Unraveling the mysteries of protein folding and misfolding

This mini‐review focuses on the processes and consequences of protein folding and misfolding. The latter process often leads to protein aggregation and precipitation with the aggregates adopting either highly ordered (amyloid fibril) or disordered (amorphous) forms. In particular, the amyloid fibril...

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Bibliographic Details
Published in:IUBMB life 2008-12, Vol.60 (12), p.769-774
Main Authors: Ecroyd, Heath, Carver, John A.
Format: Article
Language:English
Subjects:
Alzheimer's disease
amyloid
fibril
Molecular Chaperones
Parkinson's disease
protein aggregation
Protein Conformation
Protein Folding
protein misfolding
Proteins - chemistry
Proteins - metabolism
small heat shock protein
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Summary:This mini‐review focuses on the processes and consequences of protein folding and misfolding. The latter process often leads to protein aggregation and precipitation with the aggregates adopting either highly ordered (amyloid fibril) or disordered (amorphous) forms. In particular, the amyloid fibril is discussed because this form has gained considerable notoriety due to its close links to a variety of debilitating diseases including Alzheimer's, Parkinson's, Huntington's, and Creutzfeldt‐Jakob diseases, and type‐II diabetes. In each of these diseases a different protein forms fibrils, yet the fibrils formed have a very similar structure. The mechanism by which fibrils form, fibril structure, and the cytotoxicity associated with fibril formation are discussed. The generic nature of amyloid fibril structure suggests that a common target may be accessible to treat amyloid fibril‐associated diseases. As such, the ability of some molecules, for example, the small heat‐shock family of molecular chaperone proteins, to inhibit fibril formation is of interest due to their therapeutic potential. © 2008 IUBMB IUBMB Life, 60(12): 769–774, 2008
ISSN:1521-6543
1521-6551
DOI:10.1002/iub.117