Copper drives prion protein phase separation and modulates aggregation

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Abstract

Prion diseases are characterized by prion protein (PrP) transmissible aggregation and toxicity in the brain. The physiological function of PrP seems related to sequestering and internalization of redox-active Cu 2+ . It is unclear whether Cu 2+ contributes to PrP aggregation, recently shown to be mediated by PrP condensation. We investigated the role of Cu 2+ and oxidation in PrP condensation and aggregation using multiple biophysical and biochemical methods. We find that Cu 2+ promotes PrP condensation at the cell surface and in vitro through co-partitioning. Molecularly, Cu 2+ inhibited PrP β-structure and hydrophobic residues exposure. Oxidation, induced by H 2 O 2 , triggered liquid-to-solid transition of PrP:Cu 2+ condensates and promoted amyloid-like PrP aggregation. In cells, overexpression of PrP C initially protected against Cu 2+ cytotoxicity but led to PrP C aggregation upon extended copper exposure. Our data suggest that PrP condensates function as a buffer for copper that prevent copper toxicity but can transition into PrP aggregation at prolonged oxidative stress.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00