DNA methylation and genetic polymorphisms of the Leptin gene interact to influence lung function outcomes and asthma at 18 years of age.

International journal of molecular epidemiology and genetics Pub Date : 2016-03-23 eCollection Date: 2016-01-01
Nandini Mukherjee, Gabrielle A Lockett, Simon K Merid, Erik Melén, Göran Pershagen, John W Holloway, Syed Hasan Arshad, Susan Ewart, Hongmei Zhang, Wilfried Karmaus
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Abstract

The leptin gene (LEP) plays a regulatory role in satiety, inflammation, and allergy. Prior findings linking leptin to asthma motivated us to investigate whether DNA methylation (DNA-M) of CpG (cytosine-phosphate-guanine) sites in concert with single nucleotide polymorphisms (SNPs) of LEP can explain the risk of asthma and lung function. Methylation of CpG sites was assessed using the Illumina Infinium Human Methylation 450 beadchip in blood samples collected from 10- and 18-year-old boys and girls from the Isle of Wight (IOW) birth cohort (UK). Four LEP SNPs were genotyped. Linear and log linear models were used for the analysis, adjusting for false discovery rate (FDR). The analyses were repeated in the BAMSE cohort (Sweden). In the IOW study, the interaction of cg00666422 and rs11763517 (CT vs TT and CC) was associated with FEV1 (FDR-adjusted p-value: 0.03), FEV1/FVC ratio (FDR-adjusted p-value: 0.0096), and FEF25-75% (FDR-adjusted p-value: 0.00048) such that they decreased with increasing DNA-M. The interaction of the same CpG-SNP pair was also associated with increased risk of asthma at age 18. We replicated the findings for FEV1/FVC and FEF25-75% in a smaller sample of 34 participants at age 10. Regarding the BAMSE cohort, although, the interaction of cg00666422 and rs11763517 on lung function were not significant, the direction of the effect was the same as in IOW cohort. Thus, penetrance of LEP genotype seems to be modified by methylation at cg00666422 and is linked to airway obstruction and asthma.

Abstract Image

Abstract Image

DNA甲基化和瘦素基因的遗传多态性相互作用影响肺功能结局和18岁时的哮喘。
瘦素基因(LEP)在饱腹感、炎症和过敏中起调节作用。先前的发现将瘦素与哮喘联系起来,促使我们研究CpG(胞嘧啶-磷酸-鸟嘌呤)位点的DNA甲基化(DNA- m)与LEP的单核苷酸多态性(snp)是否可以解释哮喘和肺功能的风险。使用Illumina Infinium人类甲基化450头芯片对来自英国怀特岛(Isle of wright, IOW)出生队列的10岁和18岁男孩和女孩的血液样本进行CpG位点甲基化评估。对4个LEP snp进行基因分型。采用线性和对数线性模型进行分析,并根据错误发现率(FDR)进行调整。在BAMSE队列(瑞典)中重复了这些分析。在IOW研究中,cg00666422和rs11763517的相互作用(CT vs TT和CC)与FEV1 (fdr调整的p值:0.03)、FEV1/FVC比值(fdr调整的p值:0.0096)和FEF25-75% (fdr调整的p值:0.00048)相关,因此它们随着DNA-M的增加而降低。同一CpG-SNP对的相互作用也与18岁时哮喘风险增加有关。我们在34名10岁参与者的更小样本中重复了FEV1/FVC和FEF25-75%的研究结果。BAMSE组中,虽然cg00666422和rs11763517对肺功能的交互作用不显著,但作用方向与IOW组一致。因此,LEP基因型的外显率似乎在cg00666422位点被甲基化修饰,并与气道阻塞和哮喘有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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