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miRNA 加工基因多态性、血液 DNA 甲基化年龄与老年男性长期环境 PM 暴露

miRNA processing gene polymorphisms, blood DNA methylation age and long-term ambient PM exposure in elderly men.

机构信息

Department of Environmental Health, Harvard T.H. Chan School of Public Health, Boston, MA, USA.

Department of Environmental Health Sciences, Columbia Mailman School of Public Health, New York, NY, USA.

出版信息

Epigenomics. 2017 Dec;9(12):1529-1542. doi: 10.2217/epi-2017-0094. Epub 2017 Nov 6.

DOI:10.2217/epi-2017-0094
PMID:29106301
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5704092/
Abstract

AIM

We tested whether genetic variation in miRNA processing genes modified the association of PM with DNA methylation (DNAm) age.

PATIENTS & METHODS: We conducted a repeated measures study based on 552 participants from the Normative Aging Study with multiple visits between 2000 and 2011 (n = 940 visits). Address-level 1-year PM exposures were estimated using the GEOS-chem model. DNAm-age and a panel of 14 SNPs in miRNA processing genes were measured from participant blood samples.

RESULTS & CONCLUSION: In fully adjusted linear mixed-effects models, having at least one copy of the minor rs4961280 [AGO2] allele was associated with a lower DNAm-age (β = -1.13; 95% CI: -2.26 to -0.002). However, the association of PM with DNAm-age was significantly (P  = 0.01) weaker in homozygous carriers of the major rs4961280 [AGO2] allele (β = 0.38; 95% CI: -0.20 to 0.96) when compared with all other participants (β = 1.58; 95% CI: 0.76 to 2.39). Our results suggest that miRNA processing impacts DNAm-age relationships. Graphical abstract: miRNA processing AGO2 polymorphism (rs4961280) modifies the association of long-term ambient fine particle exposure with blood DNA methylation age [Formula: see text] The graph depicts lines from a fully adjusted linear regression model with fine particle exposure levels ranging from the tenth to the ninetieth percentile, all other continuous variables held constant at their means, and all other categorical variables held at their most frequent level.

摘要

目的

我们旨在检验 miRNA 加工基因的遗传变异是否能改变 PM 与 DNA 甲基化年龄(DNAm 年龄)之间的关联。

患者与方法

我们开展了一项基于重复测量的研究,该研究纳入了 552 名参加规范老化研究的参与者,他们在 2000 年至 2011 年间多次访视(n=940 次访视)。采用 GEOS-chem 模型来估算住址层面上 1 年 PM 暴露量。从参与者的血液样本中测量 DNAm 年龄和一组 14 个 miRNA 加工基因的 SNPs。

结果与结论

在完全调整的线性混合效应模型中,至少携带一个 rs4961280 [AGO2] 等位基因的次要等位基因与较低的 DNAm 年龄相关(β=-1.13;95%CI:-2.26 至-0.002)。然而,与所有其他参与者相比(β=1.58;95%CI:0.76 至 2.39),rs4961280 [AGO2] 等位基因的主要等位基因纯合携带者中 PM 与 DNAm 年龄的相关性明显较弱(β=0.38;95%CI:-0.20 至 0.96)。我们的结果表明,miRNA 加工会影响 DNAm 年龄的关系。

图注

miRNA 加工 AGO2 多态性(rs4961280)改变了长期环境细颗粒物暴露与血液 DNA 甲基化年龄的关联。

该图显示了一个完全调整的线性回归模型中的线条,细颗粒物暴露水平从第十分位数到第 90 百分位数不等,所有其他连续变量保持在其平均值,所有其他分类变量保持在最常见的水平。

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