α激酶3在M带的信号传导维持横纹肌肌节完整性和蛋白质稳态。

Alpha kinase 3 signaling at the M-band maintains sarcomere integrity and proteostasis in striated muscle.

作者信息

McNamara James W, Parker Benjamin L, Voges Holly K, Mehdiabadi Neda R, Bolk Francesca, Ahmad Feroz, Chung Jin D, Charitakis Natalie, Molendijk Jeffrey, Zech Antonia T L, Lal Sean, Ramialison Mirana, Karavendzas Kathy, Pointer Hayley L, Syrris Petros, Lopes Luis R, Elliott Perry M, Lynch Gordon S, Mills Richard J, Hudson James E, Watt Kevin I, Porrello Enzo R, Elliott David A

机构信息

Murdoch Children's Research Institute, Royal Children's Hospital, Melbourne, Victoria, Australia.

Melbourne Centre for Cardiovascular Genomics and Regenerative Medicine, Royal Children's Hospital, Melbourne, Victoria, Australia.

出版信息

Nat Cardiovasc Res. 2023 Feb;2(2):159-173. doi: 10.1038/s44161-023-00219-9. Epub 2023 Feb 15.

DOI:10.1038/s44161-023-00219-9

PMID:39196058

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11358020/

Abstract

Muscle contraction is driven by the molecular machinery of the sarcomere. As phosphorylation is a critical regulator of muscle function, the identification of regulatory kinases is important for understanding sarcomere biology. Pathogenic variants in alpha kinase 3 (ALPK3) cause cardiomyopathy and musculoskeletal disease, but little is known about this atypical kinase. Here we show that ALPK3 is an essential component of the M-band of the sarcomere and define the ALPK3-dependent phosphoproteome. ALPK3 deficiency impaired contractility both in human cardiac organoids and in the hearts of mice harboring a pathogenic truncating Alpk3 variant. ALPK3-dependent phosphopeptides were enriched for sarcomeric components of the M-band and the ubiquitin-binding protein sequestosome-1 (SQSTM1) (also known as p62). Analysis of the ALPK3 interactome confirmed binding to M-band proteins including SQSTM1. In human pluripotent stem cell-derived cardiomyocytes modeling cardiomyopathic ALPK3 mutations, sarcomeric organization and M-band localization of SQSTM1 were abnormal suggesting that this mechanism may underly disease pathogenesis.

摘要

肌肉收缩由肌节的分子机制驱动。由于磷酸化是肌肉功能的关键调节因子，因此鉴定调节激酶对于理解肌节生物学至关重要。α激酶3（ALPK3）中的致病性变异会导致心肌病和肌肉骨骼疾病，但对这种非典型激酶知之甚少。在这里，我们表明ALPK3是肌节M带的重要组成部分，并定义了依赖ALPK3的磷酸化蛋白质组。ALPK3缺陷在人类心脏类器官和携带致病性截短Alpk3变异的小鼠心脏中均损害了收缩性。依赖ALPK3的磷酸肽在M带的肌节成分和泛素结合蛋白sequestosome-1（SQSTM1，也称为p62）中富集。对ALPK3相互作用组的分析证实其与包括SQSTM1在内的M带蛋白结合。在模拟心肌病性ALPK3突变的人类多能干细胞衍生的心肌细胞中，SQSTM1的肌节组织和M带定位异常，表明这种机制可能是疾病发病机制的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5772/11358020/99e46d4b4c89/44161_2023_219_Fig1_HTML.jpg

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α激酶3在M带的信号传导维持横纹肌肌节完整性和蛋白质稳态。

Alpha kinase 3 signaling at the M-band maintains sarcomere integrity and proteostasis in striated muscle.

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