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Zinc and Copper Differentially Modulate Amyloid Precursor Protein Processing by γ-Secretase and Amyloid-β Peptide Production.

Hermeto Gerber, Fang Wu, Mitko Dimitrov, Guillermo M Garcia Osuna, Patrick C Fraering

The Journal of biological chemistry 2017 Mar 03


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    Recent evidence suggests involvement of biometal homeostasis in the pathological mechanisms in Alzheimer's disease (AD). For example, increased intracellular copper or zinc has been linked to a reduction in secreted levels of the AD-causing amyloid-β peptide (Aβ). However, little is known about whether these biometals modulate the generation of . In the present study we demonstrate in both cell-free and cell-based assays that zinc and copper regulate production by distinct molecular mechanisms affecting the processing by γ-secretase of its precursor protein substrate APP-C99. We found that Zn2+ induces APP-C99 dimerization, which prevents its cleavage by γ-secretase and production, with an IC50 value of 15 μm Importantly, at this concentration, Zn2+ also drastically raised the production of the aggregation-prone Aβ43 found in the senile plaques of AD brains and elevated the Aβ43:Aβ40 ratio, a promising biomarker for neurotoxicity and AD. We further demonstrate that the APP-C99 histidine residues His-6, His-13, and His-14 control the Zn2+-dependent APP-C99 dimerization and inhibition of production, whereas the increased Aβ43:Aβ40 ratio is substrate dimerization-independent and involves the known Zn2+ binding lysine Lys-28 residue that orientates the APP-C99 transmembrane domain within the lipid bilayer. Unlike zinc, copper inhibited production by directly targeting the subunits presenilin and nicastrin in the γ-secretase complex. Altogether, our data demonstrate that zinc and copper differentially modulate production. They further suggest that dimerization of APP-C99 or the specific targeting of individual residues regulating the production of the long, toxic species, may offer two therapeutic strategies for preventing AD. © 2017 by The American Society for Biochemistry and Molecular Biology, Inc.

    Citation

    Hermeto Gerber, Fang Wu, Mitko Dimitrov, Guillermo M Garcia Osuna, Patrick C Fraering. Zinc and Copper Differentially Modulate Amyloid Precursor Protein Processing by γ-Secretase and Amyloid-β Peptide Production. The Journal of biological chemistry. 2017 Mar 03;292(9):3751-3767

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    PMID: 28096459

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