The Neuronal Adaptor Protein X11beta Reduces Amyloid beta-Protein Levels and Amyloid Plaque Formation in the Brains of Transgenic Mice*

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American Society for Biochemistry and Molecular Biology

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Lee J-H, Lau K-F, Perkinton MS, Standen CL, Rogelj B, Falinska A, McLoughlin DM, Miller CCJ `The Neuronal Adaptor Protein X11beta Reduces Amyloid beta-Protein Levels and Amyloid Plaque Formation in the Brains of Transgenic Mice? in Journal of Biological Chemistry, 279, 2004, pp 49099-49104

Abstract

Accumulation of cerebral amyloid beta-protein (A beta) is believed to be part of the pathogenic process in Alzheimer?s disease. Abeta is derived by proteolytic cleavage from a precursor protein, the amyloid precursor protein (APP). APP is a type-1 membrane-spanning protein, and its carboxyl-terminal intracellular domain binds to X11beta, a neuronal adaptor protein. X11beta has been shown to inhibit the production of Abeta in transfected non-neuronal cells in culture. However, whether this is also the case in vivo in the brain and whether X11 can also inhibit the deposition of A as amyloid plaques is not known. Here we show that transgenic overexpression of X11beta in neurons leads to a decrease in cerebral Abeta levels in transgenic APPswe Tg2576 mice that are a model of the amyloid pathology of Alzheimer?s disease. Moreover, overexpression of X11beta retards amyloid plaque formation in these APPswe mice. Our findings suggest that modulation of X11beta function may represent a novel therapeutic approach for preventing the amyloid pathology of Alzheimer?s disease.

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Sponsor: Wellcome Trust

Sponsor: European Union (EU)

Publisher: American Society for Biochemistry and Molecular Biology
Type of material: Journal Article