The relationship between parthenogenetic embryonic development and cumulus cell-oocyte intercellular coupling during oocyte meiotic maturation

Intercellular coupling between cumulus cells and oocytes persists after oocyte meiotic maturation has been initiated. The experiments described here focus on the relationship between oocyte-cumulus cell intercellular coupling during maturation and the subsequent embryonic development of spontaneous mouse parthenotes. Several lines of evidence suggest that this coupling during oocyte maturation is required for the acquisition of the capacity for spontaneous mouse parthenotes to develop embryologically. First, the period of time that LT/Sv oocytes remained coupled to cumulus cells during oocyte maturation in vivo corresponded to that required for the acquisition of the capacity for parthenogenetic embryonic development. Second, the longer that cumulus cells were present during Fpontaneous oocyte maturation in vitro, the higher was the percentageofova undergoing subsequent parthenogenetic development. Third, cumulus cell-free oocytes cocultured with cumulus cell-enclosed oocytes during the maturation period in vitro did not develop embryologically. Fourth, intercellular coupling between cumulus cells and oocytes persisted throughout the oocyte maturation period in vitro. Fifth, incubation of oocyte-cumulus cell complexes in medium containing follicle-stimulating hormone (FSH) promoted uncoupling and decreased the percentage of ova undergoing parthenogenetic development. Thus, cell-to-cell communication, mediated via the intercellular coupling pathway between cumulus cells and oocytes, plays an important role during oocyte maturation and relates to subsequent preimplantation development.     

Lack of functional estrogen receptor beta gene disrupts pubertal male sexual behavior

The estrogen receptor-beta (ERbeta) mediates estrogen action in the female gonads, reproductive tract, and central nervous system. In addition, in rats and mice, gonadotropin-releasing hormone (GnRH-I) neurons coexpress ERbeta. Here we asked if ERbeta plays a role in the onset of puberty and in hypothalamic-pituitary-gonadal (HPG) axis function in male mice. We examined mating behavior, testosterone concentrations, steroid negative feedback on gonadotropins, and GnRH-I function in male ERbeta knockout (ERbetaKO) and wild-type (WT) mice. Peripubertal ERbetaKO males displayed their first ejaculation at a significantly older age than WT littermates. Castrated, adult ERbetaKO mice had significantly higher plasma luteinizing hormone (LH) than WT counterparts. Estradiol (E2) treatment reduced LH and follicle stimulating hormone (FSH) concentrations to an equivalent degree in castrates of both genotypes. In three different measures of the adult GnRH-I system, no genotypic differences were observed. These data show that ERbeta plays an important role in the timing of male sexual behavior at puberty, but does not appear to be involved in adult HPG axis functioning. Furthermore, our data suggest that a primary role of ERbeta may be to regulate ejaculatory behavior.     

Ovarian surface epithelium receptors during pregnancy and estrus cycle of rats with emphasis on steroids and gonadotropin fluctuation

The present study is designed to demonstrate the ovarian surface epithelial cells’ (OSE) estrogen receptor α (ERα) and progesterone receptor (PR) during pregnancy and estrous cycle in rat. Moreover, determination of the levels of plasma progesterone, estradiol, FSH and LH was also made. The levels of plasma progesterone, estradiol, FSH and LH concentrations were determined on days 7 (n = 5), 14 (n = 5), and 21 (n = 5) of pregnancy in three groups of rats and during the estrous cycle (n = 5) using an ELISA kit. Immunohistochemical method for PR and ERα expressions was also made on the ovary. During pregnancy, FSH and LH remained low except at term when LH levels began to increase from 16 ng/ml to 47 ng/ml. Progesterone levels significantly exceeded estradiol values in all pregnant rats with a peak value of 202 ng/ml on day 14. Elevated progesterone levels were associated negatively with LH and estradiol levels during pregnancy. The levels of estradiol surged significantly on day 21. Immunohistochemistry of the ovary showed low levels of OSE cells staining positive for ERα expression. ERα positive cells were absent on day 7 and 14 of pregnancy, only day 21 recorded a very low percentage of immunostaining (0.5%) within the nuclei of OSE cells. On the contrary, immunostaining of PR was not observed within the nuclei of OSE cells in all groups of study. In conclusion, these results may suggest that the progesterone effect during pregnancy seems to be overriding the positive effect of estrogens on OSE cells. High progesterone levels may have a direct negative effect on gonadotropin production and thereby it might inhibit events leading to both follicular development and OSE proliferation. Understanding the factors affecting OSE proliferation may help elucidating the mechanism(s) of assisted diseases such as ovarian cancer.Keyword: OSE pregnancy rat steroid receptors gonadotropins     

