Corpus luteum function in the guinea pig: effect of pgf2 alpha and inhibitors of prostaglandin and progesterone biosynthesis.

Exogenous PGF_2α failed to consistently alter estrous cycle length of the guinea pig. A wide range of dose levels were administered with varying frequency, at different stages of the estrous cycle, in different vehicles and by various routes. Massive doses of PGF_2α (5.0–10.0 mg) produced a significant (p<.05), although transient, lowering of plasma progesterone levels. Smaller doses were ineffectual. An i.p. injection of 25 mg of PGF_2α was toxic in four of five treated animals. It would appear that the intact guinea pig is extremely resistant to the luteolytic effects of parenterally administered PGF_2α.Estradiol-17β, administered s.c. on days 3 to 10 of the estrous cycle, significantly (p<.05) reduced corpus luteum diameter and plasma progesterone levels. Estrous cycle length was unaffected. Clomiphene, in the same experiment, caused premature vaginal opening in some treated animals, but corpus luteum size and plasma progesterone levels were unaffected and no ovulations occurred.The prolactin secretion inhibitor, CB-154, administered early in the estrous cycle, did not have any effect on estrous cycle length of the guinea pig alone or in combination with PGF_2α. The prostaglandin precursor, arachidonic acid, also failed to influence estrous cycle length when administered on days 8 and 9 of the cycle. Plasma progesterone levels remained unaltered.Oral administration of a prostaglandin synthetase inhibitor, (MK-715), caused a small, but non-significant (p>.05) prolongation of the estrous cycle. The progesterone biosynthesis inhibitors, aminoglutethimide and 6β-hydroxy-3α, 5α-cyclo-androstane-17-one did not effect estrous cycle length or plasma progesterone levels of the guinea pig.     

Effects of estrogens and progesterone on the catecholaminergic activity of the adrenal medulla in female rats

Some reports in the literature allow to suspect the existence of an effect of sexual steroids on the adrenal catecholamines. To test this possibility, we have examined the catecholaminergic activity in the adrenal medulla of normal cycling rats in three phases of estrous cycle and of ovariectomized (OVX) rats injected with pharmacological doses of estradiol (ES), 2-hydroxyestradiol (HE) and/or progesterone (P). Adrenomedullary content of norepinephrine (NE) was similar during the estrous cycle, while epinephrine (E) content was increased during diestrous. This increase was concomitant with an increased phenylethanolamine-N-methyltransferase (PNMT) activity. Moreover, the monoamine oxidase (MAO) activity was significantly increased during proestrous, while the catechol-O-methyltransferase (COMT) activity was significantly decreased during estrous. In addition to these observations, ovariectomy caused a significant reduction of the E/NE ratio and of COMT and MAO activities. Administration of ES to OVX rats increased the E content, the E/NE ratio and the COMT activity as compared to vehicle-treated OVX rats. Administration of P to OVX animals led also to a significant increase of the E/NE ratio and of the COMT activity but not of the E content, while the administration of this steroid to OVX rats previously treated with ES only increased the COMT activity. Finally, administration of HE caused non-significant changes in NE and E contents and in MAO, COMT and PNMT activities. We can conclude that sexual steroids seem to be able to modify the catecholamine metabolism in the adrenal medulla and, hence, they could alter the ability of this gland to store and release these amines.     

