Molecular chaperone functions in protein folding and proteostasis

Molecular chaperone functions in protein folding and proteostasis

The biological functions of proteins are governed by their three-dimensional fold. Protein folding, maintenance of proteome integrity, and protein homeostasis (proteostasis) critically depend on a complex network of molecular chaperones. Disruption of proteostasis is implicated in aging and the path...

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Bibliographic Details
Published in:Annual review of biochemistry Vol. 82; no. 1; pp. 323 - 355
Main Authors: Kim, Yujin E, Hipp, Mark S, Bracher, Andreas, Hayer-Hartl, Manajit, Hartl, F Ulrich
Format: Journal Article
Language:English
Published: United States Annual Reviews, Inc 01-01-2013
Subjects:
Biochemistry
Homeostasis
Humans
Molecular Chaperones - chemistry
Molecular Chaperones - metabolism
Molecular Chaperones - physiology
Pathogenesis
Polypeptides
Protein Folding
Proteins - chemistry
Proteins - metabolism
Proteome - metabolism
Proteomics
Proteostasis Deficiencies - physiopathology
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Summary:The biological functions of proteins are governed by their three-dimensional fold. Protein folding, maintenance of proteome integrity, and protein homeostasis (proteostasis) critically depend on a complex network of molecular chaperones. Disruption of proteostasis is implicated in aging and the pathogenesis of numerous degenerative diseases. In the cytosol, different classes of molecular chaperones cooperate in evolutionarily conserved folding pathways. Nascent polypeptides interact cotranslationally with a first set of chaperones, including trigger factor and the Hsp70 system, which prevent premature (mis)folding. Folding occurs upon controlled release of newly synthesized proteins from these factors or after transfer to downstream chaperones such as the chaperonins. Chaperonins are large, cylindrical complexes that provide a central compartment for a single protein chain to fold unimpaired by aggregation. This review focuses on recent advances in understanding the mechanisms of chaperone action in promoting and regulating protein folding and on the pathological consequences of protein misfolding and aggregation.
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ISSN:0066-4154
1545-4509
DOI:10.1146/annurev-biochem-060208-092442