职业性接触农药与 DNA 甲基化差异有关。

Occupational exposure to pesticides is associated with differential DNA methylation.

机构信息

Department of Epidemiology, University of Groningen, University Medical Center Groningen, Groningen, The Netherlands.

Groningen Research Institute for Asthma and COPD (GRIAC), University of Groningen, University Medical Center Groningen, Groningen, The Netherlands.

出版信息

Occup Environ Med. 2018 Jun;75(6):427-435. doi: 10.1136/oemed-2017-104787. Epub 2018 Feb 19.

DOI:10.1136/oemed-2017-104787

PMID:29459480

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5969365/

Abstract

OBJECTIVES

Occupational pesticide exposure is associated with a wide range of diseases, including lung diseases, but it is largely unknown how pesticides influence airway disease pathogenesis. A potential mechanism might be through epigenetic mechanisms, like DNA methylation. Therefore, we assessed associations between occupational exposure to pesticides and genome-wide DNA methylation sites.

METHODS

1561 subjects of LifeLines were included with either no (n=1392), low (n=108) or high (n=61) exposure to any type of pesticides (estimated based on current or last held job). Blood DNA methylation levels were measured using Illumina 450K arrays. Associations between pesticide exposure and 420 938 methylation sites (CpGs) were assessed using robust linear regression adjusted for appropriate confounders. In addition, we performed genome-wide stratified and interaction analyses by gender, smoking and airway obstruction status, and assessed associations between gene expression and methylation for genome-wide significant CpGs (n=2802).

RESULTS

In total for all analyses, high pesticide exposure was genome-wide significantly (false discovery rate P<0.05) associated with differential DNA methylation of 31 CpGs annotated to 29 genes. Twenty of these CpGs were found in subjects with airway obstruction. Several of the identified genes, for example, , , , , and , are genes previously linked to either pesticide exposure or lung-related diseases. Seven out of 31 CpGs were associated with gene expression levels.

CONCLUSIONS

We show for the first time that occupational exposure to pesticides is genome-wide associated with differential DNA methylation. Further research should reveal whether this differential methylation plays a role in the airway disease pathogenesis induced by pesticides.

摘要

目的

职业性农药暴露与多种疾病有关，包括肺部疾病，但目前尚不清楚农药如何影响气道疾病的发病机制。潜在的机制可能是通过表观遗传机制，如 DNA 甲基化。因此，我们评估了职业性农药暴露与全基因组 DNA 甲基化位点之间的关联。

方法

1561 名 LifeLines 研究对象纳入研究，根据当前或最近的工作，将其分为无（n=1392）、低（n=108）或高（n=61）农药暴露组。采用 Illumina 450K 芯片检测血液 DNA 甲基化水平。使用稳健线性回归调整适当的混杂因素，评估农药暴露与 420938 个甲基化位点（CpG）之间的关联。此外，我们按性别、吸烟和气道阻塞状态进行全基因组分层和交互分析，并评估全基因组显著 CpG（n=2802）的基因表达与甲基化之间的关联。

结果

在所有分析中，高农药暴露与 29 个基因注释的 31 个 CpG 的全基因组差异 DNA 甲基化显著相关（错误发现率 P<0.05）。其中 20 个 CpG 存在于气道阻塞的受试者中。所确定的基因中的几个，例如，，，，，，与农药暴露或与肺部相关的疾病有关。31 个 CpG 中有 7 个与基因表达水平相关。

结论

我们首次表明，职业性农药暴露与全基因组差异 DNA 甲基化有关。进一步的研究应该揭示这种差异甲基化是否在农药引起的气道疾病发病机制中起作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/30a5/5969365/0f276b96e71b/oemed-2017-104787f01.jpg

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职业性接触农药与 DNA 甲基化差异有关。

Occupational exposure to pesticides is associated with differential DNA methylation.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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