Redox Kinetics of the Amyloid-β-Cu Complex and Its Biological Implications | Zendy

Paul Girvan | Zendy; Xiangyu Teng | Zendy; Nicholas J. Brooks | Zendy; Geoff Baldwin | Zendy; Liming Ying | Zendy

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Redox Kinetics of the Amyloid-β-Cu Complex and Its Biological Implications

Author(s) -

Paul Girvan,

Xiangyu Teng,

Nicholas J. Brooks,

Geoff Baldwin,

Liming Ying

Publication year - 2018

Publication title -

biochemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.43

H-Index - 253

eISSN - 1520-4995

pISSN - 0006-2960

DOI - 10.1021/acs.biochem.8b00133

Subject(s) - redox , chemistry , kinetics , amyloid (mycology) , peptide , biophysics , photochemistry , biochemistry , inorganic chemistry , biology , physics , quantum mechanics

The ability of the amyloid-β peptide to bind to redox active metals and act as a source of radical damage in Alzheimer's disease has been largely accepted as contributing to the disease's pathogenesis. However, a kinetic understanding of the molecular mechanism, which underpins this radical generation, has yet to be reported. Here we use a sensitive fluorescence approach, which reports on the oxidation state of the metal bound to the amyloid-β peptide and can therefore shed light on the redox kinetics. We confirm that the redox goes via a low populated, reactive intermediate and that the reaction proceeds via the Component I coordination environment rather than Component II. We also show that while the reduction step readily occurs (on the 10 ms time scale) it is the oxidation step that is rate-limiting for redox cycling.

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