Peluso J J, Delidow B C, Lynch J, White B A
Department of Obstetrics and Gynecology, University of Connecticut Health Center, Farmington 06032.
Endocrinology. 1991 Jan;128(1):191-6. doi: 10.1210/endo-128-1-191.
The present study examined the effects of FSH and insulin (IN) on 17 beta-estradiol (E2) secretion and granulosa cell proliferation. For these studies, immature rat ovaries were maintained in perifusion culture and continuously exposed to FSH (0-800 ng RP-1 eq/ml) and /or IN (0.2 U/ml). At specific times, the ovaries were removed from perifusion, and the perifusate was assayed for E2 by RIA. The ovaries were then incubated with [3H]thymidine ([3H]T) in order to estimate granulosa cel mitotic activity. FSH increased E2 secretion in a dose-dependent manner (P less than 0.05), but did not enhance [3H]T incorporation (P greater than 0.05) after 48 h of perifusion. Conversely, IN increased [3H]T incorporation (P less than 0.05) without stimulating E2 secretion (P greater than 0.05) after 48 h of perifusion. FSH alone or in combination with IN stimulated [3H]T incorporation at 24 h of perifusion compared to both zero hour control (P less than 0.05) and IN treatments (P less than 0.05). The inability of FSH to stimulate [3H]T incorporation after 48 h did not appear to be due to increased E2, since IN stimulated [3H]T incorporation in the presence of 100 ng E2/ml. Further, continuous exposure to FSH was required to maintain E2 secretion, demonstrating that after 24 h, FSH loses its capacity to stimulate granulosa cell [3H]T incorporation, but not E2 secretion. Finally, when ovaries are pretreated with FSH for 48 h and then exposed to FSH and/or IN, [3H]T incorporation was stimulated, and E2 secretion inhibited. These data suggest that 1) initially, FSH acts to stimulate mitosis then promotes granulosa cell E2 secretion; and 2) once granulosa cells begin to secrete E2 they are still capable of mitosis, but their mitotic activity is no longer directed by FSH.
本研究检测了促卵泡激素(FSH)和胰岛素(IN)对17β-雌二醇(E2)分泌及颗粒细胞增殖的影响。在这些研究中,将未成熟大鼠的卵巢置于灌流培养中,并持续暴露于FSH(0 - 800 ng RP - 1等效物/毫升)和/或IN(0.2单位/毫升)。在特定时间,将卵巢从灌流中取出,通过放射免疫分析法(RIA)检测灌流液中的E2。然后将卵巢与[3H]胸腺嘧啶核苷([3H]T)一起孵育,以评估颗粒细胞的有丝分裂活性。灌流48小时后,FSH以剂量依赖方式增加E2分泌(P < 0.05),但未增强[3H]T掺入(P > 0.05)。相反,灌流48小时后,IN增加了[3H]T掺入(P < 0.05),但未刺激E2分泌(P > 0.05)。与零小时对照(P < 0.05)和IN处理组(P < 0.05)相比,单独使用FSH或FSH与IN联合使用在灌流24小时时刺激了[3H]T掺入。48小时后FSH无法刺激[3H]T掺入似乎并非由于E2增加,因为IN在存在100 ng E2/毫升的情况下刺激了[3H]T掺入。此外,需要持续暴露于FSH以维持E2分泌,这表明在24小时后,FSH失去了刺激颗粒细胞[3H]T掺入的能力,但并未失去刺激E2分泌的能力。最后,当卵巢先用FSH预处理48小时,然后再暴露于FSH和/或IN时,[3H]T掺入受到刺激,而E2分泌受到抑制。这些数据表明:1)最初,FSH作用于刺激有丝分裂,然后促进颗粒细胞E2分泌;2)一旦颗粒细胞开始分泌E2,它们仍有能力进行有丝分裂,但其有丝分裂活性不再受FSH指导。
