基于网络的分析预测了小鼠尖峰波放电元图谱研究中相互作用的遗传修饰因子。

IF 2.4 4区 心理学 Q2 BEHAVIORAL SCIENCES
Montana Kay Lara, Jeffrey L. Brabec, Amanda E. Hernan, Rod C. Scott, Anna L. Tyler, J. Matthew Mahoney
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引用次数: 0

摘要

失神发作的特点是短暂的意识丧失,伴有标志性的尖波放电(SWD)脑电图模式,是遗传性广泛性癫痫(GGEs)的常见症状。虽然有许多基因与风险增加有关,包括一些具有单个等位基因的孟德尔遗传形式,但大多数 GGE 病例都是特发性的,而且有许多未知的遗传修饰因子会影响 GGE 的风险和严重程度。在之前的一项元图谱研究中,转基因 C57BL/6 和 C3HeB/FeJ 株系之间的杂交(每个株系都携带三种 SWD 致病突变之一(Gabrg2tm1Spet(R43Q) 、Scn8a8j 或 Gria4spkw1))显示,小鼠 2 号染色体和 7 号染色体上影响 SWD 的位点之间存在拮抗外显相互作用。这些结果表明,B6 背景中的通用修饰因子可通过共同途径减轻 SWD 的严重程度,而与致病突变无关。在本研究中,我们对这些相互作用位点中的候选修饰因子进行了优先排序。我们的方法将人类全基因组关联结果与基因相互作用网络和小鼠大脑基因表达整合在一起,以优先考虑驱动SWD结果变异的候选基因和通路。我们考虑了在功能上与人类 GGE 风险基因相关的候选基因,以及有证据表明在 B6 和 C3H 背景之间存在编码或非编码等位基因效应的基因。我们的分析得出了基因对的综合排名,每个基因位点有一个基因,作为解释表观相互作用的候选基因。我们排名靠前的基因对涉及微管功能、细胞骨架稳定性和细胞周期调控,这些都是关于不同品系背景间SWD变异来源的新假设,可以阐明人类GGE严重程度差异的潜在机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Network-based analysis predicts interacting genetic modifiers from a meta-mapping study of spike–wave discharge in mice

Network-based analysis predicts interacting genetic modifiers from a meta-mapping study of spike–wave discharge in mice

Absence seizures are characterized by brief lapses in awareness accompanied by a hallmark spike-and-wave discharge (SWD) electroencephalographic pattern and are common to genetic generalized epilepsies (GGEs). While numerous genes have been associated with increased risk, including some Mendelian forms with a single causal allele, most cases of GGE are idiopathic and there are many unknown genetic modifiers of GGE influencing risk and severity. In a previous meta-mapping study, crosses between transgenic C57BL/6 and C3HeB/FeJ strains, each carrying one of three SWD-causing mutations (Gabrg2tm1Spet(R43Q), Scn8a8j or Gria4spkw1), demonstrated an antagonistic epistatic interaction between loci on mouse chromosomes 2 and 7 influencing SWD. These results implicate universal modifiers in the B6 background that mitigate SWD severity through a common pathway, independent of the causal mutation. In this study, we prioritized candidate modifiers in these interacting loci. Our approach integrated human genome-wide association results with gene interaction networks and mouse brain gene expression to prioritize candidate genes and pathways driving variation in SWD outcomes. We considered candidate genes that are functionally associated with human GGE risk genes and genes with evidence for coding or non-coding allele effects between the B6 and C3H backgrounds. Our analyses output a summary ranking of gene pairs, one gene from each locus, as candidates for explaining the epistatic interaction. Our top-ranking gene pairs implicate microtubule function, cytoskeletal stability and cell cycle regulation as novel hypotheses about the source of SWD variation across strain backgrounds, which could clarify underlying mechanisms driving differences in GGE severity in humans.

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来源期刊
Genes Brain and Behavior
Genes Brain and Behavior 医学-行为科学
CiteScore
6.80
自引率
4.00%
发文量
62
审稿时长
4-8 weeks
期刊介绍: Genes, Brain and Behavior was launched in 2002 with the aim of publishing top quality research in behavioral and neural genetics in their broadest sense. The emphasis is on the analysis of the behavioral and neural phenotypes under consideration, the unifying theme being the genetic approach as a tool to increase our understanding of these phenotypes. Genes Brain and Behavior is pleased to offer the following features: 8 issues per year online submissions with first editorial decisions within 3-4 weeks and fast publication at Wiley-Blackwells High visibility through its coverage by PubMed/Medline, Current Contents and other major abstracting and indexing services Inclusion in the Wiley-Blackwell consortial license, extending readership to thousands of international libraries and institutions A large and varied editorial board comprising of international specialists.
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