Functionally relevant domains of the prion protein identified in vivo

The prion consists essentially of PrP^Sc, a misfolded and aggregated conformer of the cellular protein PrP^C. Whereas PrP^C deficient mice are clinically healthy, expression of PrP^C variants lacking its central domain (PrP_ΔCD), or of the PrP-related protein Dpl, induces lethal neurodegenerative syndromes which are repressed by full-length PrP. Here we tested the structural basis of these syndromes by grafting the amino terminus of PrP^C (residues 1-134), or its central domain (residues 90-134), onto Dpl. Further, we constructed a soluble variant of the neurotoxic PrP_ΔCD mutant that lacks its glycosyl phosphatidyl inositol (GPI) membrane anchor. Each of these modifications abrogated the pathogenicity of Dpl and PrP_ΔCD in transgenic mice. The PrP-Dpl chimeric molecules, but not anchorless PrP_ΔCD, ameliorated the disease of mice expressing truncated PrP variants. We conclude that the amino proximal domain of PrP exerts a neurotrophic effect even when grafted onto a distantly related protein, and that GPI-linked membrane anchoring is necessary for both beneficial and deleterious effects of PrP and its variants.