Epigenome-wide association of neonatal methylation and trimester-specific prenatal PM_2.5 exposure.

IF 3.3 Q2 ENVIRONMENTAL SCIENCES

Environmental Epidemiology Pub Date : 2022-10-03 eCollection Date: 2022-10-01 DOI:10.1097/EE9.0000000000000227

Milan N Parikh, Cole Brokamp, Erika Rasnick, Lili Ding, Tesfaye B Mersha, Katherine Bowers, Alonzo T Folger

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Abstract

Exposure to particulate matter with an aerodynamic diameter smaller than 2.5 microns (PM_2.5) can affect birth outcomes through physiological pathways such as inflammation. One potential way PM_2.5 affects physiology could be through altering DNA methylation (DNAm). Considering that exposures during specific windows of gestation may have unique effects on DNAm, we hypothesized a timing-specific association between PM_2.5 exposure during pregnancy and DNAm in the neonatal epithelial-cell epigenome.

Methods: After collecting salivary samples from a cohort of 91 neonates, DNAm was assessed at over 850,000 cytosine-guanine dinucleotide (CpG) methylation sites on the epigenome using the MethylationEPIC array. Daily ambient PM_2.5 concentrations were estimated based on the mother's address of primary residence during pregnancy. PM_2.5 was averaged over the first two trimesters, separately and combined, and tested for association with DNAm through an epigenome-wide association (EWA) analysis. For each EWA, false discovery rate (FDR)-corrected P < 0.05 constituted a significant finding and every CpG site with uncorrected P < 0.0001 was selected to undergo pathway and network analysis to identify molecular functions enriched by them.

Results: Our analysis showed that cg18705808 was associated with the combined average of PM_2.5. Pathway and network analysis revealed little similarity between the first two trimesters. Previous studies reported that TMEM184A, the gene regulated by cg18705808, has a putative role in inflammatory pathways.

Conclusions: The differences in pathway and network analyses could potentially indicate trimester-specific effects of PM_2.5 on DNAm. Further analysis with greater temporal resolution would be valuable to fully characterize the effect of PM_2.5 on DNAm and child development.

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新生儿甲基化与特定孕期产前 PM2.5 暴露的表观基因组关联。

暴露于空气动力学直径小于 2.5 微米（PM2.5）的颗粒物会通过炎症等生理途径影响出生结果。PM2.5影响生理的一个潜在途径可能是改变DNA甲基化（DNAm）。考虑到妊娠期特定窗口期的暴露可能会对DNAm产生独特影响，我们假设妊娠期PM2.5暴露与新生儿上皮细胞表观基因组中的DNAm之间存在时间特异性关联：在收集了91名新生儿的唾液样本后，使用MethylationEPIC阵列评估了表观基因组中超过85万个胞嘧啶-鸟嘌呤二核苷酸（CpG）甲基化位点的DNAm。每日环境 PM2.5 浓度是根据母亲怀孕期间的主要居住地址估算的。PM2.5在前两个孕期分别和合并平均，并通过全表观基因组关联（EWA）分析检测与DNAm的关联。对于每个EWA，假发现率（FDR）校正后的P<0.05即为显著发现，每个未校正P<0.0001的CpG位点都被选中进行通路和网络分析，以确定其富集的分子功能：我们的分析表明，cg18705808与PM2.5的综合平均值相关。通路和网络分析显示前两个三个月的相似性很小。之前的研究报告称，受 cg18705808 调控的基因 TMEM184A 在炎症通路中可能发挥作用：结论：通路和网络分析中的差异可能表明 PM2.5 对 DNAm 的影响具有妊娠三个月的特异性。进一步进行时间分辨率更高的分析对于全面描述PM2.5对DNAm和儿童发育的影响很有价值。

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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来源期刊

Environmental Epidemiology Medicine-Public Health, Environmental and Occupational Health

CiteScore

5.70

自引率

2.80%

发文量

审稿时长

25 weeks