Electrostatic interactions in the SH1-SH2 helix of human cardiac myosin modulate the time of strong actomyosin binding.

IF 1.8 3区生物学 Q4 CELL BIOLOGY

Journal of Muscle Research and Cell Motility Pub Date : 2021-06-01 Epub Date: 2020-09-14 DOI:10.1007/s10974-020-09588-1

Akhil Gargey, Shiril Bhardwaj Iragavarapu, Alexander V Grdzelishvili, Yuri E Nesmelov

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Abstract

Two single mutations, R694N and E45Q, were introduced in the beta isoform of human cardiac myosin to remove permanent salt bridges E45:R694 and E98:R694 in the SH1-SH2 helix of the myosin head. Beta isoform-specific bridges E45:R694 and E98:R694 were discovered in the molecular dynamics simulations of the alpha and beta myosin isoforms. Alpha and beta isoforms exhibit different kinetics, ADP dissociates slower from actomyosin containing beta myosin isoform, therefore, beta myosin stays strongly bound to actin longer. We hypothesize that the electrostatic interactions in the SH1-SH2 helix modulate the affinity of ADP to actomyosin, and therefore, the time of the strong actomyosin binding. Wild type and the mutants of the myosin head construct (1-843 amino acid residues) were expressed in differentiated C₂C₁₂ cells, and the duration of the strongly bound state of actomyosin was characterized using transient kinetics spectrophotometry. All myosin constructs exhibited a fast rate of ATP binding to actomyosin and a slow rate of ADP dissociation, showing that ADP release limits the time of the strongly bound state of actomyosin. The mutant R694N showed a faster rate of ADP release from actomyosin, compared to the wild type and the E45Q mutant, thus indicating that electrostatic interactions within the SH1-SH2 helix region of human cardiac myosin modulate ADP release and thus, the duration of the strongly bound state of actomyosin.

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人类心肌肌球蛋白 SH1-SH2 螺旋中的静电相互作用可调节肌动蛋白的强结合时间。

在人类心肌肌球蛋白的β异构体中引入了两个单突变，即R694N和E45Q，以去除肌球蛋白头部SH1-SH2螺旋中的永久盐桥E45:R694和E98:R694。在对α肌球蛋白和β肌球蛋白异构体进行分子动力学模拟时发现了β肌球蛋白异构体特异性桥E45:R694和E98:R694。α肌球蛋白和β肌球蛋白异构体表现出不同的动力学特性，ADP从含有β肌球蛋白异构体的肌动蛋白中解离的速度较慢，因此，β肌球蛋白与肌动蛋白紧密结合的时间较长。我们假设，SH1-SH2 螺旋中的静电相互作用调节了 ADP 与肌动蛋白的亲和力，因此也调节了肌动蛋白的强结合时间。在分化的 C2C12 细胞中表达肌球蛋白头部构建体（1-843 个氨基酸残基）的野生型和突变体，并使用瞬时动力学分光光度法表征肌球蛋白强结合状态的持续时间。所有肌球蛋白构建体都表现出 ATP 与肌动蛋白结合的速度快，而 ADP 解离的速度慢，这表明 ADP 释放限制了肌动蛋白强结合状态的时间。与野生型和 E45Q 突变体相比，突变体 R694N 从肌动蛋白释放 ADP 的速度更快，这表明人类心肌肌球蛋白 SH1-SH2 螺旋区域内的静电相互作用调节了 ADP 的释放，从而调节了肌动蛋白强结合状态的持续时间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Muscle Research and Cell Motility 生物-细胞生物学

CiteScore

6.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Muscle Research and Cell Motility has as its main aim the publication of original research which bears on either the excitation and contraction of muscle, the analysis of any one of the processes involved therein, the processes underlying contractility and motility of animal and plant cells, the toxicology and pharmacology related to contractility, or the formation, dynamics and turnover of contractile structures in muscle and non-muscle cells. Studies describing the impact of pathogenic mutations in genes encoding components of contractile structures in humans or animals are welcome, provided they offer mechanistic insight into the disease process or the underlying gene function. The policy of the Journal is to encourage any form of novel practical study whatever its specialist interest, as long as it falls within this broad field. Theoretical essays are welcome provided that they are concise and suggest practical ways in which they may be tested. Manuscripts reporting new mutations in known disease genes without validation and mechanistic insight will not be considered. It is the policy of the journal that cells lines, hybridomas and DNA clones should be made available by the developers to any qualified investigator. Submission of a manuscript for publication constitutes an agreement of the authors to abide by this principle.