A new perspective on Hsp104-mediated propagation and curing of the yeast prion [PSI (+) ].

Most prions in yeast form amyloid fibrils that must be severed by the protein disaggregase Hsp104 to be propagated and transmitted efficiently to newly formed buds. Only one yeast prion, [PSI (+) ], is cured by Hsp104 overexpression. We investigated the interaction between Hsp104 and Sup35, the priongenic protein in yeast that forms the [PSI (+) ] prion.1 We found that a 20-amino acid segment within the highly-charged, unstructured middle domain of Sup35 contributes to the physical interaction between the middle domain and Hsp104. When this segment was deleted from Sup35, the efficiency of [PSI (+) ] severing was substantially reduced, resulting in larger Sup35 particles and weakening of the [PSI (+) ] phenotype. Furthermore, [PSI (+) ] in these cells was completely resistant to Hsp104 curing. The affinity of Hsp104 was considerably weaker than that of model Hsp104-binding proteins and peptides, implying that Sup35 prions are not ideal substrates for Hsp104-mediated remodeling. In light of this finding, we present a modified model of Hsp104-mediated [PSI (+) ] propagation and curing that requires only partial remodeling of Sup35 assembled into amyloid fibrils.