多个基因位点影响血清尿酸水平及其与痛风和心血管疾病危险因素的关系。
Multiple genetic loci influence serum urate levels and their relationship with gout and cardiovascular disease risk factors.
作者信息
Yang Qiong, Köttgen Anna, Dehghan Abbas, Smith Albert V, Glazer Nicole L, Chen Ming-Huei, Chasman Daniel I, Aspelund Thor, Eiriksdottir Gudny, Harris Tamara B, Launer Lenore, Nalls Michael, Hernandez Dena, Arking Dan E, Boerwinkle Eric, Grove Megan L, Li Man, Linda Kao W H, Chonchol Michel, Haritunians Talin, Li Guo, Lumley Thomas, Psaty Bruce M, Shlipak Michael, Hwang Shih-Jen, Larson Martin G, O'Donnell Christopher J, Upadhyay Ashish, van Duijn Cornelia M, Hofman Albert, Rivadeneira Fernando, Stricker Bruno, Uitterlinden Andre G, Paré Guillaume, Parker Alex N, Ridker Paul M, Siscovick David S, Gudnason Vilmundur, Witteman Jacqueline C, Fox Caroline S, Coresh Josef
机构信息
Department of Biostatistics, Boston University School of Public Health, Boston, MA, USA.
出版信息
Circ Cardiovasc Genet. 2010 Dec;3(6):523-30. doi: 10.1161/CIRCGENETICS.109.934455. Epub 2010 Sep 30.
BACKGROUND
Elevated serum urate levels can lead to gout and are associated with cardiovascular risk factors. We performed a genome-wide association study to search for genetic susceptibility loci for serum urate and gout and investigated the causal nature of the associations of serum urate with gout and selected cardiovascular risk factors and coronary heart disease (CHD).
METHODS AND RESULTS
Meta-analyses of genome-wide association studies (GWAS) were performed in 5 population-based cohorts of the Cohorts for Heart and Aging Research in Genome Epidemiology consortium for serum urate and gout in 28 283 white participants. The effect of the most significant single-nucleotide polymorphism at all genome-wide significant loci on serum urate was added to create a genetic urate score. Findings were replicated in the Women's Genome Health Study (n=22 054). Single-nucleotide polymorphisms at 8 genetic loci achieved genome-wide significance with serum urate levels (P=4×10(-8) to 2×10(-242) in SLC22A11, GCKR, R3HDM2-INHBC region, RREB1, PDZK1, SLC2A9, ABCG2, and SLC17A1). Only 2 loci (SLC2A9, ABCG2) showed genome-wide significant association with gout. The genetic urate score was strongly associated with serum urate and gout (odds ratio, 12.4 per 100 μmol/L; P=3×10(-39)) but not with blood pressure, glucose, estimated glomerular filtration rate, chronic kidney disease, or CHD. The lack of association between the genetic score and the latter phenotypes also was observed in the Women's Genome Health Study.
CONCLUSIONS
The genetic urate score analysis suggested a causal relationship between serum urate and gout but did not provide evidence for one between serum urate and cardiovascular risk factors and CHD.
背景
血清尿酸水平升高可导致痛风,并与心血管危险因素相关。我们进行了一项全基因组关联研究,以寻找血清尿酸和痛风的遗传易感性位点,并研究血清尿酸与痛风、选定的心血管危险因素及冠心病(CHD)之间关联的因果性质。
方法与结果
在基因组流行病学心脏与衰老研究队列联盟的5个基于人群的队列中,对28283名白人参与者的血清尿酸和痛风进行了全基因组关联研究(GWAS)的荟萃分析。在所有全基因组显著位点上,将最显著的单核苷酸多态性对血清尿酸的影响相加,以创建一个遗传尿酸评分。研究结果在女性基因组健康研究(n = 22054)中得到重复验证。8个基因位点的单核苷酸多态性与血清尿酸水平达到全基因组显著性(SLC22A11、GCKR、R3HDM2 - INHBC区域、RREB1、PDZK1、SLC2A9、ABCG2和SLC17A1中的P值为4×10⁻⁸至2×10⁻²⁴²)。只有2个位点(SLC2A9、ABCG2)与痛风呈现全基因组显著关联。遗传尿酸评分与血清尿酸和痛风密切相关(比值比,每100 μmol/L为12.4;P = 3×10⁻³⁹),但与血压、血糖、估计肾小球滤过率、慢性肾病或冠心病无关。在女性基因组健康研究中也观察到遗传评分与后几种表型之间缺乏关联。
结论
遗传尿酸评分分析表明血清尿酸与痛风之间存在因果关系,但未提供血清尿酸与心血管危险因素及冠心病之间存在因果关系的证据。
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