Different structural stability and toxicity of PrP(ARR) and PrP(ARQ) sheep prion protein variants

The polymorphisms at amino acid residues 136, 154, and 171 in ovine prion protein (PrP) have been associated with different susceptibility to scrapie: animals expressing PrP^ARQ PrP(Ala136/Arg154/Gln171)] show vulnerability, whereas those that express PrP^ARR PrP(Ala136/Arg154/Arg171)] are resistant to scrapie. The aim of this study was to evaluate the in vitro toxic effects of PrP^ARR and PrP^ARQ variants in relation with their structural characteristics. We show that both peptides cause cell death inducing apoptosis but, unexpectedly, the scrapie resistant PrP^ARR form was more toxic than the scrapie susceptible PrP^ARQ variant. Moreover, the α-helical conformation of PrP^ARR was less stable than that of PrP^ARQ and the structural determinants responsible of these different conformational stabilities were characterized by spectroscopic analysis. We observed that PrP toxicity was inversely related to protein structural stability, being the unfolded conformation more toxic than the native one. However, the PrP^ARQ variant displays a higher propensity to form large aggregates than PrP^ARR. Interestingly, in the presence of small amounts of PrP^ARR, PrP^ARQ aggregability was reduced to levels similar to that of PrP^ARR. Thus, in contrast to PrP^ARR toxicity, scrapie transmissibility seems to reside in the more stable conformation of PrP^ARQ that allows the formation of large amyloid fibrils.