The interplay of glycosylation and disulfide formation influences fibrillization in a prion protein fragment.

Abstract

It is now accepted that the structural transition from cellular prion protein (PrPC) to proteinase K-resistant prion protein scrapie (PrPSc) is the major event leading to transmissible spongiform encephalopathies. Although the mechanism of this transition remains elusive, glycosylation has been proposed to impede the PrPC to PrPSc conversion. To address the role of glycosylation, we have prepared glycosylated and unglycosylated peptides derived from the 175-195 fragment of the human prion protein. Comparison of the structure, aggregation kinetics, fibril formation capabilities, and redox susceptibility of Cys-179 has shown that the N-linked glycan (at Asn-181) significantly reduces the rate of fibrillization by promoting intermolecular disulfide formation via Cys-179. Further-more, the aggressive fibrillization of a C179S mutant of this fragment highlights the significant role of disulfide stability in retarding the rate of fibril formation. The implications of these studies are discussed in the context of fibril formation in the intact prion protein.