泛素选择性伴侣蛋白CDC-48/p97将肌球蛋白组装与人类肌病联系起来。

The ubiquitin-selective chaperone CDC-48/p97 links myosin assembly to human myopathy.

作者信息

Janiesch Philipp Christoph, Kim Johnny, Mouysset Julien, Barikbin Roja, Lochmüller Hanns, Cassata Giuseppe, Krause Sabine, Hoppe Thorsten

机构信息

Centre for Molecular Neurobiology (ZMNH), University of Hamburg, Falkenried 94, 20251 Hamburg, Germany.

出版信息

Nat Cell Biol. 2007 Apr;9(4):379-90. doi: 10.1038/ncb1554. Epub 2007 Mar 18.

DOI:10.1038/ncb1554

PMID:17369820

Abstract

Protein degradation in eukaryotes often requires the ubiquitin-selective chaperone p97 for substrate recruitment and ubiquitin-chain assembly. However, the physiological relevance of p97, and its role in developmental processes, remain unclear. Here, we discover an unanticipated function for CDC-48/p97 in myosin assembly and myofibril organization, both in Caenorhabditis elegans and humans. The developmentally regulated assembly of a CDC-48-UFD-2-CHN-1 complex links turnover of the myosin-directed chaperone UNC-45 to functional muscle formation. Our data suggest a similarly conserved pathway regulating myosin assembly in humans. Remarkably, mutations in human p97, known to cause hereditary inclusion-body myopathy, abrogate UNC-45 degradation and result in severely disorganized myofibrils, detrimental towards sarcomeric function. These results identify a key role for CDC-48/p97 in the process of myofibre differentiation and maintenance, which is abolished during pathological conditions leading to protein aggregation and inclusion-body formation in human skeletal muscle.

摘要

真核生物中的蛋白质降解通常需要泛素选择性伴侣蛋白p97来募集底物并组装泛素链。然而，p97的生理相关性及其在发育过程中的作用仍不清楚。在这里，我们在秀丽隐杆线虫和人类中发现了CDC-48/p97在肌球蛋白组装和肌原纤维组织中具有意想不到的功能。CDC-48-UFD-2-CHN-1复合物的发育调控组装将肌球蛋白导向伴侣蛋白UNC-45的周转与功能性肌肉形成联系起来。我们的数据表明在人类中存在一条类似的保守途径来调节肌球蛋白组装。值得注意的是，已知会导致遗传性包涵体肌病的人类p97突变会消除UNC-45的降解，并导致肌原纤维严重紊乱，对肌节功能有害。这些结果确定了CDC-48/p97在肌纤维分化和维持过程中的关键作用，在导致人类骨骼肌中蛋白质聚集和包涵体形成的病理条件下，这一作用会被消除。

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泛素选择性伴侣蛋白CDC-48/p97将肌球蛋白组装与人类肌病联系起来。

The ubiquitin-selective chaperone CDC-48/p97 links myosin assembly to human myopathy.

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