The acceleration of reproductive aging in Nrg1flox/flox;Cyp19‐Cre female mice

Irregular menstrual cycles, reduced responses to exogenous hormonal treatments, and altered endocrine profiles (high FSH/high LH/low AMH) are observed in women with increasing age before menopause. In this study, because the granulosa cell‐specific Nrg1 knockout mice (gcNrg1KO) presented ovarian and endocrine phenotypes similar to older women, we sought to understand the mechanisms of ovarian aging and to develop a new strategy for improving fertility in older women prior to menopause. In the ovary of 6‐month‐old gcNrg1KO mice, follicular development was blocked in bilayer secondary follicles and heterogeneous cells accumulated in ovarian stroma. The heterogeneous cells in ovarian stroma were distinguished as two different types: (i) the LH receptor‐positive endocrine cells and (ii) actin‐rich fibrotic cells expressing collagen. Both the endocrine and fibrotic cells disappeared following long‐term treatment with a GnRH antagonist, indicating that the high levels of serum LH induced the survival of both cell types and the abnormal endocrine profile to reduce fertility. Moreover, follicular development to the antral stages was observed with reduced LH and the disappearance of the abnormal stromal cells. Mice treated with the GnRH antagonist regained normal, recurrent estrous cycles and continuously delivered pups for at least for 3 months. We conclude that endocrine and matrix alternations occur within the ovarian stroma with increasing age and that abolishing these alternations resets the cyclical release of LH. Thus, GnRH antagonist treatments might provide a new, noninvasive strategy for improving fertility in a subset of aging women before menopause.     

Transfemoral catheterization of the cavernous sinus outflow with comparison of “central” and “peripheral” gonadotropin patterns in bonnet monkeys

Concentrations of follicle stimulating hormone (FSH) and luteinizing hormone (LH) in central (C) samples obtained by transfemorally catheterizing the inferior petrosal sinus of female bonnet monkeys were compared with those in peripheral (P) samples obtained simultaneously from the saphenous veins of two intact and two oophorectomized bonnet monkeys, before, during, and after luteinizing hormone releasing hormone (LHRH) stimulation. Significant differences between central and peripheral gonadotropin concentrations were detected intermittently in the resting state, and tended to be magnified by LHRH administration. In one animal in which LHRH was fortuitously administered during the course of a spontaneous LH surge, a C/P ratio for LH of 12.71, the maximum observed, was obtained. Spectral analysis exhibited periodicity for LH and, to a lesser extent, for FSH in the oophorectomized, but not in the intact, animals.     

Tissue specific compartmental analysis of gonadotropin stimulation of ovarian ornithine decarboxylase

