Changes in rabbit corpus luteum progesterone secretion and cellular morphology following unilateral luteectomy or ovariectomy.

The objective of this study was to determine whether removal of corpora lutea (CL) from one ovary (unilateral luteectomy; ULL) or removal of the entire ovary (unilateral ovariectomy; ULO) of pseudopregnant rabbits would cause compensatory growth and progesterone production by the contralateral ovary. Pseudopregnancy was induced in rabbits with hCG (Day 0). On the first day of pseudopregnancy, one group of rabbits received a sham operation (controls), another group underwent ULL, and a third group underwent ULO. On Day 11 of pseudopregnancy, each rabbit underwent laparotomy, the ovarian artery and vein were cannulated, and the ovary(ies) was removed and perfused in vitro for 6 h. The mean CL weight increased by 33% in the ULL group and by 28% in the ULO group as compared to sham-operated controls. Peripheral estradiol and progesterone levels in sham-operated control, ULL, and ULO groups were similar. Ovarian venous estradiol levels were similar in the control and ULL groups, but were significantly increased in the remaining ovary of the ULO group. Both ovarian venous progesterone in vivo and progesterone secretion in vitro increased significantly in contralateral ovaries from ULL and ULO rabbits as compared to sham-operated controls. Progesterone secretion by ovaries perfused in vitro increased significantly in the contralateral ovary of the ULL and ULO groups. Mean number of luteal cells per CL increased significantly in the ULL group, but not in the ULO group. In contrast, luteal cell volume increased significantly in the ULO, but not in the ULL group. The stimuli responsible for increased progesterone production following ULL and ULO result in morphological changes in the remaining CL.(ABSTRACT TRUNCATED AT 250 WORDS)

Epidermal growth factor inhibits follicular response to human chorionic gonadotropin: possible role of cell to cell communication in the response to gonadotropin.

Epidermal growth factor (EGF) affects follicular steroidogenesis and expression of gonadotropin receptors. The effects of EGF on hCG-induced estradiol and progesterone secretion and ovulation were examined in the in vitro perfused rabbit ovary. We also examined the effects of EGF on hCG-induced progesterone secretion by isolated granulosa cells. In addition, distribution of hCG within the follicle was probed by immunohistochemical means 30 min after its administration to the in vitro perfused ovary. EGF significantly (P less than 0.05) reduced hCG-induced secretion of estradiol (control, 117 +/- 12 pg/min.follicle; 10 ng/ml EGF, 55 +/- 10) and progesterone (control, 18.2 +/- 1.2 ng/min.follicle; 10 ng/ml EGF, 11.9 +/- 0.8) by the perfused ovary. In contrast, EGF did not inhibit hCG-induced progesterone secretion by isolated granulosa cells. Ovulatory efficiency (number of ovulated ova per number of mature follicles x 100) when EGF was given 30 min before hCG was reduced dose-dependently from 58.2% with no EGF to 8.3% with 10 ng/ml EGF (P less than 0.001). Ovulation was not inhibited by EGF when it was given 30 min after hCG. Distribution of hCG in the preovulatory follicle was confined to the basement membrane, thecal cell layer, and a small fraction of the outer granulosa cell layer. These observations suggest that gonadotropin stimulates the follicle through the release of a secondary signal(s) from ligand-bound granulosa cells near the follicle wall to unexposed cells of the inner avascular area. EGF may inhibit the follicular response to hCG by attenuation of this cell to cell communication.

Estradiol regulation of the rabbit corpus luteum: in vivo and in vitro studies.

The objective of this study was to determine whether estradiol has a direct effect on progesterone secretion by the rabbit corpus luteum. Empty or estradiol-filled Silastic capsules were implanted sc into pseudopregnant rabbits (day 0). Ten days later (day 10), peripheral blood was obtained via the marginal ear vein, and Silastic capsules were removed. Twenty-four hours after capsule removal (day 11), blood samples were obtained and ovaries removed for in vitro perfusion. The artery and vein of each ovary were individually cannulated, and ovaries were perfused in vitro for 6 h. Mean progesterone secretion rates were determined from perfusate samples taken every 30 min. On day 10, serum progesterone concentrations were similar in control and estradiol-treated animals. On day 11, 24 h after withdrawal of Silastic capsules, serum progesterone concentration in the estradiol-treated rabbits decreased significantly compared to controls. The withdrawal of estradiol also significantly reduced the secretion of progesterone by in vitro perfused ovaries in estradiol-withdrawn rabbits compared to empty capsule controls. Addition of estradiol or 25-hydroxycholesterol (25-OH) to the perfusion medium significantly increased progesterone secretion by ovaries from estradiol-withdrawn rabbits but not to control values. In contrast, a combination of estradiol plus 25-OH restored progesterone secretion to control levels. Although estradiol together with 25-OH stimulated progesterone secretion 24 h after estradiol withdrawal, progesterone secretion in vitro was unaffected 48 h after capsule removal, whereas pregnenolone stimulated secretion 5-fold. These results demonstrate that estradiol has a direct and acute stimulatory effect on progesterone secretion by the rabbit corpus luteum.

Time-related effects of gonadotropin-releasing hormone analog treatment in experimentally induced endometriosis in the rat.

The purpose of our study was to characterize the time-dependent effect of gonadotropin-releasing hormone analog (GnRH-a) therapy on endometriosis explant using the rat model. Endometriosis was induced in 60 mature female rats. One group of treated animals as well as controls were killed at 2, 4, 6 and 8 weeks of treatment at which time the explant was evaluated. Explant volume was significantly reduced in all treatment groups, an effect that was more significant in animals treated for greater than or equal to 4 weeks compared with those treated for only 2 weeks. We conclude that GnRH-a treatment caused gradual regression of endometrial explant that was effectively complete by 4 weeks of treatment. We further conclude that this experimental model may be useful in the evaluation of other modes of endometriosis therapy.

Endocrine and clinical results in administering lisuride for inhibiting lactation.

Lisuride is a potent direct Dopamine agonist and has an effective Prolactin-lowering effect. 64 post-partum women have been divided in two groups: 44 patients with personal reasons to inhibit lactation and 20 patients normally breast-feeding, as control group. The inhibition of lactation has been carried out with Lisuride using 3 X 0.2 mg daily over 10 days, starting within 24-28 hours from delivery. In all the patients we have dosed Prolactin (PRL), LH, FSH, 17-beta Estradiol (E2) in basal conditions (1st day after delivery) and on the 5th and 10th day of assumption of the drug. At the 10th day-control the inhibition of lactation, without symptoms, has been obtained in 39 out of 44 patients treated (86.3%). It is clear how, in comparison with the control group, Lisuride leads to a rapid fall of PRL and seems to promote an earlier restoration of hypothalamus-pituitary-ovary axis, as is shown by the behaviour of gonadotropin and estradiol.