Abstract
Recent studies demonstrated that the efficiency, rate, and yield of prion amplification in vitro could be substantially improved by supplementing protein misfolding cyclic amplification (PMCA) with Teflon beads [Gonzalez-Montalban et al. (2011) PLoS Pathog. 7, e1001277]. Here we employed the new PMCA format with beads (PMCAb) to gain insight into the mechanism of prion amplification. Using a panel of six hamster prion strains, the effect of beads on amplification was found to be strain-specific, with the largest improvements in efficiency observed for strains with the highest conformational stability. This result suggests a link between PrP(Sc) conformational stability and its fragmentation rate and that beads improved amplification by assisting fragmentation. Furthermore, while exploring the PrP(Sc)-independent bead effect mechanism, a synergy between the effects of RNA and beads on amplification was observed. Consistent with previous studies, amplification of all six hamster strains tested here was found to be RNA-dependent. Under sonication conditions used for PMCA, large RNA molecules were found to degrade into smaller fragments of a size that was previously shown to be the most effective in facilitating prion conversion. We speculate that sonication-induced changes in RNA size distribution could be one of the rate-limiting steps in prion amplification.