Isolation and Characterization of a Proteinase K-Sensitive PrPSc Fraction

Abstract

Recent studies have shown that a sizable fraction of PrP^Sc present in prion-infected tissues is, contrary to previous conceptions, sensitive to digestion by proteinase K (PK). This finding has important implications in the context of diagnosis of prion disease, as PK has been extensively used in attempts to distinguish between PrP^Sc and PrP^C. Even more importantly, PK-sensitive PrP^Sc (sPrP^Sc) might be essential to understand the process of conversion and aggregation of PrP^C leading to infectivity. We have isolated a fraction of sPrP^Sc. This material was obtained by differential centrifugation at an intermediate speed of Syrian hamster PrP^Sc obtained through a conventional procedure based on ultracentrifugation in the presence of detergents. PK-sensitive PrP^Sc is completely degraded under standard conditions (50 μg/mL of proteinase K at 37 °C for 1 h) and can also be digested with trypsin. Centrifugation in a sucrose gradient showed sPrP^Sc to correspond to the lower molecular weight fractions of the continuous range of oligomers that constitute PrP^Sc. PK-sensitive PrP^Sc has the ability to convert PrP^C into protease-resistant PrP^Sc, as assessed by the protein misfolding cyclic amplification assay (PMCA). Limited proteolysis of sPrP^Sc using trypsin allows for identification of regions that are particularly susceptible to digestion, i.e., are partially exposed and flexible; we have identified as such the regions around residues K110, R136, R151, K220, and R229. PK-sensitive PrP^Sc isolates should prove useful for structural studies to help understand fundamental issues of the molecular biology of PrP^Sc and in the quest to design tests to detect preclinical prion disease.