Abstract

PrP(C), a host protein which in prion-infected animals is converted to PrP(Sc), is linked to the cell membrane by a GPI anchor. Mice expressing PrP(C) without GPI anchor (tgGPI⁻ mice), are susceptible to prion infection but accumulate anchorless PrP(Sc) extra-, rather than intracellularly. We investigated whether tgGPI⁻ mice could faithfully propagate prion strains despite the deviant structure and location of anchorless PrP(Sc). We found that RML and ME7, but not 22L prions propagated in tgGPI⁻ brain developed novel cell tropisms, as determined by the Cell Panel Assay (CPA). Surprisingly, the levels of proteinase K-resistant PrP(Sc) (PrP(res)) in RML- or ME7-infected tgGPI⁻ brain were 25-50 times higher than in wild-type brain. When returned to wild-type brain, ME7 prions recovered their original properties, however RML prions had given rise to a novel prion strain, designated SFL, which remained unchanged even after three passages in wild-type mice. Because both RML PrP(Sc) and SFL PrP(Sc) are stably propagated in wild-type mice we propose that the two conformations are separated by a high activation energy barrier which is abrogated in tgGPI⁻ mice.