Abstract
Neurotoxic implications of the interactions between Cu(I/II) and amyloid-β (Aβ) indicate a connection between amyloid cascade hypothesis and metal ion hypothesis with respect to the neurodegeneration associated with Alzheimer’s disease (AD). Herein, we report a mechanistic strategy for modifying the first coordination sphere of Cu(II) bound to Aβ utilizing a rationally designed peptide modifier, L1. Upon reacting with L1, a metal-binding histidine (His) residue, His14, in Cu(II)–Aβ was modified through either covalent adduct formation, oxidation, or both. Consequently, the reactivity of L1 with Cu(II)–Aβ was able to disrupt binding of Cu(II) to Aβ and result in chemically modified Aβ with altered aggregation and toxicity profiles. Our molecular-level mechanistic studies revealed that such L1-mediated modifications toward Cu(II)–Aβ could stem from the molecule’s ability to 1) interact with Cu(II)–Aβ and 2) foster copper–O2 chemistry. Collectively, our work demonstrates the development of an effective approach to modify Cu(II)–Aβ at a metal-binding amino acid residue and consequently alter Aβ’s coordination to copper, aggregation, and toxicity, supplemented with an in-depth mechanistic perspective regarding such reactivity.
Funder
National Research Foundation of Korea
Publisher
Proceedings of the National Academy of Sciences
Cited by
26 articles.
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