人子宫内膜蜕膜细胞相关的11 β -羟基类固醇脱氢酶表达:其在植入中的潜在作用。

F Arcuri, S Battistini, V Hausknecht, M Cintorino, C J Lockwood, F Schatz
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引用次数: 0

摘要

在怀孕期间过量的皮质类固醇暴露会扰乱灵长类胎儿的正常生长和分化模式。这通常是通过11 β -羟基类固醇脱氢酶(11 β - hsd)的作用来防止的,它将皮质醇转化为其生物活性的11-氧形式,从而确保很少或没有皮质醇被转移到胎儿身上。在着床过程中,胞外滋养细胞将子宫血管嵌入到蜕细胞基质中。通过这一侵入性过程,胚胎获得了获得母体血液供应的必要途径,同时也冒着暴露于高循环糖皮质激素水平的风险。因此,蜕细胞层表达的11 β - hsd可能在胎盘前调节发育中的胚胎的皮质醇暴露中是必不可少的。为了研究蜕膜细胞对糖皮质激素代谢的潜在贡献,我们评估了11种已知的β - hsd亚型11 β - hsd1(其催化活性依赖于NADP(+)-)和11 β - hsd2(其催化活性依赖于NAD(+)-)在人子宫内膜间质细胞单层蜕膜过程中的表达。在体外模型中模拟了卵巢类固醇对人子宫内膜的不同作用。因此,孕激素在培养的基质细胞中诱导了几种脱个体化标志物的表达,并且与其在体内的启动作用一致,雌二醇增强了这种表达。我们的研究结果建立了体外脱醛和增强糖皮质激素代谢能力之间的联系。因此,这11种β - hsd异构体的催化活性都可以通过前体细胞与醋酸甲孕酮孵卵得到增强,并且可以通过雌二醇进一步增强,尽管单独使用雌二醇没有反应。这种对雌二醇和黄体酮的差异反应反映在11 β - hsd1信使RNA稳态水平的平行变化中。蜕细胞的糖皮质激素代谢活性的作用在确定胚胎暴露于生物活性糖皮质激素方面的意义进行了讨论。
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Human endometrial decidual cell-associated 11 beta-hydroxysteroid dehydrogenase expression: its potential role in implantation.

During pregnancy excess corticosteroid exposure can disturb the normal pattern of growth and differentiation of the primate fetus. This is normally prevented by the action of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD), which converts cortisol to its biologically inactive 11-oxo form, thereby ensuring that little or no cortisol is transferred to the fetus. During implantation, extravillous trophoblasts breech uterine vessels that are embedded in a decidual cell matrix. Through this invasive process the embryo gains requisite access to the maternal blood supply, while risking exposure to high circulating glucocorticoid levels. Thus, the expression of 11 beta-HSD by the decidual cell layer may be essential in regulating cortisol exposure of the developing embryo prior to placentation. In order to investigate the potential contribution of decidual cells to glucocorticoid metabolism, we evaluated the expression of both known 11 beta-HSD isoforms, 11 beta-HSD1, whose catalytic activity is NADP(+)-dependent, and NAD(+)-dependent 11 beta-HSD2, during decidualization of monolayers of human endometrial stromal cells. The differential actions of ovarian steroids on human endometrium are simulated in this in vitro model. Thus, progestins induce the expression of several decidualization markers in the cultured stromal cells, and consistent with its priming action in vivo, estradiol augments this expression. The results of our studies established a link between in vitro decidualization and enhanced glucocorticoid metabolizing capacity. Accordingly, the catalytic activities of both 11 beta-HSD isoforms were enhanced by incubation of the precursor stromal cells with medroxyprogesterone acetate, and further enhanced by estradiol, despite a lack of response to estradiol alone. This differential response to estradiol and progestin was reflected in parallel changes in steady state levels of 11 beta-HSD1 messenger RNA. The role of glucocorticoid metabolizing activity of the decidual cell is discussed in terms of its implications in determining the exposure of the implanting embryo to biologically active glucocorticoids.

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