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Rescue of Transgenic Alzheimer's Pathophysiology by Polymeric Cellular Prion Protein Antagonists.

Cell reports (2019-01-04)
Erik C Gunther, Levi M Smith, Mikhail A Kostylev, Timothy O Cox, Adam C Kaufman, Suho Lee, Ewa Folta-Stogniew, George D Maynard, Ji Won Um, Massimiliano Stagi, Jacqueline K Heiss, Austin Stoner, Geoff P Noble, Hideyuki Takahashi, Laura T Haas, John S Schneekloth, Janie Merkel, Christopher Teran, Zahra K Naderi, Surachai Supattapone, Stephen M Strittmatter
RESUMEN

Cellular prion protein (PrPC) binds the scrapie conformation of PrP (PrPSc) and oligomeric β-amyloid peptide (Aβo) to mediate transmissible spongiform encephalopathy (TSE) and Alzheimer's disease (AD), respectively. We conducted cellular and biochemical screens for compounds blocking PrPC interaction with Aβo. A polymeric degradant of an antibiotic targets Aβo binding sites on PrPC with low nanomolar affinity and prevents Aβo-induced pathophysiology. We then identified a range of negatively charged polymers with specific PrPC affinity in the low to sub-nanomolar range, from both biological (melanin) and synthetic (poly [4-styrenesulfonic acid-co-maleic acid], PSCMA) origin. Association of PSCMA with PrPC prevents Aβo/PrPC-hydrogel formation, blocks Aβo binding to neurons, and abrogates PrPSc production by ScN2a cells. We show that oral PSCMA yields effective brain concentrations and rescues APPswe/PS1ΔE9 transgenic mice from AD-related synapse loss and memory deficits. Thus, an orally active PrPC-directed polymeric agent provides a potential therapeutic approach to address neurodegeneration in AD and TSE.