Polygenic influences on the behavioral effects of alcohol withdrawal in a mixed-ancestry population from the collaborative study on the genetics of alcoholism (COGA)

IF 2.6 3区 医学 Q3 NEUROSCIENCES Molecular and Cellular Neuroscience Pub Date : 2023-06-01 DOI:10.1016/j.mcn.2023.103851
Chelsie E. Benca-Bachman , Jason Bubier , Rameez A. Syed , Pamela N. Romero Villela , Rohan H.C. Palmer
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引用次数: 1

Abstract

Alcohol withdrawal (AW) is a feature of alcohol use disorder that may occur in up to half of individuals with chronic, heavy alcohol consumption whenever alcohol use is abruptly stopped or significantly reduced. To date, few genes have been robustly associated with AW; this may be partly due to most studies defining AW as a binary construct despite the multiple symptoms and their range in severity from mild to severe. The current study examined the effects of genome-wide loci on a factor score for AW in high risk and community family samples in the Collaborative Study for the Genetics of Alcoholism (COGA). In addition, we tested whether differentially expressed genes associated with alcohol withdrawal in model organisms are enriched in human genome-wide association study (GWAS) effects. Analyses employed roughly equal numbers of males and females (mean age 35, standard deviation = 15; total N = 8009) and included individuals from multiple ancestral backgrounds. Genomic data were imputed to the HRC reference panel and underwent strict quality control procedures using Plink2. Analyses controlled for age, sex, and population stratification effects using ancestral principal components. We found support that AW is a polygenic disease (SNP-heritability = 0.08 [95 % CI = 0.01, 0.15; pedigree-based heritability = 0.12 [0.08,0.16]. We identified five single nucleotide variants that met genomewide significance, some of which have previously been associated with alcohol phenotypes. Gene-level analyses suggest a role for COL19A1 in AW; H-MAGMA analyses implicated 12 genes associated with AW. Cross-species enrichment analyses indicated that variation within genes identified in model organism studies explained <1 % of the phenotypic variability in human AW. Notably, the surrounding regulatory regions of model organism genes explained more variance than expected by chance, indicating that these regulatory regions and gene sets may be important for human AW. Lastly, when comparing the overlap in genes identified from the human GWAS and H-MAGMA analyses with the genes identified from the animal studies, there was modest overlap, indicating some convergence between the methods and organisms.

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多基因对混合血统人群酒精戒断行为影响的影响——来自酒精遗传合作研究(COGA)
酒精戒断(AW)是酒精使用障碍的一个特征,每当酒精使用突然停止或显著减少时,多达一半的慢性重度饮酒者可能会出现这种情况。到目前为止,很少有基因与AW密切相关;这可能部分是由于大多数研究将AW定义为二元结构,尽管有多种症状,其严重程度从轻度到重度不等。目前的研究在酒精中毒遗传学合作研究(COGA)中检验了全基因组基因座对高危和社区家庭样本AW因子评分的影响。此外,我们测试了模式生物中与酒精戒断相关的差异表达基因是否在人类全基因组关联研究(GWAS)效应中富集。分析采用了大致相同数量的男性和女性(平均年龄35岁,标准差=15;总N=8009),并包括来自多个祖先背景的个体。基因组数据被输入HRC参考小组,并使用Plink2进行严格的质量控制程序。使用祖先主成分控制年龄、性别和人口分层效应的分析。我们发现支持AW是一种多基因疾病(SNP遗传力=0.08[95%CI=0.01,115;基于谱系的遗传力=0.12[0.08,0.16]我们鉴定了五种具有全基因组意义的单核苷酸变体,其中一些变体以前与酒精表型有关。基因水平分析表明COL19A1在AW中的作用;H-MAGMA分析涉及12个与AW相关的基因。跨物种富集分析表明,在模式生物研究中鉴定的基因内的变异解释了<;人类AW表型变异的1%。值得注意的是,模型生物基因的周围调控区解释了比预期更多的偶然变化,表明这些调控区和基因集可能对人类AW很重要。最后,当将从人类GWAS和H-MAGMA分析中鉴定的基因与从动物研究中识别的基因的重叠进行比较时,有适度的重叠,表明这些方法和生物体之间有一些趋同。
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来源期刊
CiteScore
5.60
自引率
0.00%
发文量
65
审稿时长
37 days
期刊介绍: Molecular and Cellular Neuroscience publishes original research of high significance covering all aspects of neurosciences indicated by the broadest interpretation of the journal''s title. In particular, the journal focuses on synaptic maintenance, de- and re-organization, neuron-glia communication, and de-/regenerative neurobiology. In addition, studies using animal models of disease with translational prospects and experimental approaches with backward validation of disease signatures from human patients are welcome.
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