Issue 11, 2018

Copper reduction and dioxygen activation in Cu–amyloid beta peptide complexes: insight from molecular modelling

Abstract

Alzheimer's disease (AD) involves a number of factors including an anomalous interaction of copper with the amyloid peptide (Aβ), inducing oxidative stress with radical oxygen species (ROS) production through a three-step cycle in which O2 is gradually reduced to superoxide, oxygen peroxide and finally OH radicals. The purpose of this work has been to investigate the reactivity of 14 different Cu(II)–Aβ coordination models with the aim of identifying on an energy basis (Density Functional Theory (DFT) and classical Molecular Dynamics (MD)) the redox competent form(s). Accordingly, we have specifically focused on the first three steps of the cycle, i.e. ascorbate binding to Cu(II), Cu(II) → Cu(I) reduction and O2 reduction to O2. Compared to the recent literature, our results broaden the set of possible redox competent metallopeptide forms responsible for ROS production. Indeed, in addition to the three-coordinated species containing one His ligand, a N-terminal amine group and the carboxylate side chain of the Asp1 residue of Aβ already proposed, we found two other Cu–Aβ coordination modes involving two histidines.

Graphical abstract: Copper reduction and dioxygen activation in Cu–amyloid beta peptide complexes: insight from molecular modelling

Supplementary files

Article information

Article type
Paper
Submitted
30 Jūl. 2018
Accepted
04 Okt. 2018
First published
10 Okt. 2018

Metallomics, 2018,10, 1618-1630

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