The effect of Escherichia coli endotoxin on luteal function in Holstein heifers

This study was undertaken to elucidate the possible role of endotcxin in mediating premature luteolysis in the well- documented phenomenon of short estrous cycles in postpartum dairy cows. Four groups of Holstein heifers (n = 4 to 6 each) received either intrauterine infusion of sterile culture medium (Group I); intrauterine infusion of Escherichia coli (E. coli ) endotoxin (5 mug/kg) in sterile culture medium (Group II); intrauterine administration of 10 ml of a 24-h culture of a strain of E. coli isolated from the uterus of a cow with metritis (approximately 10(9) colony forming units/ml; Group III); or intravenous administration of E. coli endotoxin (5 mug/kg; Group IV) on Day 7-9 of the estrous cycle. Blood samples were collected every 48 h during the pretreatment estrous cycle and up to the administration of the experimental treatment, thereafter 4-h samples were collected for 5 d. Sample collection was then performed every 48 h for the remainder of the treatment cycle and the post treatment cycle. Serum concentrations of progesterone and plasma concentrations of 15-keto-13, 14-dihydroprostaglandin F(2alpha) (PGFM) were determined by radionmmunoassay. Intrauterine infusion of endotoxin had no effect on the cycle length or on hormone concentrations, while infusion of viable E. coli organisms tended to shorten the estrous cycle. Intravenous administration of endotoxin produced a sharp increase in both progesterone and PGFM concentrations, followed by a transient decrease in progesterone concentrations. Cycle length remained unchanged. It was concluded that the intact endometrium prevents the uptake of endotoxin although pathogenic E. coli organisms may disrupt the endometrial integrity sufficiently to shorten the estrous cycle by premature luteolysis. It is postulated that intravenous administration of endotoxin influences luteal function by the activation of the arachidonic acid cascade, by a direct effect on the corpus luteum, or via other mediators.     

Effects of D2 receptor agonist and antagonist on behavior of intact and ovariectomized rats

The involvement of D2 dopaminergic receptors in behavioral responses during ovary cycle was assessed in adult intact female rats and ovariectomized (OVX) female rats. Quinperole (0.1 mg/kg), D2 receptor agonist and sulpiride (10.0 mg/kg), D2 receptor antagonist were injected chronically to adult intact and ovariectomized (OVX) female rats either separately or in combination with 17beta-estradiol (0.5 microg) within 14 days. Behavior of these animals was assessed in the "open field" test, whereas passive avoidance performance served as a model of learning. In intact rats, the passive avoidance performance was observed only in metestrous and diestrous. Chronic quinperole administration to intact females resulted in the appearance of the passive avoidance performance in proestrous and estrous, as distinct from the control animals. The passive avoidance performance was not reproduced in OVX rats. Quinperole per se or in combination with 17beta-estradiol completely restored the passive avoidance performance in OVX rats. Moreover, quinperole or sulpiride administration to OVX rats increased horizontal locomotor activity, exploratory behavior, and grooming behavior.     

Intrauterine infusion of prostaglandin E2 and subsequent luteal function in cattle.

The objective was to evaluate the effect of intrauterine infusion of prostaglandin E2 (PGE2) on luteal function in cattle. Heifers and cows were randomly assigned after two normal estrous cycles to either PGE2 or control treatment groups. Females in Treatment A were infused with 1 mg of PGE2 once daily into the uterine horn ipsilateral to the corpus luteum between days 7-10 of the estrous cycle with a 0.25 ml plastic semen straw and an artificial insemination pipette. Females in Treatment B were similarly infused with 1 mg of PGE2 once daily in 20 ml of a carrier vehicle via a catheter on days 10 and 11 of the estrous cycle. Control animals were infused with the carrier vehicle using either a semen straw (Treatment C) or via a catheter (Treatment D) on the same days of the estrous cycle. Blood samples were collected daily to monitor plasma progesterone concentrations during the treatment period. Females infused with PGE2 on days 7-10 of the estrous cycle returned to estrus in a mean of 23.5 days (range 22-25 days) and were similar (P > 0.05) to those infused on days 10 and 11 which returned to estrus in 23.5 days (range 22-25 days). Animals similarly infused with carrier vehicle on the same days of the estrous cycle returned to standing estrus in 20.2 days (range 17-23 days). Plasma progesterone concentrations indicated an extended period of elevated progesterone concentrations in PGE2-treated animals compared with control animals. These results indicate that short term administration of PGE2 early in the estrous cycle may result in extended luteal maintenance.     

