去酪氨酸化微管调节心脏和骨骼肌中的机械转导。

Detyrosinated microtubules modulate mechanotransduction in heart and skeletal muscle.

作者信息

Kerr Jaclyn P, Robison Patrick, Shi Guoli, Bogush Alexey I, Kempema Aaron M, Hexum Joseph K, Becerra Natalia, Harki Daniel A, Martin Stuart S, Raiteri Roberto, Prosser Benjamin L, Ward Christopher W

机构信息

Department of Orthopaedics, University of Maryland School of Medicine, Baltimore, Maryland 21201, USA.

Department of Physiology, Pennsylvania Muscle Institute, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104, USA.

出版信息

Nat Commun. 2015 Oct 8;6:8526. doi: 10.1038/ncomms9526.

DOI:10.1038/ncomms9526

PMID:26446751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4633818/

Abstract

In striated muscle, X-ROS is the mechanotransduction pathway by which mechanical stress transduced by the microtubule network elicits reactive oxygen species. X-ROS tunes Ca(2+) signalling in healthy muscle, but in diseases such as Duchenne muscular dystrophy (DMD), microtubule alterations drive elevated X-ROS, disrupting Ca(2+) homeostasis and impairing function. Here we show that detyrosination, a post-translational modification of α-tubulin, influences X-ROS signalling, contraction speed and cytoskeletal mechanics. In the mdx mouse model of DMD, the pharmacological reduction of detyrosination in vitro ablates aberrant X-ROS and Ca(2+) signalling, and in vivo it protects against hallmarks of DMD, including workload-induced arrhythmias and contraction-induced injury in skeletal muscle. We conclude that detyrosinated microtubules increase cytoskeletal stiffness and mechanotransduction in striated muscle and that targeting this post-translational modification may have broad therapeutic potential in muscular dystrophies.

摘要

在横纹肌中，X-ROS是一种机械转导途径，通过该途径，微管网络转导的机械应力引发活性氧。X-ROS在健康肌肉中调节Ca(2+)信号传导，但在诸如杜兴氏肌营养不良症（DMD）等疾病中，微管改变会导致X-ROS升高，破坏Ca(2+)稳态并损害功能。在这里，我们表明，α-微管蛋白的一种翻译后修饰——去酪氨酸化，会影响X-ROS信号传导、收缩速度和细胞骨架力学。在DMD的mdx小鼠模型中，体外药理学降低去酪氨酸化可消除异常的X-ROS和Ca(2+)信号传导，在体内则可预防DMD的特征，包括工作负荷诱导的心律失常和骨骼肌收缩诱导的损伤。我们得出结论，去酪氨酸化的微管会增加横纹肌的细胞骨架硬度和机械转导，针对这种翻译后修饰可能在肌肉营养不良症中具有广泛的治疗潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b52/4633818/9fecb7f2cdce/ncomms9526-f1.jpg

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去酪氨酸化微管调节心脏和骨骼肌中的机械转导。

Detyrosinated microtubules modulate mechanotransduction in heart and skeletal muscle.

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