Department of Paediatrics; University of Melbourne; Parkville, VIC Australia; Early Life Epigenetics Group; Murdoch Childrens Research Institute (MCRI); Royal Children's Hospital; Parkville, VIC Australia.
Clinical Epidemiology and Biostatistics Unit; Murdoch Childrens Research Institute (MCRI); Royal Children's Hospital; Parkville, VIC Australia; Department of Mathematics and Statistics; La Trobe University; Melbourne, VIC Australia.
Epigenetics. 2013 Oct;8(10):1069-79. doi: 10.4161/epi.25908. Epub 2013 Aug 5.
Epigenetic events are crucial for early development, but can be influenced by environmental factors, potentially programming the genome for later adverse health outcomes. The insulin-like growth factor 2 (IGF2)/H19 locus is crucial for prenatal growth and the epigenetic state at this locus is environmentally labile. Recent studies have implicated maternal factors, including folate intake and smoking, in the regulation of DNA methylation at this locus, although data are often conflicting in the direction and magnitude of effect. Most studies have focused on single tissues and on one or two differentially-methylated regions (DMRs) regulating IGF2/H19 expression. In this study, we investigated the relationship between multiple shared and non-shared gestational/maternal factors and DNA methylation at four IGF2/H19 DMRs in five newborn cell types from 67 pairs of monozygotic and 49 pairs of dizygotic twins. Data on maternal and non-shared supply line factors were collected during the second and third trimesters of pregnancy and DNA methylation was measured via mass spectrometry using Sequenom MassArray EpiTyper analysis. Our exploratory approach showed that the site of umbilical cord insertion into the placenta in monochorionic twins has the strongest positive association with methylation in all IGF2/H19 DMRs (p<0.05). Further, evidence for tissue- and locus-specific effects were observed, emphasizing that responsiveness to environmental exposures in utero cannot be generalized across genes and tissues, potentially accounting for the lack of consistency in previous findings. Such complexity in responsiveness to environmental exposures in utero has implications for all epigenetic studies investigating the developmental origins of health and disease.
表观遗传事件对早期发育至关重要,但会受到环境因素的影响,从而可能为以后的健康不良结局对基因组进行编程。胰岛素样生长因子 2(IGF2)/H19 基因座对于产前生长至关重要,并且该基因座的表观遗传状态对环境变化敏感。最近的研究表明,包括叶酸摄入和吸烟在内的母体因素会影响该基因座的 DNA 甲基化,但数据在影响方向和程度上往往存在冲突。大多数研究都集中在单个组织和一个或两个调节 IGF2/H19 表达的差异甲基化区域(DMR)上。在这项研究中,我们研究了 67 对同卵双胞胎和 49 对异卵双胞胎的五种新生儿细胞类型中的四个 IGF2/H19 DMR 中,多种共享和非共享妊娠/母体因素与 DNA 甲基化之间的关系。在妊娠的第二和第三个三个月期间收集了关于母体和非共享供应线因素的数据,并使用Sequenom MassArray EpiTyper 分析通过质谱法测量 DNA 甲基化。我们的探索性方法表明,在单绒毛膜双胞胎中,脐带插入胎盘的位置与所有 IGF2/H19 DMR 中的甲基化呈最强正相关(p<0.05)。此外,还观察到了组织和基因座特异性效应的证据,强调了对宫内环境暴露的反应不能在基因和组织之间普遍化,这可能是以前研究结果缺乏一致性的原因。这种对宫内环境暴露的反应的复杂性对所有研究健康和疾病发育起源的表观遗传研究都具有重要意义。
