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Merck

Copper Binding Regulates Cellular Prion Protein Function.

Molecular neurobiology (2019-02-08)
Xuan T A Nguyen, Thanh Hoa Tran, Dan Cojoc, Giuseppe Legname
摘要

The cellular prion protein (PrPC), mainly known for its role in neurodegenerative diseases, is involved in several physiological processes including neuritogenesis. In addition, its ability to bind copper or zinc has been suggested for its role in metal homeostasis. Although PrPC has been known as a copper-binding molecule, little is known about how copper can affect PrPC physiological functions. By combining genomic approaches, cellular assays, and focal stimulation technique, we found that PrPC neuritogenesis function is directly influenced by N-terminal copper-binding amino acids. Several recombinant mouse PrP (recMoPrP) mutants at N-terminal copper-binding sites were produced, and primary hippocampal cultures were treated either in bulk or exposed near the hippocampal growth cones (GC) of single neurons in local stimulation manner. While focal stimulation of GC with wild-type recMoPrP induced neurite outgrowth and rapid GC turning toward the source, N-terminal mutants fail to support this effect. Indeed, disrupting all the copper-binding sites at the N-terminus of PrPC was toxic to neurons indicating that these regions are crucial for the protein function. Mutants at both octarepeat and non-octarepeat region abolished the neuritogenesis effect. Altogether, our findings indicate the crucial role of copper-binding sites in maintaining the neuritogenesis function in PrP, suggesting a potential link between loss-of-function of the protein and disease initiation.