Expanding role of molecular chaperones in regulating [alpha]-synuclein misfolding; implications in Parkinson's disease

Expanding role of molecular chaperones in regulating [alpha]-synuclein misfolding; implications in Parkinson's disease

Protein misfolding under stressful environmental conditions cause several cellular problems owing to the disturbed cellular protein homeostasis, which may further lead to neurological disorders like Parkinson's disease (PD), Alzheimer's disease (AD), Amyloid lateral sclerosis and Huntingto...

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Bibliographic Details
Published in:Cellular and molecular life sciences : CMLS Vol. 74; no. 4; p. 617
Main Authors: Sharma, Sandeep K, Priya, Smriti
Format: Journal Article
Language:English
Published: Basel Springer Nature B.V 01-02-2017
Subjects:
Alzheimer's disease
Analysis
Environmental conditions
Homeostasis
Parkinson's disease
Protein folding
Studies
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Summary:Protein misfolding under stressful environmental conditions cause several cellular problems owing to the disturbed cellular protein homeostasis, which may further lead to neurological disorders like Parkinson's disease (PD), Alzheimer's disease (AD), Amyloid lateral sclerosis and Huntington disease (HD). The presence of cellular defense mechanisms like molecular chaperones and proteasomal degradation systems prevent protein misfolding and aggregation. Molecular chaperones plays primary role in preventing protein misfolding by mediating proper native folding, unfolding and refolding of the polypeptides along with vast number of cellular functions. In past few years, the understanding of molecular chaperone mechanisms has been expanded enormously although implementation to prevent protein aggregation diseases is still deficient. We in this review evaluated major classes of molecular chaperones and their mechanisms relevant for preventing protein aggregation, specific case of [alpha]-synuclein aggregation. We also evaluate the molecular chaperone function as a novel therapeutic approach and the chaperone inhibitors or activators as small molecular drug targets.
ISSN:1420-682X
1420-9071
DOI:10.1007/s00018-016-2340-9