretch. We investigated titin's function during contraction using small-angle X-ray diffraction to track structural changes before and after 50% titin cleavage and in the RFE-deficient, titin mutant. We report that the RFE state is structurally distinct from pure isometric contractions, with increased thick filament strain and decreased lattice spacing, most likely caused by elevated titin-based forces. Furthermore, no RFE structural state was detected in muscle. We posit that decreased lattice spacing, increased thick filament stiffness, and increased non-cross-bridge forces are the major contributors to RFE. We conclude that titin directly contributes to RFE.

摘要

在肌肉中，肌联蛋白将肌丝连接在一起，被认为对收缩至关重要，尤其是在主动拉伸后稳态力升高的残余力增强（RFE）过程中。我们使用小角X射线衍射来追踪50%肌联蛋白裂解前后以及RFE缺陷型肌联蛋白突变体收缩过程中的结构变化，从而研究肌联蛋白在收缩过程中的功能。我们报告称，RFE状态在结构上与纯等长收缩不同，粗肌丝应变增加，晶格间距减小，这很可能是由基于肌联蛋白的力升高所致。此外，在肌肉中未检测到RFE结构状态。我们认为晶格间距减小、粗肌丝刚度增加以及非横桥力增加是RFE的主要促成因素。我们得出结论，肌联蛋白直接促成了RFE。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/baa6/11670058/9d10740b1746/pnas.2413883121fig01.jpg

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肌纤维中残余力增强的独特力学和结构特征。

The distinctive mechanical and structural signatures of residual force enhancement in myofibers.

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