Oxytocin secretion induced by osmotic stimulation in rats during the estrous cycle and after ovariectomy and hormone replacement therapy

Hyperosmolality is a potent stimulus for the secretion of oxytocin. Oxytocinergic neurons are modulated by estrogen and oxytocin secretion in rats varies according to the phase of the estrous cycle, with higher activity during proestrus. We investigated the oxytocin secretion induced by an osmotic stimulus (0.5 M NaCl) in female rats. Plasma oxytocin and the oxytocin contents in the neurohypophysis and the paraventricular and supraoptic nuclei were determined during the morning (8-9 h) and afternoon (17-18 h) of the estrous cycle and after ovariectomy followed or not by hormone replacement. Plasma oxytocin peaked in control animals during proestrus. Oxytocin content decreased in the paraventricular and supraoptic nuclei during proestrus and estrus compared to diestrus and increased in the neurohypophysis during proestrus morning. No significant difference was observed in the oxytocin content of the neurohypophysis, nuclei or plasma between ovariectomized animals and ovariectomized animals treated with estrogen or estrogen plus progesterone. Therefore, any ovarian factor other than estrogen or progesterone seems to play a direct or indirect role in the increase in oxytocin secretion. The osmotic stimulus caused an increase in plasma oxytocin throughout the estrous cycle. A reduction in oxytocin content during diestrus and an increase during proestrus were observed in the paraventricular nuclei. In ovariectomized animals, the treatment with estrogen potentiated the response of oxytocin to the osmotic stimulus, with the response being even stronger in the case of estrogen plus progesterone. In conclusion, the ovarian steroids estrogen plus progesterone could modulate the osmoreceptor mechanisms related to oxytocin secretion.     

Investigations on spermicidal activity in the sheep vagina.

This study was conducted to elucidate some of the effects of a synthetic progestagen and natural ovarian hormones on spermicidal activity in the sheep vagina. In the first experiment, parous ewes were treated for 17 days either intravaginally with medroxyprogesterone acetate (MAP) or subcutaneously with progesterone. They were inseminated artificially either on the last day of progestagen treatment or during estrus after progestagen withdrawal. Their vulvovaginal junctions were ligated to prevent the loss of sperm cells by drainage to the exterior. Untreated control ewes were inseminated during either estrus or the luteal phase of the estrous cycle. The ewes were killed 22 hr. after insemination, their vaginas flushed, and intact sperm cells and tailless sperm heads counted. In the second and third experiments, some of the ewes were bilaterally ovariectomized and inseminated several weeks later. Other ewes were ovariectomized and given subcutaneous injections of estradiol, progesterone, or both hormones.In the first experiment, most sperm cells were recovered intact from estrous or luteal phase control ewes. The intravaginal administration of MAP increased both the breakage of sperm cells into heads and tails and the disappearance of sperm cells. The spermicidal effects of MAP were just as great in ewes inseminated on the last day of treatment. as in those inseminated during the ensuing estrus; these results indicated that the peak estrogen secretion that occurs near the beginning of estrus was not necessary for the intensification of spermicidal activity.In the second experiment, ovariectomized ewes were compared to estrous and luteal phase ewes in regard to vaginal spermicidal activity. Sperm breakage and disappearance occurred least in estrous ewes, to a somewhat greater degree in luteal phase ewes, and to the greatest extent in ovariectomized ewes. The results suggested that endogenous ovarian hormones, particularly those in estrous ewes, suppress spermicidal mechanisms in the vagina.In the third experiment, the administration of estradiol and progesterone to ovariectomized ewes prevented the increase in sperm cell disappearance. Neither hormone alone prevented the increase.     

