Genome-wide Association Study of Cannabis Dependence Severity, Novel Risk Variants, and Shared Genetic Risks.

IF 2.781
Richard Sherva, Qian Wang, Henry Kranzler, Hongyu Zhao, Ryan Koesterer, Aryeh Herman, Lindsay A Farrer, Joel Gelernter
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Abstract

Importance: Cannabis dependence (CAD) is a serious problem worldwide and is of growing importance in the United States because cannabis is increasingly available legally. Although genetic factors contribute substantially to CAD risk, at present no well-established specific genetic risk factors for CAD have been elucidated.

Objective: To report findings for DSM-IV CAD criteria from association analyses performed in large cohorts of African American and European American participants from 3 studies of substance use disorder genetics.

Design, setting, and participants: This genome-wide association study for DSM-IV CAD criterion count was performed in 3 independent substance dependence cohorts (the Yale-Penn Study, Study of Addiction: Genetics and Environment [SAGE], and International Consortium on the Genetics of Heroin Dependence [ICGHD]). A referral sample and volunteers recruited in the community and from substance abuse treatment centers included 6000 African American and 8754 European American participants, including some from small families. Participants from the Yale-Penn Study were recruited from 2000 to 2013. Data were collected for the SAGE trial from 1990 to 2007 and for the ICGHD from 2004 to 2009. Data were analyzed from January 2, 2013, to November 9, 2015.

Main outcomes and measures: Criterion count for DSM-IV CAD.

Results: Among the 14 754 participants, 7879 were male, 6875 were female, and the mean (SD) age was 39.2 (10.2) years. Three independent regions with genome-wide significant single-nucleotide polymorphism associations were identified, considering the largest possible sample. These included rs143244591 (β = 0.54, P = 4.32 × 10-10 for the meta-analysis) in novel antisense transcript RP11-206M11.7;rs146091982 (β = 0.54, P = 1.33 × 10-9 for the meta-analysis) in the solute carrier family 35 member G1 gene (SLC35G1); and rs77378271 (β = 0.29, P = 2.13 × 10-8 for the meta-analysis) in the CUB and Sushi multiple domains 1 gene (CSMD1). Also noted was evidence of genome-level pleiotropy between CAD and major depressive disorder and for an association with single-nucleotide polymorphisms in genes associated with schizophrenia risk. Several of the genes identified have functions related to neuronal calcium homeostasis or central nervous system development.

Conclusions and relevance: These results are the first, to our knowledge, to identify specific CAD risk alleles and potential genetic factors contributing to the comorbidity of CAD with major depression and schizophrenia.

大麻依赖严重程度、新型风险变异体和共享遗传风险的全基因组关联研究。
重要性:大麻依赖症(CAD)是全球范围内的一个严重问题,在美国也日益重要,因为大麻越来越多地合法供应。虽然遗传因素在很大程度上导致了 CAD 风险,但目前还没有明确的特定 CAD 遗传风险因素:报告从 3 项药物使用障碍遗传学研究中对大量非裔美国人和欧洲裔美国人参与者进行的关联分析中得出的符合 DSM-IV CAD 标准的结果:这项针对 DSM-IV CAD 标准计数的全基因组关联研究在 3 个独立的药物依赖队列(耶鲁-宾夕法尼亚研究、成瘾研究、遗传与环境研究 [SAGE])中进行:遗传与环境研究》(Study Addiction: Genetics and Environment [SAGE])和《海洛因依赖性遗传学国际联合会》(International Consortium on the Genetics of Heroin Dependence [ICGHD]))。转介样本以及在社区和药物滥用治疗中心招募的志愿者包括 6000 名非洲裔美国人和 8754 名欧洲裔美国人,其中一些人来自小家庭。耶鲁-宾夕法尼亚研究的参与者是在 2000 年至 2013 年期间招募的。SAGE试验的数据收集时间为1990年至2007年,ICGHD试验的数据收集时间为2004年至2009年。数据分析时间为2013年1月2日至2015年11月9日:DSM-IV CAD的标准计数:在14 754名参与者中,男性7879人,女性6875人,平均(标清)年龄为39.2(10.2)岁。考虑到可能的最大样本,发现了三个具有全基因组显著单核苷酸多态性关联的独立区域。其中包括新型反义转录本 RP11-206M11.7 中的 rs143244591(β = 0.54,荟萃分析 P = 4.32 × 10-10);rs146091982(β = 0.54,荟萃分析 P = 1.33×10-9);溶质运载家族 35 成员 G1 基因(SLC35G1)中的 rs77378271(β = 0.29,荟萃分析 P = 2.13×10-8);以及 CUB 和 Sushi 多域 1 基因(CSMD1)中的 rs77378271(β = 0.29,荟萃分析 P = 2.13×10-8)。此外,还有证据表明,CAD 与重度抑郁障碍之间存在基因组水平的多效性,并且与精神分裂症风险相关基因中的单核苷酸多态性有关。所发现的几个基因具有与神经元钙稳态或中枢神经系统发育有关的功能:据我们所知,这些研究结果是首次鉴定出导致心血管疾病与重度抑郁症和精神分裂症并发的特异性心血管疾病风险等位基因和潜在遗传因素。
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