Waddell B J, Benediktsson R, Seckl J R
Department of Medicine, University of Edinburgh, Western General Hospital, United Kingdom.
Endocrinology. 1996 Dec;137(12):5386-91. doi: 10.1210/endo.137.12.8940361.
The corpus luteum (CL) is the major source of progesterone during rat pregnancy, and its regression precedes and is essential for parturition. Recent studies show that luteal regression in the rat can be blocked by the administration of synthetic glucocorticoids, yet endogenous glucocorticoids are maximal at the time of normal luteal regression in pregnancy. This suggests that endogenous glucocorticoid may be inactivated locally within the CL, presumably via the enzyme 11beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD-2), which is known to regulate glucocorticoid access to receptors in other target tissues. This possibility was examined in the present study by measurement of 11beta-HSD-2 messenger RNA (mRNA) expression and bioactivity in rat CL over the second half of pregnancy, thus covering periods of maximal and minimal progesterone secretion. 11beta-HSD-2 bioactivity was measured in luteal homogenates obtained from rats on days 11, 16, 19, and 22 of pregnancy (term = day 23). Bioactivity was measurable in CL at each stage of pregnancy, with an apparent Km for corticosterone of approximately 100 nM. Enzyme activity was lowest on day 11 (maximum velocity, 1.0 +/- 0.6 pmol/min x mg protein), increased more than 5-fold by day 16 (6.2 +/- 0.5), then increased by an additional 4-fold by day 19 (24.3 +/- 4.3), and this high level of activity was maintained to day 22 (26.5 +/- 5.2). In kidney, the apparent Km for corticosterone was lower than that in CL, but remained unchanged throughout pregnancy (overall mean, 28.9 +/- 1.9 nM) as did the maximum velocity (overall mean, 25.4 +/- 1.3 pmol/min x mg protein). Consistent with the pattern of bioactivity in CL, mRNA for 11beta-HSD-2 was not detectable in CL by Northern analysis on either day 11 or day 16, but was clearly evident on days 19 and 22. In situ hybridization also revealed a substantial up-regulation of 11beta-HSD-2 expression specifically within the CL on days 19 and 22, whereas glucocorticoid receptor mRNA expression was consistent across all stages. In contrast, there was no detectable mRNA expression in CL for either 11beta-HSD-1 or the mineralocorticoid receptor at any stage. These data show that a marked induction of 11beta-HSD-2 mRNA expression and bioactivity occurs within the CL late in rat pregnancy and thus suggest that local inactivation of endogenous glucocorticoids facilitates luteal regression.
黄体(CL)是大鼠孕期孕酮的主要来源,其退化先于分娩且对分娩至关重要。最近的研究表明,给予合成糖皮质激素可阻断大鼠的黄体退化,然而孕期正常黄体退化时内源性糖皮质激素水平最高。这表明内源性糖皮质激素可能在黄体局部被灭活,推测是通过2型11β-羟基类固醇脱氢酶(11β-HSD-2),已知该酶可调节糖皮质激素与其他靶组织中受体的结合。本研究通过测量大鼠孕期后半段黄体中11β-HSD-2信使核糖核酸(mRNA)的表达及生物活性来检验这一可能性,从而涵盖孕酮分泌最高和最低的时期。在妊娠第11、16、19和22天(足月为第23天)从大鼠获取黄体匀浆,测量11β-HSD-2的生物活性。在孕期的每个阶段黄体中均可检测到生物活性,皮质酮的表观米氏常数(Km)约为100 nM。酶活性在第11天最低(最大反应速度,1.0±0.6 pmol/分钟×毫克蛋白),到第16天增加超过5倍(6.2±0.5),然后到第19天又增加4倍(24.3±4.3),这种高活性水平维持到第22天(26.5±5.2)。在肾脏中,皮质酮的表观Km低于黄体中的,但在整个孕期保持不变(总体平均值,28.9±1.9 nM),最大反应速度也是如此(总体平均值,25.4±1.3 pmol/分钟×毫克蛋白)。与黄体中的生物活性模式一致,在第11天或第16天通过Northern印迹分析在黄体中均未检测到11β-HSD-2的mRNA,但在第19天和第22天明显可见。原位杂交也显示在第19天和第22天黄体中11β-HSD-2表达显著上调,而糖皮质激素受体mRNA表达在所有阶段均保持一致。相比之下,在任何阶段黄体中均未检测到11β-HSD-1或盐皮质激素受体的mRNA表达。这些数据表明,在大鼠孕期后期黄体中发生了11β-HSD-2 mRNA表达和生物活性的显著诱导,因此提示内源性糖皮质激素的局部灭活促进了黄体退化。
