Clarke I J
Prince Henry's Institute of Medical Research, Clayton, Victoria, Australia.
J Endocrinol. 1995 May;145(2):271-82. doi: 10.1677/joe.0.1450271.
Experiments were performed to test the hypothesis that there is a negative feedback 'clamp' of ovarian hormones on the hypothalamus and pituitary gland during the follicular phase of the oestrous cycle that limits the secretion of GnRH and LH. GnRH secretion was monitored by sampling the hypophysial portal blood of ewes during the luteal phase of the oestrous cycle and either 24 h or 48 h after the induction of luteolysis by the injection of cloprostenol, a prostaglandin analogue. There was an increase in GnRH pulse frequency in the transition from the luteal to the follicular phase of the cycle. A reduction in the amplitude of GnRH pulses did not occur until 48 h after cloprostenol, suggestive of negative feedback at the level of the hypothalamus that is more profound in the latter part of the follicular phase. The responsivity of the pituitary gland to GnRH was monitored in ewes during the luteal phase of the oestrous cycle and 24 h or 48 h after cloprostenol. Injections of 250 ng or 1000 ng GnRH were given (i.v.) to ewes that had been anaesthetised to suppress endogenous secretion of GnRH and LH. Using the lower dose, the responses 48 h after cloprostenol were not significantly different from those in the luteal phase. With the higher dose of GnRH, a significant (P < 0.05) increase in mean responsivity was seen 48 h after cloprostenol. There was, however, a marked variation in response, with some ewes showing profound increases in LH secretion in response to GnRH and others showing responses that were similar to those obtained during the luteal phase of the cycle. These data are interpreted to mean that the secretion of LH is 'clamped' during the follicular phase of the oestrous cycle and the 'clamp' is only released near the time of the preovulatory LH surge. To test whether or not a rise in GnRH input to the pituitary gland could over-ride the 'clamp' on the pituitary secretion of LH in the late follicular phase of the cycle, sheep were treated 40 h after cloprostenol with either a bolus injection of 500 ng GnRH or four pulses of 125 ng GnRH given at 10-min intervals. These treatments caused small elevations in LH secretion but did not always cause preovulatory LH surges. In some cases, a small rise in LH secretion was induced by GnRH treatments and levels of LH in plasma returned to baseline with the preovulatory LH surge occurring a few hours later.(ABSTRACT TRUNCATED AT 400 WORDS)
在发情周期的卵泡期,卵巢激素对下丘脑和垂体存在负反馈“钳制”,限制促性腺激素释放激素(GnRH)和促黄体生成素(LH)的分泌。通过在发情周期的黄体期以及注射氯前列醇(一种前列腺素类似物)诱导黄体溶解后24小时或48小时采集母羊垂体门脉血样,监测GnRH的分泌。在从黄体期向卵泡期转变时,GnRH脉冲频率增加。直到注射氯前列醇后48小时,GnRH脉冲幅度才降低,这表明下丘脑水平存在负反馈,且在卵泡期后期更为显著。在发情周期的黄体期以及注射氯前列醇后24小时或48小时,监测母羊垂体对GnRH的反应性。对已麻醉以抑制GnRH和LH内源性分泌的母羊静脉注射250纳克或1000纳克GnRH。使用较低剂量时,注射氯前列醇后48小时的反应与黄体期无显著差异。使用较高剂量的GnRH时,注射氯前列醇后48小时平均反应性显著(P<0.05)增加。然而,反应存在明显差异,一些母羊对GnRH的反应是LH分泌大幅增加,而另一些母羊的反应与发情周期黄体期的反应相似。这些数据被解释为意味着在发情周期的卵泡期LH分泌受到“钳制”,且“钳制”仅在排卵前LH峰出现时才解除。为了测试在周期卵泡期后期增加垂体的GnRH输入是否能克服对垂体LH分泌的“钳制”,在注射氯前列醇40小时后,对绵羊进行以下处理:一次推注500纳克GnRH或每隔10分钟注射4次125纳克GnRH。这些处理导致LH分泌略有升高,但并不总是引起排卵前LH峰。在某些情况下,GnRH处理诱导LH分泌略有升高,血浆中LH水平恢复到基线,排卵前LH峰在数小时后出现。(摘要截短至400字)
