Dalkin A C, Knight C D, Shupnik M A, Haisenleder D J, Aloi J, Kirk S E, Yasin M, Marshall J C
Department of Internal Medicine, University of Virginia Health Sciences Center, Charlottesville 22908.
Endocrinology. 1993 Mar;132(3):1297-304. doi: 10.1210/endo.132.3.7679976.
After ovariectomy (ovx), FSH beta mRNA levels and serum FSH increase 2- to 3-fold within 12 h, and this persists in the presence of a GnRH antagonist. As a fall in plasma estradiol and progesterone appears to regulate FSH beta via increased GnRH secretion, it is thought that the acute (by 2 h) changes in FSH beta mRNA after ovx reflect falling levels of plasma inhibin. The current study addressed the following questions. 1) Does a reduction of circulating inhibin (via passive immunoneutralization or gonadectomy) increase FSH beta mRNA levels? 2) If so, are the acute increases in FSH beta mRNA associated with changes in the transcription rate? Adult male and female rats received 0.5 ml antiinhibin antiserum, iv, and were killed 2 or 12 h later. A second group of rats was gonadectomized; some received a GnRH antagonist and were killed at various intervals between 2 h and 7 days later. In adult males, no change in gonadotropin mRNA levels was observed after either addition of inhibin antiserum or removal of the testes. In contrast, in adult female rats, both ovx and inhibin antiserum increased FSH beta mRNA levels (2-fold) within 2 h, and a similar increase occurred in the presence of a GnRH antagonist. To determine if the increase in FSH beta resulted from increased mRNA synthesis, adult female rats were ovx, and half received a GnRH antagonist. Animals were killed 2 or 12 h later, and transcription rates were measured by nuclear run-off assay in pituitaries pooled from three rats. The transcription rate of the alpha-subunit, although not altered by ovx, was decreased in animals receiving the GnRH antagonist. Transcription of the LH beta gene was increased within 2 h after ovx, a change that was abolished by the GnRH antagonist. mRNA concentrations of either alpha or LH beta do not increase acutely after ovx, suggesting that GnRH regulates alpha and LH beta gene transcription and 12 h or more of mRNA synthesis are required to increase cytoplasmic concentrations. The FSH beta gene transcription rate was unchanged in both ovx and GnRH antagonist-treated animals, but serum FSH increased at 12 h. These data indicate that the rapid GnRH-independent increase in FSH beta mRNA levels seen immediately after ovx is not associated with altered mRNA synthesis and suggest that inhibin may also regulate FSH beta gene expression through nontranscriptional mechanisms.
卵巢切除术后(ovx),促卵泡激素β亚基(FSHβ)mRNA水平和血清促卵泡激素(FSH)在12小时内升高2至3倍,且在存在促性腺激素释放激素(GnRH)拮抗剂的情况下这种升高持续存在。由于血浆雌二醇和孕酮的下降似乎通过增加GnRH分泌来调节FSHβ,因此认为ovx后FSHβmRNA的急性(2小时内)变化反映了血浆抑制素水平的下降。本研究探讨了以下问题。1)循环抑制素的减少(通过被动免疫中和或性腺切除术)是否会增加FSHβmRNA水平?2)如果是这样,FSHβmRNA的急性增加是否与转录速率的变化有关?成年雄性和雌性大鼠静脉注射0.5 ml抗抑制素抗血清,并在2或12小时后处死。第二组大鼠进行性腺切除术;一些大鼠接受GnRH拮抗剂,并在2小时至7天后的不同时间点处死。在成年雄性大鼠中,添加抑制素抗血清或切除睾丸后,促性腺激素mRNA水平均未观察到变化。相反,在成年雌性大鼠中,ovx和抑制素抗血清均在2小时内使FSHβmRNA水平升高(2倍),在存在GnRH拮抗剂的情况下也出现类似升高。为了确定FSHβ的增加是否源于mRNA合成增加,成年雌性大鼠进行ovx,其中一半接受GnRH拮抗剂。动物在2或12小时后处死,通过核转录分析测量从三只大鼠的垂体中提取的转录速率。α亚基的转录速率虽然不受ovx影响,但在接受GnRH拮抗剂的动物中降低。促黄体生成素β亚基(LHβ)基因的转录在ovx后2小时内增加,这种变化被GnRH拮抗剂消除。ovx后α或LHβ的mRNA浓度均未急性增加,这表明GnRH调节α和LHβ基因转录,并且需要mRNA合成12小时或更长时间才能增加细胞质浓度。在ovx和GnRH拮抗剂处理的动物中,FSHβ基因转录速率均未改变,但血清FSH在12小时时升高。这些数据表明,ovx后立即出现的与GnRH无关的FSHβmRNA水平的快速升高与mRNA合成改变无关,并提示抑制素也可能通过非转录机制调节FSHβ基因表达。
