Braems G A, Han V K, Challis J R
Department of Physiology, Faculty of Medicine, University of Toronto, Toronto, Ontario, Canada.
J Endocrinol. 1998 Nov;159(2):257-64. doi: 10.1677/joe.0.1590257.
Hypoxemia represents a major stress for the fetus, and is associated with alterations and adaptations in cardiovascular, metabolic and endocrine responses, which in turn may affect tissue growth and differentiation. To determine the effects of hypoxemia on fetal adrenal activity and growth, we subjected sheep fetuses at days 126-130 and 134-136 (term 145 days) to reduced PaO2 by reducing the maternal fraction of oxygen for 48 h (mean reduction of 6.8 mmHg), without change in arterial pH or PaCO2. This stimulus resulted in similar increases in the plasma immunoreactiveACTH response at both ages. Among adrenal steroids, plasma cortisol (C21Delta4) rose in both groups of animals, but plasma androstenedione (C19Delta4) declined marginally, resulting in a pronounced increase in the cortisol:androstenedione ratio in the plasma that was greater and more sustained in the older fetuses. In the younger fetuses, after 48 h of hypoxemia, there were no significant changes in mRNAs encoding steroidogenic enzymes in the fetal adrenal gland. However, in the older fetuses, hypoxemia resulted in significantly increased levels of mRNAs encoding P450scc, P450C21 and 3beta-hydroxysteroid dehydrogenase, but not for P450C17, in the fetal adrenal gland. Levels of IGF-II mRNA in the fetal adrenal gland fell in both groups of fetuses, and this response was greater at the later gestational age. We conclude that sustained hypoxemia is a potent stimulus which activates adrenal steroidogenesis in the late gestation fetal sheep. The resultant increase in cortisol synthesis is associated with decreased expression of adrenal IGF-II mRNA. We speculate that this relationship might influence patterns of fetal organ growth and differentiative function in response to fetal stress such as hypoxemia.
低氧血症是胎儿面临的主要应激源,与心血管、代谢和内分泌反应的改变及适应相关,而这些反应反过来可能影响组织生长和分化。为了确定低氧血症对胎儿肾上腺活动和生长的影响,我们在妊娠126 - 130天和134 - 136天(足月为145天)的绵羊胎儿身上进行实验,通过降低母体氧气比例48小时(平均降低6.8 mmHg)来降低胎儿的动脉血氧分压,同时保持动脉血pH值和二氧化碳分压不变。这种刺激在两个年龄段都导致血浆免疫反应性促肾上腺皮质激素(ACTH)反应出现类似增加。在肾上腺类固醇中,两组动物的血浆皮质醇(C21Delta4)均升高,但血浆雄烯二酮(C19Delta4)略有下降,导致血浆中皮质醇与雄烯二酮的比值显著增加,且在较大胎儿中增加幅度更大且持续时间更长。在较年轻的胎儿中,低氧血症48小时后,胎儿肾上腺中编码类固醇生成酶的mRNA没有显著变化。然而,在较大的胎儿中,低氧血症导致胎儿肾上腺中编码胆固醇侧链裂解酶(P450scc)、21 - 羟化酶(P450C21)和3β - 羟基类固醇脱氢酶的mRNA水平显著升高,但编码17α - 羟化酶(P450C17)的mRNA水平没有变化。两组胎儿肾上腺中胰岛素样生长因子II(IGF - II)mRNA水平均下降,且在妊娠后期这种反应更明显。我们得出结论,持续低氧血症是一种强大的刺激因素,可激活妊娠晚期绵羊胎儿的肾上腺类固醇生成。由此导致的皮质醇合成增加与肾上腺IGF - II mRNA表达降低有关。我们推测这种关系可能会影响胎儿器官生长模式和分化功能,以应对诸如低氧血症等胎儿应激情况。
