Biochim Biophys Acta Proteins Proteom
January 2024
The pathogenesis of the various prion diseases is based on the conformational conversion of the prion protein from its physiological cellular form to the insoluble scrapie isoform. Several chaperones, including the Hsp60 family of group I chaperonins, are known to contribute to this transformation, but data on their effects are scarce and conflicting. In this work, two GroEL-like phage chaperonins, the single-ring OBP and the double-ring EL, were found to stimulate monomeric prion protein fibrillation in an ATP-dependent manner.
View Article and Find Full Text PDFBiochem Biophys Res Commun
September 2022
Controversial information about the role of chaperonins in the amyloid transformation of proteins and, in particular, α-synuclein, requires a more detailed study of the observed effects due to the structure and functional state of various chaperonins. In this work, two types of phage chaperonins, the double-ring EL and the single-ring OBP, were shown to stimulate α-synuclein fibrillation in an ATP-dependent manner. Chaperonin morphology does not affect the stimulation of α-synuclein amyloid transformation.
View Article and Find Full Text PDFThe review highlights various aspects of the influence of chaperones on amyloid proteins associated with the development of neurodegenerative diseases and includes studies conducted in our laboratory. Different sections of the article are devoted to the role of chaperones in the pathological transformation of alpha-synuclein and the prion protein. Information about the interaction of the chaperonins GroE and TRiC as well as polymer-based artificial chaperones with amyloidogenic proteins is summarized.
View Article and Find Full Text PDFThe molecular chaperone GroEL is designed to promote protein folding and prevent aggregation. However, the interaction between GroEL and the prion protein, PrP, could lead to pathogenic transformation of the latter to the aggregation-prone PrP form. Here, the molecular basis of the interactions in the GroEL-PrP complex is studied with cryo-EM and molecular dynamics approaches.
View Article and Find Full Text PDFThe GroEL-GroES chaperonin complex is a bacterial protein folding system, functioning in an ATP-dependent manner. Upon ATP binding and hydrolysis, it undergoes multiple stages linked to substrate protein binding, folding and release. Structural methods helped to reveal several conformational states and provide more information about the chaperonin functional cycle.
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