Estrogen-Induced Uterine Vasodilation in Pregnancy and Preeclampsia.

Yan Li, Baoshi Han, Alejandra Garcia Salmeron, Jin Bai, Dong-Bao Chen
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引用次数: 1

Abstract

Normal pregnancy is associated with dramatically increased estrogen biosynthesis whose role is believed to raise uterine blood flow to facilitate the bi-directional maternal-fetal exchanges of gases (O2 and CO2), to deliver nutrients, and exhaust wastes to support fetal development and survival. Constrained uterine blood flow in pregnancy is a leading cause of preeclampsia with fetal growth restriction, rendering investigations of uterine hemodynamics to hold a high promise to inform pathways as targets for therapeutic interventions for preeclampsia. The mechanisms of estrogen-induced uterine vasodilation in pregnancy have long been attributed to enhanced endothelium production of nitric oxide, but clinical trials targeting this pathway that dominates uterine hemodynamics have achieved no to little success. Emerging evidence has recently shown a novel proangiogenic vasodilatory role of hydrogen sulfide in regulating uterine hemodynamics in pregnancy and preeclampsia, provoking a new field of perinatal research in searching for alternative pathways for pregnancy disorders especially preeclampsia and intrauterine growth restriction. This minireview is intended to summarize the nitric oxide pathway and to discuss the emerging hydrogen sulfide pathway in modulating estrogen-induced uterine vasodilation in pregnancy and preeclampsia.

Abstract Image

雌激素诱导的妊娠期子宫血管扩张和子痫前期。
正常妊娠与雌激素生物合成显著增加有关,雌激素的作用被认为是增加子宫血流量,促进母胎双向交换气体(O2和CO2),输送营养物质,排出废物,以支持胎儿的发育和生存。妊娠期子宫血流受限是先兆子痫伴胎儿生长受限的主要原因,因此子宫血流动力学研究有望为先兆子痫的治疗干预提供途径。长期以来,雌激素诱导的妊娠期子宫血管舒张机制一直被认为与一氧化氮的内皮生成增强有关,但针对这一主导子宫血流动力学的途径的临床试验几乎没有取得成功。最近新发现的证据表明,硫化氢在妊娠期和子痫前期调节子宫血流动力学中具有新的促血管生成的血管扩张作用,这引发了围产期研究的一个新领域,即寻找妊娠疾病特别是子痫前期和宫内生长受限的替代途径。这篇综述旨在总结一氧化氮途径,并讨论新出现的硫化氢途径在调节雌激素诱导的子宫血管扩张妊娠和子痫前期。
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