Sex hormone regulation of anti-bacterial activity in rat uterine secretions and apical release of anti-bacterial factor(s) by uterine epithelial cells in culture

In mature female rats, sex hormones regulate the reproductive (estrous) cycle to optimize mating and fertility. During the part of the estrous cycle when mating occurs, and when estrogen is the dominant sex hormone, the uterus is susceptible to infection with bacteria that can be deleterious for survival and fertility. The present study investigated whether sex hormones regulate innate immunity in the female reproductive tract by affecting the secretion of an anti-bacterial factor(s) in the rat uterus. Uterine fluids from intact rats at the proestrous stage of the estrous cycle significantly inhibited Staphylococcus aureus growth. When ovariectomized rats were treated with estradiol, anti-bacterial activity against both S. aureus and Escherichia coli increased in uterine secretions with hormone treatment. In contrast, rats injected with either progesterone and estradiol or progesterone alone displayed no bactericidal activity indicating that progesterone reversed the stimulatory effect of estradiol on anti-bacterial activity. In other studies, isolated uterine epithelial cells from intact animals were grown to confluence and high transepithelial resistance on cell inserts. Analysis of apical secretions indicated that a soluble factor(s) is released by polarized epithelial cells which inhibits bacterial growth. These results demonstrate that sex hormones influence the presence of a broad-spectrum bactericidal factor(s) in luminal secretions of the rat uterus. Further these studies suggest that epithelial cells which line the uterine lumen are a primary source of anti-bacterial activity.     

Effects of hyperadrenal states on luteinizing hormone in cattle

The effect of an induced hyperadrenal state on luteinizing hormone (LH) secretion and subsequent ovarian function was examined in both intact and adrenalectomized (ADRX) heifers. Treatments were begun on Day 2 or Day 16 of an estrous cycle in order to examine their effect on corpus luteum development or ovulation, respectively. In Experiment I, continuous intravenous infusion of ACTH (1.0 mg/24 h) to intact heifers decreased LH concentrations during the early phase of the cycle (Days 3-5). Treatment of ADRX heifers with hydrocortisone succinate (HS) (100 mg/24 h) did not appear to change mean LH concentrations, although da Rosa and Wagner (1981) have reported reduced plasma concentrations of progesterone at mid-cycle in these ACTH-treated intact heifers and HS-treated ADRX heifers. ACTH treatment of ADRX heifers had no effect on LH or progesterone. In the second study, there were similar frequencies of LH surges at the anticipated time of ovulation in all treatment groups. HS (100 mg/24 h) in ADRX heifers and ACTH (0.5 mg/24 h) in intact heifers was given continuously beginning on Day 16 of an estrous cycle. Although some animals in all groups exhibited LH surges, the ACTH-treated intact and HS-treated ADRX heifers failed to show a consistent subsequent increase in progesterone concentrations in plasma, suggesting a failure of luteal development. Although no difference was seen in baseline concentrations of LH, there was a greater difference between basal and overall mean LH concentrations in control groups than was observed in ACTH- or HS-treated animals. These induced hyperadrenal states resulted in depression of ovarian function as shown by decreased plasma progesterone during the luteal phase of the cycle. It is not known if other noncorticoid steroids from the adrenal cortex are necessary for a full expression of this effect.     

Endothelin-1 mediates prostaglandin F(2alpha)-induced luteal regression in the ewe

A diversified series of experiments was conducted to determine the potential role of endothelin-1 (ET-1) in ovine luteal function. Endothelin-1 inhibited basal and LH-stimulated progesterone production by dispersed ovine luteal cells during a 2-h incubation. This inhibition was removed when cells were preincubated with cyclo-D-Asp-Pro-D-Val-Leu-D-Trp (BQ123), a highly specific endothelin ET(A) receptor antagonist. Administration of a luteolytic dose of prostaglandin F(2alpha) (PGF(2alpha)) rapidly stimulated gene expression for ET-1 in ovine corpora lutea (CL) collected at midcycle. Intraluteal administration of a single dose of BQ123 to ewes on Day 8 or 9 of the estrous cycle mitigated the luteolytic effect of PGF(2alpha). Intramuscular administration of 100 microg ET-1 to ewes at midcycle reduced plasma progesterone concentrations for the remainder of the estrous cycle. Following pretreatment with a subluteolytic dose of PGF(2alpha), i.m. administration of 100 microg ET-1 caused a rapid decline in plasma progesterone and shortened the length of the estrous cycle. These data complement and extend previously published reports in the bovine CL and are the strongest evidence presented to date in support of a role for ET-1 in PGF(2alpha)-mediated luteal function in domestic ruminants.     

