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热休克蛋白B7(Hspb7)是一种具有心脏保护作用的伴侣蛋白,可促进肌节蛋白稳态。

Hspb7 is a cardioprotective chaperone facilitating sarcomeric proteostasis.

作者信息

Mercer Emily J, Lin Yi-Fan, Cohen-Gould Leona, Evans Todd

机构信息

Department of Surgery, Weill Cornell Medical College, United States.

Department of Biochemistry, Weill Cornell Medical College, United States.

出版信息

Dev Biol. 2018 Mar 1;435(1):41-55. doi: 10.1016/j.ydbio.2018.01.005. Epub 2018 Jan 10.

DOI:10.1016/j.ydbio.2018.01.005
PMID:29331499
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5818303/
Abstract

Small heat shock proteins are chaperones with variable mechanisms of action. The function of cardiac family member Hspb7 is unknown, despite being identified through GWAS as a potential cardiomyopathy risk gene. We discovered that zebrafish hspb7 mutants display mild focal cardiac fibrosis and sarcomeric abnormalities. Significant mortality was observed in adult hspb7 mutants subjected to exercise stress, demonstrating a genetic and environmental interaction that determines disease outcome. We identified large sarcomeric proteins FilaminC and Titin as Hspb7 binding partners in cardiac cells. Damaged FilaminC undergoes autophagic processing to maintain sarcomeric homeostasis. Loss of Hspb7 in zebrafish or human cardiomyocytes stimulated autophagic pathways and expression of the sister gene encoding Hspb5. Inhibiting autophagy caused FilaminC aggregation in HSPB7 mutant human cardiomyocytes and developmental cardiomyopathy in hspb7 mutant zebrafish embryos. These studies highlight the importance of damage-processing networks in cardiomyocytes, and a previously unrecognized role in this context for Hspb7.

摘要

小热休克蛋白是具有多种作用机制的分子伴侣。心脏家族成员Hspb7的功能尚不清楚,尽管它已通过全基因组关联研究(GWAS)被确定为潜在的心肌病风险基因。我们发现斑马鱼hspb7突变体表现出轻度的局灶性心脏纤维化和肌节异常。在经受运动应激的成年hspb7突变体中观察到显著的死亡率,这表明遗传和环境相互作用决定了疾病的结果。我们确定了大型肌节蛋白细丝蛋白C和肌联蛋白是心脏细胞中Hspb7的结合伙伴。受损的细丝蛋白C会经历自噬过程以维持肌节的稳态。斑马鱼或人类心肌细胞中Hspb7的缺失会刺激自噬途径以及编码Hspb5的姐妹基因的表达。抑制自噬会导致HSPB7突变的人类心肌细胞中细丝蛋白C聚集,并在hspb7突变的斑马鱼胚胎中引发发育性心肌病。这些研究突出了心肌细胞中损伤处理网络的重要性,以及Hspb7在此背景下以前未被认识的作用。

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本文引用的文献

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HSPB7 is indispensable for heart development by modulating actin filament assembly.
Proc Natl Acad Sci U S A. 2017 Nov 7;114(45):11956-11961. doi: 10.1073/pnas.1713763114. Epub 2017 Oct 23.
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