Associations between Maternal Psychosocial Stress, DNA Methylation, and Newborn Birth Weight Identified by Investigating Methylation at Individual, Regional, and Genome Levels.

4区 生物学 Q2 Medicine
Christopher J Clukay, David A Hughes, Darlene A Kertes, Connie J Mulligan
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引用次数: 4

Abstract

Stress is known to affect health throughout life and into future generations, but the underlying molecular mechanisms are unknown. We tested the hypothesis that maternal psychosocial stress influences DNA methylation (DNAm), which in turn impacts newborn health outcomes. Specifically, we analyzed DNAm at individual, regional, and genome-wide levels to test for associations with maternal stress and newborn birth weight. Maternal venous blood and newborn cord blood (n = 24 and 22, respectively) were assayed for methylation at ∼450,000 CpG sites. Methylation was analyzed by examining CpG sites individually in an epigenome-wide association study (EWAS), as regional groups using variably methylated region (VMR) analysis in maternal blood only, and through the epigenome-wide measures using genome-wide mean methylation (GMM), Horvath's epigenetic clock, and mitotic age. These methylation measures were tested for association with three measures of maternal stress (maternal war trauma, chronic stress, and experience of sexual violence) and one health outcome (newborn birth weight). We observed that maternal experiences of war trauma, chronic stress, and sexual assault were each associated with decreased newborn birth weight (p < 1.95 × 10-7 in all cases). Testing individual CpG sites using EWAS, we observed no associations between DNAm and any measure of maternal stress or newborn birth weight in either maternal or cord blood, after Bonferroni multiple testing correction. However, the top-ranked CpG site in maternal blood that associated with maternal chronic stress and sexual violence before multiple testing correction is located near the SPON1 gene. Testing at a regional level, we found increased methylation of a VMR in maternal blood near SPON1 that was associated with chronic stress and sexual violence after Bonferroni multiple testing correction (p = 1.95 × 10-7 and 8.3 × 10-6, respectively). At the epigenomic level, cord blood GMM was associated with significantly higher levels of war trauma (p = 0.025) and was suggestively associated with sexual violence (p = 0.053). The other two epigenome-wide measures were not associated with maternal stress or newborn birth weight in either tissue type. Despite our small sample size, we identified associations even after conservative multiple testing correction. Specifically, we found associations between DNAm and the three measures of maternal stress across both tissues; specifically, a VMR in maternal blood and GMM in cord blood were both associated with different measures of maternal stress. The association of cord blood GMM, but not maternal blood GMM, with maternal stress may suggest different responses to stress in mother and newborn. It is noteworthy that we found associations only when CpG sites were analyzed in aggregate, either as VMRs or as a broad summary measure of GMM.

通过研究个体、区域和基因组水平的甲基化,确定了母亲心理社会压力、DNA甲基化和新生儿体重之间的关系。
众所周知,压力会影响一生乃至后代的健康,但其潜在的分子机制尚不清楚。我们检验了母亲心理社会压力影响DNA甲基化(DNAm)的假设,而DNA甲基化反过来又影响新生儿的健康结果。具体来说,我们在个体、区域和全基因组水平上分析了dna,以测试其与母亲压力和新生儿体重的关系。检测母体静脉血和新生儿脐带血(分别为24和22)约450,000个CpG位点的甲基化。甲基化是通过在全表观基因组关联研究(EWAS)中单独检测CpG位点来分析的,作为区域组,仅在母体血液中使用可变甲基化区域(VMR)分析,并通过全基因组平均甲基化(GMM)、Horvath表观遗传时钟和有丝分裂年龄进行全表观基因组测量。对这些甲基化措施与三种产妇压力措施(产妇战争创伤、慢性压力和性暴力经历)和一种健康结果(新生儿出生体重)的关联进行了测试。我们观察到母亲的战争创伤、慢性压力和性侵犯经历都与新生儿体重下降有关(所有病例p < 1.95 × 10-7)。使用EWAS检测单个CpG位点,在Bonferroni多重测试校正后,我们观察到DNAm与母体或脐带血中任何母体应激或新生儿体重的测量均无关联。然而,在多次检测校正前,母体血液中与母体慢性应激和性暴力相关的CpG位点位于SPON1基因附近。在区域水平的测试中,我们发现在Bonferroni多重测试校正后,母亲血液中SPON1附近的VMR甲基化增加,与慢性应激和性暴力有关(p分别= 1.95 × 10-7和8.3 × 10-6)。在表观基因组水平上,脐带血GMM与较高水平的战争创伤显著相关(p = 0.025),并与性暴力呈正相关(p = 0.053)。其他两项全表观基因组测量与两种组织类型的母亲应激或新生儿体重无关。尽管我们的样本量很小,但即使经过保守的多重检验校正,我们也确定了相关性。具体来说,我们发现dna与两种组织中母亲压力的三种测量之间存在关联;具体来说,母体血液中的VMR和脐带血中的GMM都与母体应激的不同测量有关。脐带血GMM与母亲应激相关,但与母亲血GMM无关,这可能表明母亲和新生儿对应激的反应不同。值得注意的是,我们发现只有当CpG位点被集中分析时,无论是作为vmr还是作为GMM的广泛汇总测量,我们才发现了关联。
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来源期刊
Human Biology
Human Biology 生物-生物学
CiteScore
1.90
自引率
0.00%
发文量
88
审稿时长
>12 weeks
期刊介绍: Human Biology publishes original scientific articles, brief communications, letters to the editor, and review articles on the general topic of biological anthropology. Our main focus is understanding human biological variation and human evolution through a broad range of approaches. We encourage investigators to submit any study on human biological diversity presented from an evolutionary or adaptive perspective. Priority will be given to interdisciplinary studies that seek to better explain the interaction between cultural processes and biological processes in our evolution. Methodological papers are also encouraged. Any computational approach intended to summarize cultural variation is encouraged. Studies that are essentially descriptive or concern only a limited geographic area are acceptable only when they have a wider relevance to understanding human biological variation. Manuscripts may cover any of the following disciplines, once the anthropological focus is apparent: human population genetics, evolutionary and genetic demography, quantitative genetics, evolutionary biology, ancient DNA studies, biological diversity interpreted in terms of adaptation (biometry, physical anthropology), and interdisciplinary research linking biological and cultural diversity (inferred from linguistic variability, ethnological diversity, archaeological evidence, etc.).
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