Placental DNA methylation signatures of prenatal air pollution exposure and potential effects on birth outcomes: an analysis of three prospective cohorts

IF 24.1 1区医学 Q1 ENVIRONMENTAL SCIENCES Lancet Planetary Health Pub Date : 2024-05-01 DOI:10.1016/S2542-5196(24)00045-7

Lucile Broséus PhD , Ariane Guilbert MsC , Ian Hough PhD , Itai Kloog PhD , Anath Chauvaud MSc , Emie Seyve MSc , Daniel Vaiman PhD , Barbara Heude PhD , Cécile Chevrier PhD , Jörg Tost PhD , Rémy Slama PhD , Johanna Lepeule PhD

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Abstract

Background

Pregnancy air pollution exposure (PAPE) has been linked to a wide range of adverse birth and childhood outcomes, but there is a paucity of data on its influence on the placental epigenome, which can regulate the programming of physiological functions and affect child development. This study aimed to investigate the association between prenatal air pollutant exposure concentrations and changes in placental DNA methylation patterns, and to explore the potential windows of susceptibility and sex-specific alterations.

Methods

This multi-site study used three prospective population-based mother–child cohorts: EDEN, PELAGIE, and SEPAGES, originating from four French geographical regions (Nancy, Poitiers, Brittany, and Grenoble). Pregnant women were included between 2003 and 2006 for EDEN and PELAGIE, and between 2014 and 2017 for SEPAGES. The main eligibility criteria were: being older than 18 years, having a singleton pregnancy, and living and planning to deliver in one of the maternity clinics in one of the study areas. A total of 1539 mother–child pairs were analysed, measuring placental DNA methylation using Illumina BeadChips. We used validated spatiotemporally resolved models to estimate PM_2·5, PM₁₀, and NO₂ exposure over each trimester of pregnancy at the maternal residential address. We conducted a pooled adjusted epigenome-wide association study to identify differentially methylated 5‘–C–phosphate–G–3‘ (CpG) sites and regions (assessed using the Infinium HumanMethylationEPIC BeadChip array, n=871), including sex-specific and sex-linked alterations, and independently validated our results (assessed using the Infinium HumanMethylation450 BeadChip array, n=668).

Findings

We identified four CpGs and 28 regions associated with PAPE in the total population, 469 CpGs and 87 regions in male infants, and 150 CpGs and 66 regions in female infants. We validated 35% of the CpGs available. More than 30% of the identified CpGs were related to one (or more) birth outcome and most significant alterations were enriched for neural development, immunity, and metabolism related genes. The 28 regions identified for both sexes overlapped with imprinted genes (four genes), and were associated with neurodevelopment (nine genes), immune system (seven genes), and metabolism (five genes). Most associations were observed for the third trimester for female infants (134 of 150 CpGs), and throughout pregnancy (281 of 469 CpGs) and the first trimester (237 of 469 CpGs) for male infants.

Interpretation

These findings highlight the molecular pathways through which PAPE might affect child health in a widespread and sex-specific manner, identifying the genes involved in the major physiological functions of a developing child. Further studies are needed to elucidate whether these epigenetic changes persist and affect health later in life.

Funding

French Agency for National Research, Fondation pour la Recherche Médicale, Fondation de France, and the Plan Cancer.

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产前空气污染暴露的胎盘 DNA 甲基化特征及对出生结果的潜在影响：对三个前瞻性队列的分析

背景妊娠期空气污染暴露（PAPE）与多种不良出生和儿童结局有关，但有关其对胎盘表观基因组的影响的数据却很少，而胎盘表观基因组可调节生理功能的编程并影响儿童的发育。本研究旨在调查产前空气污染物暴露浓度与胎盘 DNA 甲基化模式变化之间的关联，并探索易感性和性别特异性改变的潜在窗口：这项多站点研究使用了三个前瞻性基于人口的母婴队列：EDEN、PELAGIE 和 SEPAGES，它们分别来自法国的四个地理区域（南锡、普瓦捷、布列塔尼和格勒诺布尔）。EDEN和PELAGIE在2003年至2006年期间纳入了孕妇，SEPAGES在2014年至2017年期间纳入了孕妇。主要的资格标准是：18 岁以上、单胎妊娠、在研究地区的产科诊所居住并计划分娩。共对 1539 对母婴进行了分析，使用 Illumina BeadChips 对胎盘 DNA 甲基化进行了测量。我们使用经过验证的时空分辨模型来估算孕妇住址在孕期每个三个月的 PM2-5、PM10 和 NO2 暴露量。我们进行了一项汇集调整的全表观基因组关联研究，以确定不同甲基化的5'-C-磷酸-G-3'（CpG）位点和区域（使用Infinium HumanMethylationEPIC BeadChip阵列进行评估，样本数=871），包括性别特异性和性别连锁改变，并独立验证了我们的结果（使用Infinium HumanMethylation450 BeadChip阵列进行评估，样本数=668）。研究结果我们在全部人群中发现了与 PAPE 相关的 4 个 CpGs 和 28 个区域，在男婴中发现了 469 个 CpGs 和 87 个区域，在女婴中发现了 150 个 CpGs 和 66 个区域。我们验证了 35% 的 CpGs。在已鉴定的 CpGs 中，有 30% 以上与一种（或多种）出生结果有关，而最显著的改变富集于神经发育、免疫和代谢相关基因。在男女两性中发现的 28 个区域与印迹基因（4 个基因）重叠，并与神经发育（9 个基因）、免疫系统（7 个基因）和新陈代谢（5 个基因）相关。在女婴的第三个孕期（150 个 CpGs 中的 134 个），以及男婴的整个孕期（469 个 CpGs 中的 281 个）和第一个孕期（469 个 CpGs 中的 237 个），观察到的关联最多。还需要进一步的研究来阐明这些表观遗传学变化是否会持续存在并影响以后的健康。

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来源期刊

Lancet Planetary Health Multiple-

CiteScore

28.40

自引率

2.30%

发文量

272

审稿时长

8 weeks

期刊介绍： The Lancet Planetary Health is a gold Open Access journal dedicated to investigating and addressing the multifaceted determinants of healthy human civilizations and their impact on natural systems. Positioned as a key player in sustainable development, the journal covers a broad, interdisciplinary scope, encompassing areas such as poverty, nutrition, gender equity, water and sanitation, energy, economic growth, industrialization, inequality, urbanization, human consumption and production, climate change, ocean health, land use, peace, and justice. With a commitment to publishing high-quality research, comment, and correspondence, it aims to be the leading journal for sustainable development in the face of unprecedented dangers and threats.