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知识驱动的相互作用分析揭示了多发性硬化易感性的潜在神经退行性机制。

A knowledge-driven interaction analysis reveals potential neurodegenerative mechanism of multiple sclerosis susceptibility.

机构信息

Department of Molecular Physiology and Biophysics, Center for Human Genetics Research, Vanderbilt University, Nashville, TN 37232-0700, USA.

出版信息

Genes Immun. 2011 Jul;12(5):335-40. doi: 10.1038/gene.2011.3. Epub 2011 Feb 24.

DOI:10.1038/gene.2011.3
PMID:21346779
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3136581/
Abstract

Gene-gene interactions are proposed as an important component of the genetic architecture of complex diseases, and are just beginning to be evaluated in the context of genome-wide association studies (GWAS). In addition to detecting epistasis, a benefit to interaction analysis is that it also increases power to detect weak main effects. We conducted a knowledge-driven interaction analysis of a GWAS of 931 multiple sclerosis (MS) trios to discover gene-gene interactions within established biological contexts. We identify heterogeneous signals, including a gene-gene interaction between CHRM3 (muscarinic cholinergic receptor 3) and MYLK (myosin light-chain kinase) (joint P=0.0002), an interaction between two phospholipase C-β isoforms, PLCβ1 and PLCβ4 (joint P=0.0098), and a modest interaction between ACTN1 (actinin alpha 1) and MYH9 (myosin heavy chain 9) (joint P=0.0326), all localized to calcium-signaled cytoskeletal regulation. Furthermore, we discover a main effect (joint P=5.2E-5) previously unidentified by single-locus analysis within another related gene, SCIN (scinderin), a calcium-binding cytoskeleton regulatory protein. This work illustrates that knowledge-driven interaction analysis of GWAS data is a feasible approach to identify new genetic effects. The results of this study are among the first gene-gene interactions and non-immune susceptibility loci for MS. Further, the implicated genes cluster within inter-related biological mechanisms that suggest a neurodegenerative component to MS.

摘要

基因-基因相互作用被认为是复杂疾病遗传结构的一个重要组成部分,并且刚刚开始在全基因组关联研究 (GWAS) 的背景下进行评估。除了检测上位性之外,交互作用分析的一个好处是它还可以提高检测弱主效应的能力。我们对 931 个多发性硬化症 (MS) 三核苷酸进行了知识驱动的交互分析,以在已建立的生物学背景下发现基因-基因相互作用。我们确定了异质信号,包括毒蕈碱型乙酰胆碱受体 3 (CHRM3) 和肌球蛋白轻链激酶 (MYLK) 之间的基因-基因相互作用 (联合 P=0.0002)、两种磷酯酶 C-β 同工型 PLCβ1 和 PLCβ4 之间的相互作用 (联合 P=0.0098) 以及肌动蛋白结合细胞骨架调节蛋白 ACTN1 (肌动蛋白α 1) 和肌球蛋白重链 9 (MYH9) 之间的适度相互作用 (联合 P=0.0326),所有这些都定位于钙信号细胞骨架调节。此外,我们发现了一个主效 (联合 P=5.2E-5),这是先前在另一个相关基因 SCIN (scinderin) 中单基因分析未识别到的,SCIN 是一种钙结合细胞骨架调节蛋白。这项工作表明,对 GWAS 数据进行知识驱动的交互分析是一种可行的方法,可以识别新的遗传效应。本研究的结果是多发性硬化症的第一批基因-基因相互作用和非免疫易感基因座之一。此外,所涉及的基因簇内与相互关联的生物学机制有关,这表明多发性硬化症具有神经退行性成分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2e6/3136581/c9c94f8c55f5/nihms252054f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2e6/3136581/c9c94f8c55f5/nihms252054f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2e6/3136581/c9c94f8c55f5/nihms252054f1.jpg

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