Evidence for the role of PrP^C helix 1 in the hydrophilic seeding of prion aggregates

Abstract

Prions are mammalian proteins (PrPs) with a unique pathogenic property: a nonendogenous isoform PrP^Sc can catalyze conversion of the endogenous PrP^C isoform into additional PrP^Sc. In this work, we demonstrate that PrP^C helix 1 has certain properties (hydrophilicity, charge distribution) that make it unique among all naturally occurring α-helices, and which are indicative of a highly specific model of prion infectivity. The β-nucleation model proposes that PrP^Sc is an aggregate with a hydrophilic core, consisting of a β-sheet-like arrangement of constituent helix 1 components. It is suggested by using structural arguments, and confirmed by using charmm energy calculations, that aggregate formation from two PrP^C molecules is highly unfavorable, but the addition of chains to an existing aggregate is favorable. The β-nucleation model is shown to be consistent with the prion species-barrier, as well as with infectivity data. Sequence analysis of all known protein structures indicates that PrP is uniquely suited to β-nucleation, in contrast to the many proteins that readily form less favorable (often nonspecific) hydrophobic aggregates.