AI Article Synopsis
- Alzheimer's disease (AD) is primarily linked to the toxic β-amyloid peptide from the cleavage of the β-amyloid protein precursor (APP), with unclear mechanisms behind this process, except in familial cases caused by specific gene mutations.
- The protein Alcadein α/calsyntenin1 (ALCα) interacts with APP through the adaptor protein X11-like (X11L), which helps suppress the production of β-amyloid; however, the role of ALCα specifically in APP metabolism was previously not well understood.
- Research involving ALCα-deficient mice showed that the lack of ALCα leads to increased amyloidogenic processing of APP, more generation of β-amyloid, and the formation
Article Abstract
Alzheimer's disease (AD) is a very common neurodegenerative disorder, chiefly caused by increased production of neurotoxic β-amyloid (Aβ) peptide generated from proteolytic cleavage of β-amyloid protein precursor (APP). Except for familial AD arising from mutations in the and presenilin () genes, the molecular mechanisms regulating the amyloidogenic processing of APP are largely unclear. Alcadein α/calsyntenin1 (ALCα/CLSTN1) is a neuronal type I transmembrane protein that forms a complex with APP, mediated by the neuronal adaptor protein X11-like (X11L or MINT2). Formation of the ALCα-X11L-APP tripartite complex suppresses Aβ generation , and X11L-deficient mice exhibit enhanced amyloidogenic processing of endogenous APP. However, the role of ALCα in APP metabolism remains unclear. Here, by generating ALCα-deficient mice and using immunohistochemistry, immunoblotting, and co-immunoprecipitation analyses, we verified the role of ALCα in the suppression of amyloidogenic processing of endogenous APP We observed that ALCα deficiency attenuates the association of X11L with APP, significantly enhances amyloidogenic β-site cleavage of APP, especially in endosomes, and increases the generation of endogenous Aβ in the brain. Furthermore, we noted amyloid plaque formation in the brains of human APP-transgenic mice in an ALCα-deficient background. These results unveil a potential role of ALCα in protecting cerebral neurons from Aβ-dependent pathogenicity in AD.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7363152 | PMC |
| http://dx.doi.org/10.1074/jbc.RA119.012386 | DOI Listing |
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