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阿尔茨海默病 Abeta 肽诱导染色体错误分离和非整倍体,包括 21 三体:需要 tau 和 APP。

Alzheimer Abeta peptide induces chromosome mis-segregation and aneuploidy, including trisomy 21: requirement for tau and APP.

机构信息

Eric Pfeiffer Suncoast Alzheimer's Center, University of South Florida, Tampa FL, 33613, USA.

出版信息

Mol Biol Cell. 2010 Feb 15;21(4):511-20. doi: 10.1091/mbc.e09-10-0850. Epub 2009 Dec 23.

DOI:10.1091/mbc.e09-10-0850
PMID:20032300
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2820417/
Abstract

Both sporadic and familial Alzheimer's disease (AD) patients exhibit increased chromosome aneuploidy, particularly trisomy 21, in neurons and other cells. Significantly, trisomy 21/Down syndrome patients develop early onset AD pathology. We investigated the mechanism underlying mosaic chromosome aneuploidy in AD and report that FAD mutations in the Alzheimer Amyloid Precursor Protein gene, APP, induce chromosome mis-segregation and aneuploidy in transgenic mice and in transfected cells. Furthermore, adding synthetic Abeta peptide, the pathogenic product of APP, to cultured cells causes rapid and robust chromosome mis-segregation leading to aneuploid, including trisomy 21, daughters, which is prevented by LiCl addition or Ca(2+) chelation and is replicated in tau KO cells, implicating GSK-3beta, calpain, and Tau-dependent microtubule transport in the aneugenic activity of Abeta. Furthermore, APP KO cells are resistant to the aneugenic activity of Abeta, as they have been shown previously to be resistant to Abeta-induced tau phosphorylation and cell toxicity. These results indicate that Abeta-induced microtubule dysfunction leads to aneuploid neurons and may thereby contribute to the pathogenesis of AD.

摘要

散发性和家族性阿尔茨海默病(AD)患者的神经元和其他细胞中均出现染色体非整倍体增加,特别是 21 三体。重要的是,21 三体/唐氏综合征患者会出现早发性 AD 病理。我们研究了 AD 中嵌合染色体非整倍体的机制,并报告说,阿尔茨海默病淀粉样前体蛋白基因(APP)中的 FAD 突变会导致转基因小鼠和转染细胞中的染色体错误分离和非整倍体。此外,向培养细胞中添加合成的 Abeta 肽,即 APP 的致病产物,会导致快速而强烈的染色体错误分离,从而产生非整倍体,包括 21 三体,其后代可被 LiCl 添加或 Ca(2+)螯合所阻止,并且在 tau KO 细胞中复制,这表明 GSK-3β、钙蛋白酶和 Tau 依赖性微管运输参与了 Abeta 的变构活性。此外,APP KO 细胞对 Abeta 的变构活性具有抗性,因为先前已经证明它们对 Abeta 诱导的 Tau 磷酸化和细胞毒性具有抗性。这些结果表明,Abeta 诱导的微管功能障碍导致非整倍体神经元,从而可能导致 AD 的发病机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/52d4/2820417/12a3f13b1df2/zmk0041093570001.jpg

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