From the Institute for Fetology (T.X., M.Z., H.L., B.J., X.Z., L.L., M.S., Z.X., Q.G.), First Hospital of Soochow University, Suzhou, China.
Institute of Reproductive Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China (X.F.).
Hypertension. 2021 Feb;77(2):491-506. doi: 10.1161/HYPERTENSIONAHA.120.16247. Epub 2020 Dec 21.
As the most common clinical stress during mid and late pregnancy, antenatal hypoxia has profound adverse effects on individual's vascular health later in life, but the underlying mechanisms are still not understood. The purpose of this study was to reveal the mechanisms of the acquired vascular dysfunction in offspring imposed by antenatal hypoxia. Pregnant rats were housed in a normoxic or hypoxic (10.5% oxygen) chamber from gestation day 10 to 21. Male offspring were euthanized at gestational day 21 (fetus) or postnatal 16 weeks old (adult offspring). Mesenteric arteries were collected for examining Ang II (angiotensin II)-mediated vascular contractility, gene expression, and promoter methylation. Antenatal hypoxia increased vascular sensitivity to Ang II, which was resulted by an upregulated AT1R (angiotensin II type 1 receptor). The increased AT1R was correlated with a hypomethylation-mediated activated transcription of Agtr1a (alpha subtype of AT1R). In addition, we presented evidences that there was an AT1R-Egr1 (early growth response gene 1)-PKCε (ε isoform of protein kinase C) axis in vasculature; AT1R could modulate PKCε expression via upregulating Egr1; Egr1 mediated transcription activation of PKCε via Egr1 binding sites in PKCε gene promoter. Overall, antenatal hypoxia activated AT1R-Egr1-PKCε axis in vasculature, eventually predisposed offspring to vascular hypercontractility. This is the first description that antenatal hypoxia resulted in vascular adverse outcomes in postnatal offspring, was strongly associated with reprogrammed gene expression via a DNA methylation-mediated epigenetic mechanism, advancing understanding toward the influence of adverse antenatal factors in early life on long-term vascular health.
作为中晚期妊娠期间最常见的临床应激,产前缺氧对个体生命后期的血管健康有深远的不良影响,但潜在机制尚不清楚。本研究旨在揭示产前缺氧对后代获得性血管功能障碍的机制。从妊娠第 10 天到第 21 天,将怀孕的大鼠置于常氧或低氧(10.5%氧气)室中。在妊娠第 21 天(胎儿)或产后 16 周(成年后代)处死雄性后代。收集肠系膜动脉,用于检查血管紧张素 II(血管紧张素 II)介导的血管收缩性、基因表达和启动子甲基化。产前缺氧增加了血管对血管紧张素 II 的敏感性,这是由于 AT1R(血管紧张素 II 型 1 受体)的上调所致。增加的 AT1R 与 Agtr1a(AT1R 的α亚型)的转录激活相关,这种转录激活是由于低甲基化介导的。此外,我们提供了证据表明,血管中存在 AT1R-Egr1(早期生长反应基因 1)-PKCε(蛋白激酶 Cε 同工型)轴;AT1R 可以通过上调 Egr1 来调节 PKCε 的表达;Egr1 通过 Egr1 结合位点在 PKCε 基因启动子中介导 PKCε 的转录激活。总之,产前缺氧激活了血管中的 AT1R-Egr1-PKCε 轴,最终使后代易患血管高收缩性。这是首次描述产前缺氧导致后代血管不良后果,强烈关联于通过 DNA 甲基化介导的表观遗传机制重新编程基因表达,这为理解生命早期不良产前因素对长期血管健康的影响提供了新的认识。
