脱氧-ADP·Pi激活前动力冲程肌球蛋白的分子机制。

Molecular mechanisms underlying deoxy-ADP.Pi activation of pre-powerstroke myosin.

作者信息

Nowakowski Sarah G, Regnier Michael, Daggett Valerie

机构信息

Department of Bioengineering, University of Washington, Seattle, Washington, 98195-5013.

Center for Cardiovascular Biology, University of Washington, Seattle, Washington, 98195-5013.

出版信息

Protein Sci. 2017 Apr;26(4):749-762. doi: 10.1002/pro.3121. Epub 2017 Mar 21.

DOI:10.1002/pro.3121

PMID:28097776

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5368076/

Abstract

Myosin activation is a viable approach to treat systolic heart failure. We previously demonstrated that striated muscle myosin is a promiscuous ATPase that can use most nucleoside triphosphates as energy substrates for contraction. When 2-deoxy ATP (dATP) is used, it acts as a myosin activator, enhancing cross-bridge binding and cycling. In vivo, we have demonstrated that elevated dATP levels increase basal cardiac function and rescues function of infarcted rodent and pig hearts. Here we investigate the molecular mechanism underlying this physiological effect. We show with molecular dynamics simulations that the binding of dADP.Pi (dATP hydrolysis products) to myosin alters the structure and dynamics of the nucleotide binding pocket, myosin cleft conformation, and actin binding sites, which collectively yield a myosin conformation that we predict favors weak, electrostatic binding to actin. In vitro motility assays at high ionic strength were conducted to test this prediction and we found that dATP increased motility. These results highlight alterations to myosin that enhance cross-bridge formation and reveal a potential mechanism that may underlie dATP-induced improvements in cardiac function.

摘要

肌球蛋白激活是治疗收缩性心力衰竭的一种可行方法。我们之前证明，横纹肌肌球蛋白是一种混杂的ATP酶，它可以利用大多数核苷三磷酸作为收缩的能量底物。当使用2-脱氧ATP（dATP）时，它作为肌球蛋白激活剂，增强横桥结合和循环。在体内，我们已经证明升高的dATP水平可提高基础心脏功能，并挽救梗死的啮齿动物和猪心脏的功能。在此，我们研究这种生理效应背后的分子机制。我们通过分子动力学模拟表明，dADP.Pi（dATP水解产物）与肌球蛋白的结合改变了核苷酸结合口袋的结构和动力学、肌球蛋白裂隙构象以及肌动蛋白结合位点，这些共同产生了一种我们预测有利于与肌动蛋白形成弱静电结合的肌球蛋白构象。在高离子强度下进行了体外运动分析以验证这一预测，我们发现dATP增加了运动性。这些结果突出了肌球蛋白的改变增强了横桥形成，并揭示了可能是dATP诱导心脏功能改善基础的潜在机制。

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