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Human Molecular Chaperone Hsp60 and Its Apical Domain Suppress Amyloid Fibril Formation of ?-Synuclein.


ABSTRACT: Heat shock proteins play roles in assisting other proteins to fold correctly and in preventing the aggregation and accumulation of proteins in misfolded conformations. However, the process of aging significantly degrades this ability to maintain protein homeostasis. Consequently, proteins with incorrect conformations are prone to aggregate and accumulate in cells, and this aberrant aggregation of misfolded proteins may trigger various neurodegenerative diseases, such as Parkinson's disease. Here, we investigated the possibilities of suppressing ?-synuclein aggregation by using a mutant form of human chaperonin Hsp60, and a derivative of the isolated apical domain of Hsp60 (Hsp60 AD(Cys)). In vitro measurements were used to detect the effects of chaperonin on amyloid fibril formation, and interactions between Hsp60 proteins and ?-synuclein were probed by quartz crystal microbalance analysis. The ability of Hsp60 AD(Cys) to suppress ?-synuclein intracellular aggregation and cytotoxicity was also demonstrated. We show that Hsp60 mutant and Hsp60 AD(Cys) both effectively suppress ?-synuclein amyloid fibril formation, and also demonstrate for the first time the ability of Hsp60 AD(Cys) to function as a mini-chaperone inside cells. These results highlight the possibility of using Hsp60 AD as a method of prevention and treatment of neurodegenerative diseases.

SUBMITTER: Yamamoto H 

PROVIDER: S-EPMC6982183 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Human Molecular Chaperone Hsp60 and Its Apical Domain Suppress Amyloid Fibril Formation of α-Synuclein.

Yamamoto Hanae H   Fukui Naoya N   Adachi Mayuka M   Saiki Eiichi E   Yamasaki Anna A   Matsumura Rio R   Kuroyanagi Daichi D   Hongo Kunihiro K   Mizobata Tomohiro T   Kawata Yasushi Y  

International journal of molecular sciences 20191219 1


Heat shock proteins play roles in assisting other proteins to fold correctly and in preventing the aggregation and accumulation of proteins in misfolded conformations. However, the process of aging significantly degrades this ability to maintain protein homeostasis. Consequently, proteins with incorrect conformations are prone to aggregate and accumulate in cells, and this aberrant aggregation of misfolded proteins may trigger various neurodegenerative diseases, such as Parkinson's disease. Here  ...[more]

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