Department of Medical Genetics, University of Antwerp, Antwerp, Belgium.
Obes Facts. 2011;4(6):473-7. doi: 10.1159/000335305. Epub 2011 Dec 6.
SH2B1 has been identified as an interesting candidate gene for complex obesity through genome-wide association studies. Therefore, we set out to replicate the reported association with rs7498665 in our Belgian study population and to extend our study with an additional tagSNP for the SH2B1 gene region.
We genotyped both rs7498665 and rs7201929 in a population of 1,045 obese adults and 317 healthy lean individuals. Statistical analyses were performed to evaluate the role of these polymorphisms in the development of obesity.
We found that the rs7498665 minor allele increases obesity risk by 26% (OR(age-sex adj) = 1.26, 95% CI 1.04-1.52, nominal p = 0.016). Logistic regression showed that the rs7201929 minor allele decreases obesity risk by 24% in the population investigated (OR(age-sex adj) = 0.76, 95% CI 0.61-0.94, nominal p = 0.011). Conditional analyses showed that both associations represent the same association signal (rs7498665 OR(adjusted for rs7201929) = 1.17, 95% CI 0.95-1.45, nominal P = 0.14; rs7201929 OR(adjusted for rs7498665) = 0.82, 95% CI 0.65-1.04, nominal p = 0.10).
With the current study we were able to replicate and confirm that the SH2B1 gene locus is significantly associated with complex obesity in a Caucasian population.
通过全基因组关联研究,SH2B1 已被确定为复杂肥胖的一个有趣的候选基因。因此,我们着手在我们的比利时研究人群中复制与 rs7498665 相关的报道,并通过 SH2B1 基因区域的另外一个标签 SNP 来扩展我们的研究。
我们在 1045 名肥胖成年人和 317 名健康瘦个体中对 rs7498665 和 rs7201929 进行了基因分型。进行了统计分析,以评估这些多态性在肥胖发展中的作用。
我们发现 rs7498665 的次要等位基因使肥胖风险增加 26%(年龄性别调整的 OR(1.04-1.52,名义 p=0.016))。逻辑回归显示,rs7201929 的次要等位基因使所研究人群的肥胖风险降低 24%(年龄性别调整的 OR(0.61-0.94,名义 p=0.011))。条件分析表明,这两个关联代表相同的关联信号(调整 rs7201929 后的 rs7498665 OR=1.17,95%CI 0.95-1.45,名义 p=0.14;调整 rs7498665 后的 rs7201929 OR=0.82,95%CI 0.65-1.04,名义 p=0.10)。
通过本研究,我们能够复制并证实 SH2B1 基因座在白种人群中与复杂肥胖显著相关。