Su Shaoyong, Zhu Haidong, Xu Xiaojing, Wang Xin, Dong Yanbin, Kapuku Gaston, Treiber Frank, Gutin Bernard, Harshfield Gregory, Snieder Harold, Wang Xiaoling
Georgia Prevention Center,Georgia Regents University,Augusta,GA,USA.
Technology Applications Center for Healthful Lifestyles,Colleges of Nursing and Medicine,Medical University of South Carolina,Charleston,SC,USA.
Twin Res Hum Genet. 2014 Jun;17(3):183-91. doi: 10.1017/thg.2014.22. Epub 2014 Apr 15.
Previous genome-wide association studies (GWAS) have identified a large number of genetic variants for obesity and its related traits, representing a group of potential key genes in the etiology of obesity. Emerging evidence suggests that epigenetics may play an important role in obesity. It has not been explored whether the GWAS-identified loci contribute to obesity through epigenetics (e.g., DNA (deoxyribonucleic acid) methylation) in addition to genetics.
A multi-stage cross-sectional study was designed. We did a literature search and identified 117 genes discovered by GWAS for obesity and its related traits. Then we analyzed whether the methylation levels of these genes were also associated with obesity in two genome-wide methylation panels. We examined an initial panel of seven adolescent obese cases and seven age-matched lean controls, followed by a second panel of 48 adolescent obese cases and 48 age- and gender-matched lean controls. The validated CpG sites were further replicated in two independent replication panels of youth (46 vs. 46 and 230 cases vs. 413 controls, respectively) and a general population of youth, including 703 healthy subjects.
One CpG site in the lymphocyte antigen 86 (LY86) gene, which showed higher methylation in the obese in both the initial (p = .009) and second genome-wide DNA methylation panel (p = .008), was further validated in both replication panels (meta p = .00016). Moreover, in the general population of youth, the methylation levels of this region were significantly correlated with adiposity indices (p ≤ .02), insulin resistance (p = .001), and inflammatory markers (p < .001).
By focusing on recent GWAS findings in genome-wide methylation profiles, we identified a solid association between LY86 gene DNA methylation and obesity.
既往全基因组关联研究(GWAS)已鉴定出大量与肥胖及其相关性状有关的遗传变异,代表了肥胖病因学中的一组潜在关键基因。新出现的证据表明,表观遗传学可能在肥胖中起重要作用。尚未探讨GWAS鉴定的基因座除了通过遗传学外,是否还通过表观遗传学(如DNA(脱氧核糖核酸)甲基化)导致肥胖。
设计了一项多阶段横断面研究。我们进行了文献检索,确定了117个通过GWAS发现的与肥胖及其相关性状有关的基因。然后,我们在两个全基因组甲基化样本中分析了这些基因的甲基化水平是否也与肥胖相关。我们首先检测了7例青少年肥胖病例和7例年龄匹配的瘦对照组成的初始样本,随后检测了48例青少年肥胖病例和48例年龄及性别匹配的瘦对照组成的第二个样本。经验证的CpG位点在两个独立的青年重复样本(分别为46对46以及230例对413例对照)以及一个包括703名健康受试者的青年普通人群中进一步重复检测。
淋巴细胞抗原86(LY86)基因中的一个CpG位点,在初始全基因组DNA甲基化样本(p = 0.009)和第二个全基因组DNA甲基化样本(p = 0.008)中均显示肥胖者甲基化水平较高,在两个重复样本中均得到进一步验证(meta p = 0.00016)。此外,在青年普通人群中,该区域的甲基化水平与肥胖指数(p≤0.02)、胰岛素抵抗(p = 0.001)和炎症标志物(p < 0.001)显著相关。
通过关注全基因组甲基化谱中最近的GWAS研究结果,我们确定了LY86基因DNA甲基化与肥胖之间存在确凿关联。
