父亲DNA甲基化可能与出生时的胎龄有关。

IF 3.2 Q2 GENETICS & HEREDITY
Epigenetics Insights Pub Date : 2020-09-10 eCollection Date: 2020-01-01 DOI:10.1177/2516865720930701
Rui Luo, Nandini Mukherjee, Su Chen, Yu Jiang, S Hasan Arshad, John W Holloway, Anna Hedman, Olena Gruzieva, Ellika Andolf, Goran Pershagen, Catarina Almqvist, Wilfried Jj Karmaus
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引用次数: 1

摘要

背景:DNA的表观遗传修饰如何与出生胎龄相关尚不完全清楚。我们通过对胞嘧啶-磷酸-鸟嘌呤(CpG)位点进行全表观基因组搜索,研究了差异父本DNA甲基化(DNAm)对后代出生时胎龄的潜在影响。方法:本研究的研究对象为怀特岛出生队列(IoWBC) f1代男性队列成员或伴侣。使用Illumina 450K阵列分析了在配偶怀孕期间收集的f1父亲(n = 92)外周血中的dna水平。采用5步统计分析。首先,采用训练-测试筛选方法选择与出生胎龄有潜在关联的CpG位点。其次,功能富集分析用于识别生物过程。第三,通过集中生物学信息基因,采用Cox比例风险模型评估个体父亲CpGs对胎龄的风险比,调整混杂因素。第四,为了评估我们结果的有效性,我们比较了瑞典出生研究中cpg -胎龄的相关性(n = 15)。最后,我们研究了IoWBC患者F2脐带血中检测到的CpGs与差异基因表达的相关性。结果:对父亲在其伴侣怀孕期间收集的dna进行分析,确定了216个与出生时胎龄显著相关的CpG位点。功能富集途径分析揭示了2条与细胞-细胞膜粘附分子显著相关的生物学途径。校正混杂因素后,9种细胞膜粘附途径相关CpGs的差异甲基化与出生时胎龄显著相关。复制样本显示2个通路相关CpGs与出生胎龄的相关系数在IoWBC相关系数的95%置信区间内。最后,原钙粘蛋白(PCDH)基因簇的CpG位点与F2脐带血PCDH基因表达相关。结论:我们的研究结果表明,差异父系dna可能通过细胞-细胞膜粘附分子影响出生时的胎龄。结果是新颖的,但需要在未来更大的队列中进行复制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Paternal DNA Methylation May Be Associated With Gestational Age at Birth.

Paternal DNA Methylation May Be Associated With Gestational Age at Birth.

Paternal DNA Methylation May Be Associated With Gestational Age at Birth.

Paternal DNA Methylation May Be Associated With Gestational Age at Birth.

Background: How epigenetic modifications of DNA are associated with gestational age at birth is not fully understood. We investigated potential effects of differential paternal DNA methylation (DNAm) on offspring gestational age at birth by conducting an epigenome-wide search for cytosine-phosphate-guanine (CpG) sites.

Methods: Study participants in this study consist of male cohort members or partners of the F1-generation of the Isle of Wight Birth Cohort (IoWBC). DNAm levels in peripheral blood from F1-fathers (n = 92) collected around pregnancy of their spouses were analyzed using the Illumina 450K array. A 5-step statistical analysis was performed. First, a training-testing screening approach was applied to select CpG sites that are potentially associated with gestational age at birth. Second, functional enrichment analysis was employed to identify biological processes. Third, by centralizing on biologically informative genes, Cox proportional hazards models were used to assess the hazard ratios of individual paternal CpGs on gestational age adjusting for confounders. Fourth, to assess the validity of our results, we compared our CpG-gestational age correlations within a Born into Life Study in Sweden (n = 15). Finally, we investigated the correlation between the detected CpGs and differential gene expression in F2 cord blood in the IoWBC.

Results: Analysis of DNAm of fathers collected around their partner's pregnancy identified 216 CpG sites significantly associated with gestational age at birth. Functional enrichment pathways analyses of the annotated genes revealed 2 biological pathways significantly related to cell-cell membrane adhesion molecules. Differential methylation of 9 cell membrane adhesion pathway-related CpGs were significantly associated with gestational age at birth after adjustment for confounders. The replication sample showed correlation coefficients of 2 pathway-related CpGs with gestational age at birth within 95% confidence intervals of correlation coefficients in IoWBC. Finally, CpG sites of protocadherin (PCDH) gene clusters were associated with gene expression of PCDH in F2 cord blood.

Conclusions: Our findings suggest that differential paternal DNAm may affect gestational age at birth through cell-cell membrane adhesion molecules. The results are novel but require future replication in a larger cohort.

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Epigenetics Insights
Epigenetics Insights GENETICS & HEREDITY-
CiteScore
5.10
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0.00%
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10
审稿时长
8 weeks
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