Abstract
Protein phase separation by low-complexity, intrinsically disordered domains generates membraneless organelles and links to neurodegeneration. Cellular prion protein (PrPC) contains such domains, causes spongiform degeneration, and is a receptor for Alzheimer's amyloid-β oligomers (Aβo). Here, we show that PrPC separates as a liquid phase, in which α-helical Thr become unfolded. At the cell surface, PrPC Lys residues interact with Aβo to create a hydrogel containing immobile Aβo and relatively mobile PrPC. The Aβo/PrP hydrogel has a well-defined stoichiometry and dissociates with excess Aβo. NMR studies of hydrogel PrPC reveal a distinct α-helical conformation for natively unfolded amino-terminal Gly and Ala residues. Aβo/PrP hydrogel traps signal-transducing mGluR5 on the plasma membrane. Recombinant PrPC extracts endogenous Aβo from human Alzheimer's soluble brain lysates into hydrogel, and a PrPC antagonist releases Aβo from endogenous brain hydrogel. Thus, coupled phase and conformational transitions of PrPC are driven by Aβ species from Alzheimer's disease.
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