Summary Prion infections cause conformational changes of PrP C and lead to progressive neurological impairment. Here we show that toxic, prion-mimetic ligands induce an intramolecular R208-H140 hydrogen bond (“H-latch”) altering the flexibility of the α2-α3 and β2-α2 loops of PrP C . Expression of a PrP 2Cys mutant mimicking the H-latch was constitutively toxic, whereas a PrP R207A mutant unable to form the H-latch conferred resistance to prion infection. High-affinity ligands that prevented H-latch induction repressed prion-related neurodegeneration in organotypic cerebellar cultures. We then selected phage-displayed ligands binding wild-type PrP C , but not PrP 2Cys . These binders depopulated H-latched conformers and conferred protection against prion toxicity. Finally, brain-specific expression of an antibody rationally designed to prevent H-latch formation, prolonged the life of prion-infected mice despite unhampered prion propagation, confirming that the H-latch is causally linked to prion neurotoxicity.

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