Interleukin-1, interleukin-6, and tumor necrosis factor alpha are produced in the mouse uterus during the estrous cycle and are induced by estrogen and progesterone.

The ovarian steroids, estrogen and progesterone, regulate cellular and molecular changes which occur in the uterus during the estrous cycle. Cycles of protein synthesis, cell proliferation and differentiation, and cell death are the direct results of changes in hormone concentration. To explore the possibility that cytokines, which stimulate proliferation and differentiation of numerous types of cells, might be associated with those cyclic changes, the production of IL-1, IL-6, and TNF alpha was examined in the mouse uterus. Cytokine mRNA expression, bioactivity, and immunoreactivity were quantitated during the estrous cycle, following ovariectomy and exposure of ovariectomized mice to estrogen and progesterone. IL-1, IL-6, and TNF alpha mRNA was detected, and mRNA levels for each of the cytokines varied with the stage of the cycle. Cytokine bioactivity was expressed throughout the cycle, but levels of each cytokine were highest during proestrus and/or estrus. Immunoreactivity paralleled bioactivity. Uterus from ovariectomized mice contained little or no cytokine activity, and systemic administration of estrogen or progesterone resulted in the induction of IL-1 alpha and IL-1 beta mRNA expression. Significant amounts of IL-6 and TNF alpha mRNA appeared only following the exposure of ovariectomized mice to estrogen plus progesterone. Cytokine bioactivity and immunoreactivity also appeared following the administration of estrogen and/or progesterone. The highest activity levels for each cytokine were observed following the injection of estrogen plus progesterone. Cyclic expression of IL-1, IL-6, and TNF alpha in the uterus and their apparent regulation by estrogen and progesterone raise the possibility that cytokines and factors which are induced by cytokines are part of the regulatory process which is induced by ovarian hormones in the uterus of reproductive age females.     

Central insulin-like growth factor 1 receptors play distinct roles in the control of reproduction, food intake, and body weight in female rats

Estradiol and progesterone induction of the LH surge in ovariectomized female rats requires concurrent activation of brain insulin-like growth factor 1 (IGF1) receptors. The present study determined whether brain IGF1 receptor signaling is required for estrous cyclicity in gonadally intact female rats. A selective IGF1 receptor antagonist (JB-1) or vehicle was continuously administered into the third ventricle by osmotic minipumps. Following surgical placement of the minipumps, all rats temporarily reduced food intake, lost weight, and suspended estrous cycles. Control rats resumed cycles within a few days and exhibited compensatory hyperphagia until they returned to presurgical body weight. Animals receiving JB-1 had severely delayed or absent estrous cycles, failed to show rebound feeding, and regained body weight more slowly. Vehicle-infused animals pair fed to JB-1-treated rats had even lower body weights but resumed estrous cycles sooner than those given drug alone. Chronic infusion of IGF1 alone had no effect on any of these parameters, but coinfusion of IGF1 with the antagonist completely reversed JB-1 effects on food intake and estrous cyclicity and partially reversed the effects on body weight. There were no significant differences in the expression of galanin-like peptide (Galp) or Kiss1 mRNA in the arcuate or periventricular hypothalamic area of control and JB-1-treated animals at a time point when food intake and estrous cycles were different between controls and JB-1-treated rats. These data suggest that brain IGF1 signaling is necessary for normal estrous cycles as well as compensatory hyperphagia and that IGF1 modulation of the reproductive axis is not secondary to reduced food intake.     

