Quantitative traits of prion strains are enciphered in the conformation of the prion protein.

ABSTRACT

Variations in prions, which cause different disease phenotypes, are often referred to as strains. Strains replicate with a high degree of fidelity, which demands a mechanism that can account for this phenomenon. Prion strains differ by qualitative characteristics such as clinical symptoms, brain pathology, topology of accumulated PrP(Sc), and Western blot patterns of glycosylated or deglycosylated PrP(Sc). Since none of these qualitative features can directly explain quantitative strain traits such as incubation time or dose response, we analyzed conformational parameters of PrP(Sc) and the rate of accumulation in different prion strains. Using the conformation-dependent immunoassay (CDI), we were able to discriminate among PrP(Sc) molecules from eight different prion strains propagated in Syrian hamsters. CDI quantifies PrP isoforms by simultaneously following antibody binding to both the denatured and native forms of a protein. In a plot of the ratio of antibody binding to denatured/native PrP graphed as a function of the concentration of PrP(Sc), each strain occupied a unique position, indicating that each strain accumulated different concentrations of particular PrP(Sc) conformers. This conclusion was supported by a unique pattern of equilibrium unfolding of PrP(Sc) found within each strain. By comparing the PrP(Sc) levels before and after limited proteinase K digestion, we found that each strain produces a substantial fraction of protease-sensitive PrP(Sc). We asked whether this fraction of PrP(Sc) might reflect those PrP(Sc) molecules that are most readily cleared by cellular proteases. When the protease-sensitive PrP(Sc) fraction was plotted as a function of the incubation time, a linear relationship was found with an excellent correlation coefficient (r = 0.94). Combined with the data on time courses of prion infection in Tg(MHu2M) and Tg(SHaPrP) mice, the results argue that different incubation times of various prion strains may arise predominantly from distinct rates of PrP(Sc) clearance rather than from different rates of PrP(Sc) formation.