摘要和数据综合的遗传关联研究高血压肾上腺素能受体家族基因:CUMAGAS-HYPERT 数据库。
Synopsis and data synthesis of genetic association studies in hypertension for the adrenergic receptor family genes: the CUMAGAS-HYPERT database.
机构信息
Department of Biomathematics, University of Thessaly School of Medicine, Larissa, Greece.
出版信息
Am J Hypertens. 2010 Mar;23(3):305-13. doi: 10.1038/ajh.2009.251. Epub 2009 Dec 31.
BACKGROUND
The adrenergic receptor (adrenoceptor) family genes have been extensively studied as candidate genes in hypertension but the results of individual genetic association studies (GAS) are controversial and inconclusive. To clarify these data, a systematic assessment of GAS for adrenoceptor family genes in hypertension was conducted.
METHODS
Data from 163 GAS involving 7 genes and 37 distinct genetic variants were analyzed and cataloged in CUMAGAS-HYPERT (Cumulative Meta-analysis of Genetic Association Studies-HYPERTension; a web-based information system, which allows the retrieval and synthesis of data from GAS in hypertension, available at http://biomath.med.uth.gr). Data from genome-wide association studies involving the adrenoceptor family genes were also systematically searched.
RESULTS
Individual GAS reported inconsistent associations and had limited power to detect modest genetic effects, with only 1.2% having power >80%. Thirteen variants were investigated by three or more studies and their results were subject to meta-analysis. In the main meta-analyses, significant results were shown for five variants (ADRB1 p.Arg389Gly, ADRB1 p.Ser49Gly, ADRB2 g.9368308A>G, ADRB3 p.Trp64Arg, and ADRA1A p.Cys347Arg) under the allelic contrast and/or the dominant model. Subgroup analyses by ethnicity and gender detected significant associations for three variants (ADRB1 p.Arg389Gly in east Asians, ADRB2 p.Gln27Glu in whites, and ADRB3 p.Trp64Arg in whites and in males). Heterogeneity ranged from none to high. No significant associations were recorded from genome-wide studies.
CONCLUSIONS
There is evidence to implicate adrenoceptor genes in hypertension, although future studies designed to investigate epistatic and gene-environment interactions would allow more solid conclusions to be drawn about the role of these genes in hypertension.
背景
肾上腺素能受体(adrenergic receptor,adrenoceptor)家族基因已被广泛研究为高血压的候选基因,但个体遗传关联研究(genetic association studies,GAS)的结果存在争议且尚无定论。为了阐明这些数据,对肾上腺素能受体家族基因在高血压中的 GAS 进行了系统评估。
方法
分析并编目了 163 项 GAS 数据,这些 GAS 涉及 7 个基因和 37 个不同的遗传变异,这些数据收录在 CUMAGAS-HYPERT(cumulative meta-analysis of genetic association studies-hypertension;一个基于网络的信息系统,可从高血压的 GAS 中检索和综合数据,可在 http://biomath.med.uth.gr 上获得)中。还系统地搜索了涉及肾上腺素能受体家族基因的全基因组关联研究的数据。
结果
个体 GAS 报告的相关性不一致,且检测适度遗传效应的效能有限,仅有 1.2%的效能>80%。有 13 个变异被 3 项或更多的研究进行了研究,并对其结果进行了荟萃分析。在主要荟萃分析中,在等位基因对比和/或显性模型下,5 个变异(ADRB1 p.Arg389Gly、ADRB1 p.Ser49Gly、ADRB2 g.9368308A>G、ADRB3 p.Trp64Arg 和 ADRA1A p.Cys347Arg)显示出显著的结果。按种族和性别进行的亚组分析显示,3 个变异(东亚人群中的 ADRB1 p.Arg389Gly、白种人群中的 ADRB2 p.Gln27Glu 和白种人群及男性中的 ADRB3 p.Trp64Arg)存在显著相关性。异质性从不存在到高度存在不等。全基因组研究未记录到显著相关性。
结论
有证据表明肾上腺素能受体基因与高血压有关,尽管未来旨在研究上位性和基因-环境相互作用的研究将允许对这些基因在高血压中的作用得出更可靠的结论。
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