Luteinizing hormone is known to stimulate the enzyme ornithine decarboxylase in the ovary. Highly purified human follicle stimulating hormone that is devoid of significant biologically active luteinizing hormone can also induce ornithine decarboxylase activity in intact immature rats with a time course of induction similar to that reported for luteinizing hormone. A maximum of 8–10-fold stimulation above controls was observed 4 h following intravenous administration of human follicle stimulating hormone. This stimulation followed a strict dose response relationship. Ovine luteinizing hormone and human chorionic gonadotropin always induced more ovarian ornithine decarboxylase activity than that achieved by maximally effective doses of follicle stimulating hormone. This could not be attributed solely to the ability of specific cell population to respond to the respective gonadotropins. Although granulosa cells contained little receptor for luteinizing hormone/human chorionic gonadotropin and the residual tissue contained little receptor for follicle stimulating hormone, each tissue responded to these gonadotropins in a manner suggestive of the mediation by one or more diffusable factors. A relationship between gonadotropin induced 3’5’-cyclic adenosine monophosphate (cyclic adenosine monophosphate) concentration and ornithine decarboxylase activity suggests that the mediation of gonadotropin stimulated ovarian ornithine decarboxylase is not solely through cyclic adenosine monophosphate, indicating the presence of other factors in the induction of gonadotropin increased ornithine decarboxylase activity.     

The effects of sex hormones,prolactin, and chorionic gonadotropin on pineal electrical activity in guinea pigs

Microelectrophoretic application of sex hormones onto pineal cells in guinea pigs has shown different responses in pregnant females as compared to males. In pregnant females estrone caused excitation in 74% of the cells tested, while progesterone and testosterone, prolactin, and HCG were inhibitory in a majority of the cells. In contrast, in males estrone caused excitation of only 19% but inhibition of 37%. A smaller percentage of cells was inhibited by progesterone, while the predominant response to testosterone was excitation. These results suggest that the pineal gland may be under a feedback control.This work was supported by the Volkswagenwerk-Stiftung, Grant I/35472.Visiting scientist supported by grant from the Deutsche Forschungsgemeinschaft and the Royal Society.     

Plasma gonadotropin,prolactin levels and hypothalamic tyrosine hydroxylase activity in rats during estrous cycle,after overiectomy and after blockade of catecholamine biosynthesis

Plasma gonadotropin, prolactin levels and hypothalamic tyrosine hydroxylase activity were evaluated at 0900, 1200 and 1700 h during diestrus, proestrus and estrus, ovariectomized and after systemic administration of reserpine or α-methyl p-tyrosine, which interfere with catecholamine biosynthesis, in rats. Gonadotropin and prolactin levels showed peak values during the afternoon of proestrus, while hypothalamic tyrosine hydroxylase activity was markedly lowered at 1200 on proestrus. Gonadotropin levels were slightly lowered whereas prolactin concentrations and hypothalamic tyrosine hydroxylase activity were significantly increased by reserpine. Depletion of hypothalamic dopamine by reserpine apparently resulted in significant elevation of prolactin levels which inturn induce tyrosine hydroxylase. Gonadotropin levels and hypothalamic tyrosine hydroxylase activity were significantly suppressed after the administration of α-methyl p-tyrosine. Prolactin levels, however, were elevated significantly. These results indicate that catecholamines are involved in the control of gonadotropin and prolactin release during estrous cycle and inhibition of catecholamines biosynthesis by α-methyl p-tyrosine could result in suppression of gonadotropin levels, whereas removal of tonic inhibition of hypothalamic dopamine by α-methyl-p-tyrosine elevate prolactin levels.     

Comparison of androgen biosynthesis in isolated leydig cells from rat and mouse testis: incubation and superfusion studies

Production of testosterone by highly purified Leydig cells prepared from rat and mouse testes is compared. Testosterone formation is improved to a higher degree in rat (2.7-fold) than in mouse (1.7-fold) cells by collagenase treatment of the testis compared with mechanical isolation. Mouse Leydig cells respond to exogenous stimuli (choriogonadotropin, dibutyryl cyclic AMP) with 2.4-fold higher testosterone secretion than rat cells. A 1.7-fold increased conversion of androgen precursors to testosterone by mouse compared with rat Leydig cells is demonstrated in static incubations as well as in steady-state superfusion experiments and can be derived from enhanced androstenedione reduction and a less inhibitory effect of progesterone on this process in mouse Leydig cells.