Bacteriophage-encoded chaperonins stimulate prion protein fibrillation in an ATP-dependent manner

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. The resulting fibrils were characterised by thioflavin T fluorescence, electron microscopy, proteinase K digestion assay and other methods. In the presence of ATP, chaperonins were found to promote the conversion of prion protein monomers into short amyloid fibrils with their further aggregation into less toxic large clusters. Fibrils generated with the assistance of phage chaperonins differ in morphology and properties from those formed spontaneously from monomeric prion in the presence of denaturants at acidic pH.

Automated summary

The pathogenesis of prion diseases involves the transformation of prion protein into an insoluble form. This study found that two phage chaperonins can promote the fibrillation of prion protein in an ATP-dependent manner, resulting in the formation of less toxic large clusters. These fibrils differ in morphology and properties from those formed spontaneously in acidic pH with denaturants.