Department of Pediatrics, Division of Cardiology, Children's Hospital of Wisconsin, Medical College of Wisconsin, Milwaukee, Wisconsin.
Department of Pediatrics, Division of Neonatology, Children's Hospital of Wisconsin, Medical College of Wisconsin, Milwaukee, Wisconsin.
Birth Defects Res. 2018 Dec 1;110(20):1551-1555. doi: 10.1002/bdr2.1428.
Cardiac fibrosis is a cardinal feature of multiple types of cardiovascular disease, which lead to heart failure. Multiple studies connect adverse maternal environment (AME) with cardiac fibrosis. AME does not always result in fibrosis, though. An additional "insult", such as an adult Western diet (WD), is frequently necessary. The additive effects of AME and adult WD on cardiac fibrosis is not well-understood. AME can also alter DNA methylation. DNA methyltransferase (DNMT) and ten-eleven translocation (TET) are methylation modifying genes that regulate DNA methylation, but it is unknown if AME changes cardiac gene expression of DNMT and TET. We sought to use a model of AME and adult WD to investigate the development of cardiac fibrosis and cardiac mRNA expression of DNMT and TET genes.
We exposed dams to WD or control diet (CD) 5 weeks before pregnancy and through lactation. We added environmental stressors during the last third of pregnancy to dams on WD to create AME. Dams on CD experienced no added stressors to create control maternal environment (CME). Male offspring were weaned at Postnatal Week 3 (W3) and placed on WD or CD to create four groups: CME-CD, CME-WD, AME-CD, and AME-WD.
AME-WD increased cardiac fibrosis in adulthood (p < .05), whereas AME-CD and CME-WD did not. TET1-3 and DNMT3a mRNA levels decreased in AME versus CME offspring (p < .01).
AME increases susceptibility to cardiac fibrosis in adult male mice. Early-life changes to TET expression may mediate susceptibility to fibrosis, but further testing is needed.
心脏纤维化是多种心血管疾病的主要特征,可导致心力衰竭。多项研究表明母体不良环境(AME)与心脏纤维化有关。然而,AME 并不总是导致纤维化。通常还需要另外一个“刺激因素”,例如成人西式饮食(WD)。AME 和成人 WD 对心脏纤维化的附加影响尚不清楚。AME 还可以改变 DNA 甲基化。DNA 甲基转移酶(DNMT)和 ten-eleven 易位(TET)是调节 DNA 甲基化的甲基化修饰基因,但尚不清楚 AME 是否会改变心脏中 DNMT 和 TET 基因的表达。我们试图使用 AME 和成人 WD 模型来研究心脏纤维化的发展以及 DNMT 和 TET 基因的心脏 mRNA 表达。
我们在怀孕前 5 周和哺乳期让母鼠暴露于 WD 或对照饮食(CD)中。我们在妊娠的最后三分之一期间向 WD 组的母鼠添加环境应激源,以创建 AME。CD 组的母鼠未添加应激源以创建对照母体环境(CME)。雄性幼鼠在生后第 3 周(W3)断奶,并被置于 WD 或 CD 中,以创建四个组:CME-CD、CME-WD、AME-CD 和 AME-WD。
AME-WD 增加了成年时的心脏纤维化(p <.05),而 AME-CD 和 CME-WD 则没有。TET1-3 和 DNMT3a 的 mRNA 水平在 AME 组与 CME 组后代中降低(p <.01)。
AME 增加了成年雄性小鼠心脏纤维化的易感性。早期 TET 表达的变化可能介导了纤维化的易感性,但需要进一步的测试。
