Ovarian steroidogenic responsiveness to exogenous gonadotropin stimulation in young and middle-aged female rats.

B. Chern, Y. -. Chen, L. Hong, P. Lapolt
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引用次数: 10

Abstract

Reproductive aging in the female rat is associated with gradual declines in LH secretion and ovarian progesterone (P) production. This study examined whether the influences of aging on P levels reflect decreased ovarian responsiveness to gonadotropin stimulation, as opposed to changes in gonadotropin release. Young and middle-aged regularly cyclic female rats received sodium pentobarbital to block endogenous proestrous luteinizing hormone (LH) surges, followed by administration of various doses of human chorionic gonadotropin (hCG). Similar treatments were performed in middle-aged acyclic persistent-estrous (PE) females. Injection of hCG resulted in equivalent plasma hCG levels in each treatment group. At the lowest hCG dose tested, a significant rise in plasma P levels was observed in middle-aged cyclic rats, but not in young cyclic or middle-aged PE females. This unexpected finding may reflect accelerated follicular development in middle-aged cyclic females, as suggested by a previous study. At the intermediate dose, young and middle-aged cyclic but not PE rats displayed significantly increased P in response to hCG. At the highest dose tested, all three groups of rats displayed increased P levels after hCG stimulation. However, P concentrations were significantly lower in middle-aged PE than regularly cyclic females. Northern and slot blot hybridization analyses revealed that ovarian mRNA levels for cytochrome P450 side-chain cleavage, the rate-limiting enzyme in P synthesis, were markedly reduced in PE rats following hCG stimulation. These findings indicate that ovarian responsiveness to gonadotropin stimulation is impaired in middle-aged PE, but not regularly cyclic rats, and suggest influences of cycle status on the biochemical and molecular mechanisms regulating ovarian steroid production. Furthermore, these findings reveal that attenuated P production in middle-aged proestrous rats is due to attenuated preovulatory LH surges, rather than decreased ovarian sensitivity to LH.
中青年雌性大鼠卵巢对外源性促性腺激素刺激的类固醇性反应。
雌性大鼠的生殖衰老与黄体生成素分泌和卵巢黄体酮(P)分泌的逐渐下降有关。本研究考察了衰老对P水平的影响是否反映了卵巢对促性腺激素刺激的反应性下降,而不是促性腺激素释放的变化。中青年定期循环雌性大鼠服用戊巴比妥钠阻断内源性黄体生成素(LH)激增,随后给予不同剂量的人绒毛膜促性腺激素(hCG)。对中年无循环持续性发情(PE)女性也进行了类似的治疗。注射hCG导致各组血浆hCG水平相等。在最低hCG剂量下,血浆P水平在中年循环大鼠中显著升高,而在年轻循环大鼠和中年PE雌性大鼠中没有明显升高。这一意想不到的发现可能反映了先前的研究表明,中年周期女性卵泡发育加快。在中等剂量下,青年和中年周期大鼠对hCG的反应显示P显著增加,而PE大鼠则没有。在测试的最高剂量下,所有三组大鼠在hCG刺激后均显示P水平升高。然而,P浓度在中年PE显著低于正常周期的女性。Northern杂交和槽杂交分析显示,hCG刺激后,PE大鼠卵巢细胞色素P450侧链切割mRNA水平显著降低。这些研究结果表明,卵巢对促性腺激素刺激的反应性在中年PE中受损,但正常周期的大鼠没有受损,并提示周期状态对调节卵巢类固醇产生的生化和分子机制的影响。此外,这些研究结果表明,中年发情大鼠的P生成减弱是由于排卵前LH激增减弱,而不是卵巢对LH的敏感性降低。
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