阿尔茨海默病中淀粉样β肽与外周补体的相互作用:补体受体 1 的多态性、结构和功能。
Peripheral complement interactions with amyloid β peptide in Alzheimer's disease: Polymorphisms, structure, and function of complement receptor 1.
机构信息
Biosciences Division, SRI International, Menlo Park, CA, USA.
Education Division, SRI International, Menlo Park, CA, USA.
出版信息
Alzheimers Dement. 2018 Nov;14(11):1438-1449. doi: 10.1016/j.jalz.2018.04.003. Epub 2018 May 21.
Abstract
INTRODUCTION
Genome-wide association studies consistently show that single nucleotide polymorphisms (SNPs) in the complement receptor 1 (CR1) gene modestly but significantly alter Alzheimer's disease (AD) risk. Follow-up research has assumed that CR1 is expressed in the human brain despite a paucity of evidence for its function there. Alternatively, erythrocytes contain >80% of the body's CR1, where, in primates, it is known to bind circulating pathogens.
METHODS
Multidisciplinary methods were employed.
RESULTS
Conventional Western blots and quantitative polymerase chain reaction failed to detect CR1 in the human brain. Brain immunohistochemistry revealed only vascular CR1. By contrast, erythrocyte CR1 immunoreactivity was readily observed and was significantly deficient in AD, as was CR1-mediated erythrocyte capture of circulating amyloid β peptide. CR1 SNPs associated with decreased erythrocyte CR1 increased AD risk, whereas a CR1 SNP associated with increased erythrocyte CR1 decreased AD risk.
DISCUSSION
SNP effects on erythrocyte CR1 likely underlie the association of CR1 polymorphisms with AD risk.
摘要
简介
全基因组关联研究一致表明,补体受体 1(CR1)基因中的单核苷酸多态性(SNPs)可适度但显著改变阿尔茨海默病(AD)的风险。后续研究假设 CR1 在人类大脑中表达,尽管缺乏其功能的证据。或者,红细胞中含有超过 80%的人体 CR1,在灵长类动物中,已知它可以结合循环病原体。
方法
采用多学科方法。
结果
常规的 Western blot 和定量聚合酶链反应未能检测到人类大脑中的 CR1。脑免疫组织化学仅显示血管 CR1。相比之下,红细胞 CR1 免疫反应很容易观察到,并且在 AD 中明显缺乏,而循环淀粉样蛋白β肽的红细胞 CR1 介导的捕获也是如此。与红细胞 CR1 减少相关的 CR1 SNPs 增加了 AD 风险,而与红细胞 CR1 增加相关的 CR1 SNP 降低了 AD 风险。
讨论
SNP 对红细胞 CR1 的影响可能是 CR1 多态性与 AD 风险相关的基础。
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2
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3
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