Altered placental DNA methylation patterns associated with maternal smoking: current perspectives.

Advances in genomics and genetics Pub Date : 2015-05-07 DOI:10.2147/AGG.S61518

Jennifer Zj Maccani, Matthew A Maccani

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Abstract

The developmental origins of health and disease hypothesis states that adverse early life exposures can have lasting, detrimental effects on lifelong health. Exposure to maternal cigarette smoking during pregnancy is associated with morbidity and mortality in offspring, including increased risks for miscarriage, stillbirth, low birth weight, preterm birth, asthma, obesity, altered neurobehavior, and other conditions. Maternal cigarette smoking during pregnancy interferes with placental growth and functioning, and it has been proposed that this may occur through the disruption of normal and necessary placental epigenetic patterns. Epigenome-wide association studies have identified a number of differentially methylated placental genes that are associated with maternal smoking during pregnancy, including RUNX3, PURA, GTF2H2, GCA, GPR135, and HKR1. The placental methylation status of RUNX3 and NR3C1 has also been linked to adverse infant outcomes, including preterm birth and low birth weight, respectively. Candidate gene analyses have also found maternal smoking-associated placental methylation differences in the NR3C1, CYP1A1, HTR2A, and HSD11B2 genes, as well as in the repetitive elements LINE-1 and AluYb8. The differential methylation patterns of several genes have been confirmed to also exhibit altered gene expression patterns, including CYP1A1, CYP19A1, NR3C1, and HTR2A. Placental methylation patterns associated with maternal smoking during pregnancy may be largely gene-specific and tissue-specific and, to a lesser degree, involve global changes. It is important for future research to investigate the mechanistic roles that these differentially methylated genes may play in mediating the association between maternal smoking during pregnancy and disease in later life, as well as to elucidate the potential influence of emerging tobacco product use during pregnancy, including the use of electronic cigarettes, on placental epigenetics.

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与母亲吸烟有关的胎盘 DNA 甲基化模式改变：当前的视角。

健康和疾病的发育起源假说认为，生命早期的不良暴露会对终生健康产生持久的有害影响。母亲在怀孕期间吸烟与后代的发病率和死亡率有关，包括增加流产、死胎、出生体重不足、早产、哮喘、肥胖、神经行为改变和其他疾病的风险。母亲在怀孕期间吸烟会干扰胎盘的生长和功能，有人认为这可能是通过破坏正常和必要的胎盘表观遗传模式而发生的。全表观基因组关联研究发现了一些与孕期母体吸烟有关的胎盘甲基化差异基因，包括 RUNX3、PURA、GTF2H2、GCA、GPR135 和 HKR1。RUNX3 和 NR3C1 的胎盘甲基化状态也与婴儿的不良结局有关，包括早产和出生体重不足。候选基因分析还发现，在 NR3C1、CYP1A1、HTR2A 和 HSD11B2 基因以及重复元件 LINE-1 和 AluYb8 中，存在母体吸烟相关的胎盘甲基化差异。经证实，几个基因的不同甲基化模式也显示了基因表达模式的改变，包括 CYP1A1、CYP19A1、NR3C1 和 HTR2A。与母亲孕期吸烟有关的胎盘甲基化模式在很大程度上可能是基因特异性和组织特异性的，在较小程度上可能涉及整体变化。今后的研究有必要调查这些不同甲基化基因在介导孕期母亲吸烟与日后疾病之间的关联方面可能发挥的机制作用，并阐明孕期使用新烟草产品（包括使用电子烟）对胎盘表观遗传学的潜在影响。

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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Advances in genomics and genetics

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