Department for Obstetrics and Fetal Medicine, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
University/BHF Centre for Cardiovascular Science, University of Edinburgh, Queen's Medical Research Institute , Edinburgh , United Kingdom.
Am J Physiol Endocrinol Metab. 2019 Jul 1;317(1):E109-E120. doi: 10.1152/ajpendo.00551.2018. Epub 2019 Apr 16.
Antenatal stress increases the prevalence of diseases in later life, which shows a strong sex-specific effect. However, the underlying mechanisms remain unknown. Maternal glucocorticoids can be elevated by stress and are potential candidates to mediate the effects of stress on the offspring sex-specifically. A comprehensive evaluation of dynamic maternal and placental mechanisms modulating fetal glucocorticoid exposure upon maternal stress was long overdue. Here, we addressed this gap in knowledge by investigating sex-specific responses to midgestational stress in mice. We observed increased levels of maternal corticosterone, the main glucocorticoid in rodents, along with higher corticosteroid-binding globulin levels at midgestation in C57Bl/6 dams exposed to sound stress. This resulted in elevated corticosterone in female fetuses, whereas male offspring were unaffected. We identified that increased placental expression of the glucocorticoid-inactivating enzyme 11β-hydroxysteroid dehydrogenase type 2 (11β-HSD2; gene) and ATP-binding cassette transporters, which mediate glucocorticoid efflux toward maternal circulation, protect male offspring from maternal glucocorticoid surges. We generated mice with an placental-specific disruption () and observed moderately elevated corticosterone levels in offspring, along with increased body weight. Subsequently, we assessed downstream glucocorticoid receptors and observed a sex-specific differential modulation of placental expression, which encodes the glucocorticoid-induced leucine zipper protein in response to stress. Taken together, our observations highlight the existence of unique and well-orchestrated mechanisms that control glucocorticoid transfer, exposure, and metabolism in the mouse placenta, pinpointing toward the existence of sex-specific fetal glucocorticoid exposure windows during gestation in mice.
产前应激会增加成年后疾病的发病率,且这种影响具有明显的性别特异性。然而,其潜在的作用机制尚不清楚。应激会导致母体糖皮质激素水平升高,而糖皮质激素可能是介导应激对子代产生性别特异性影响的潜在候选物质。全面评估母体和胎盘在应激时调节胎儿糖皮质激素暴露的动态机制一直是当务之急。在此,我们通过研究小鼠妊娠中期应激的性别特异性反应来填补这一知识空白。我们观察到,在暴露于声音应激的 C57Bl/6 母鼠中,妊娠中期母体皮质酮(啮齿动物的主要糖皮质激素)水平升高,同时皮质甾酮结合球蛋白水平升高。这导致雌性胎儿皮质酮水平升高,而雄性后代不受影响。我们发现,胎盘 11β-羟甾脱氢酶 2(11β-HSD2; 基因)和 ABC 转运蛋白的表达增加,这些蛋白介导糖皮质激素向母体循环的流出,从而保护雄性后代免受母体糖皮质激素激增的影响。我们生成了胎盘特异性缺失()的小鼠,并观察到后代的皮质酮水平中度升高,体重增加。随后,我们评估了下游糖皮质激素受体,观察到应激反应中胎盘 表达的性别特异性差异调节, 编码糖皮质激素诱导的亮氨酸拉链蛋白。总之,我们的观察结果强调了存在独特且协调良好的机制来控制小鼠胎盘内的糖皮质激素转移、暴露和代谢,提示在妊娠中期的小鼠中存在性别特异性的胎儿糖皮质激素暴露窗口。