Regulation of pro-gonadotropin-releasing hormone gene expression by sex steroids in the brain of male and female rats

The fine modulation of gonadotropin gene expression and secretion is well recognized to be regulated by sex steroids through their direct action both at the anterior pituitary level and on the pulsatile pattern of GnRH secretion at the hypothalamic level. Since the influence of sex steroids on hypothalamic GnRH mRNA levels remains to be elucidated, quantitative in situ hybridization was used to study the effect of sex steroids on cellular levels of pro-GnRH mRNA in adult rats of both sexes. The effects of 14-day gonadectomy as well as administration of 17 beta-estradiol (E2, 0.25 micrograms) or dihydrotestosterone (DHT, 100 micrograms) twice a day during 14 days to gonadectomized animals were evaluated. In addition, the effect of progesterone (P, 2 mg, twice daily) alone or in the presence of E2 was also studied in ovariectomized animals. Hybridization was performed using a 35S-labeled cDNA probe encoding rat pro-GnRH and the corresponding mRNA levels were assessed by counting the number of silver grains overlying labeled neurons. In male rats, castration induced a highly significant 65% increase (compared to intact rats) in the mean number of grains per neuron. Administration of E2 or DHT to castrated animals completely prevented the post castration rise in pro-GnRH mRNA levels. In female animals, the effect of ovariectomy was less striking than in the male, a 25% increase (P less than 0.001) being observed. Treatment with E2 or DHT also completely prevented the increase in pro-GnRH mRNA levels induced by ovariectomy. Moreover, treatment with P in ovariectomized animals markedly potentiated the inhibitory effect of E2 on pro-GnRH mRNA levels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hormonal regulation of apoptosis in the endometrium of common marmosets (Callithrix jacchus)

Phase-dependent apoptotic changes in the human endometrium during an ovarian cycle imply a potential role of steroids in the regulation of apoptosis. The present study was undertaken to determine the direct role of hormones in endometrial apoptosis in marmosets (Callithrix jacchus), a primate species which shows similarity to humans in terms of the cycle length and pattern. Endometrial apoptosis was detected by 3'-end labeling (TUNEL) in various phases of ovarian cycle in naturally cycling healthy marmosets (n=14) and also in ovariectomized marmosets (n=13) treated with either estradiol alone (E) or progesterone alone (P) or estradiol followed by progesterone (E+P). Expressions of apoptosis associated genes such as Bcl-2 family members (Bax and Bcl-2), proliferating cell nuclear antigen (PCNA)--a proliferation marker and steroid receptors, ERalpha and PR A were analysed by immunohistochemical methods. Apoptosis was intense in the glandular epithelial cells of endometrium during the mid-luteal phase as compared to other phases in naturally cycling animals; in the E+P group as compared to other groups of ovariectomized animals (P<0.05). Pronounced apoptosis in the mid-luteal phase was accompanied by the increased expression of Bax in glandular epithelial cells; while Bcl-2 immunoreactivity remained unchanged. PCNA expression was higher in the naturally cycling animals in the follicular phase and in the E group of the ovariectomized animals as compared those in the other groups. Immunoreactive ERalpha and PR A in glandular epithelial cells were most abundant during early follicular phase in naturally cycling animals and in both E and E+P groups among the ovariectomized animals. The present study highlights the importance of apoptosis in endometrial remodeling during the ovarian cycle and secondly, the role of both estradiol and progesterone in the regulation of apoptosis.     

Servomechanism of prolactin and progesterone in regulating uterine gene expression

To investigate the interaction of PRL and progesterone in regulating uterine gene expression, we have quantitated the concentration of PRL receptor and of uteroglobin (UG) mRNA in the endometrium of rabbits of different ages and after treatment with different hormones. During uterine differentiation in 2- to 4-week old rabbits, a marked increase in unoccupied uterine PRL receptor number was observed, presumably increasing uterine sensitivity to PRL. Receptor values for 4-week old rabbits were comparable to values for sexually mature, estrous females, but were lower than in 5-day pseudopregnant (PSP) animals. When total PRL receptor was determined by Scatchard analysis after in vitro desaturation with MgCl2, PSP animals again expressed the highest receptor concentration with no changes in the dissociation constant (Kd) values. To determine whether progesterone regulates uterine PRL receptor, long term ovariectomized rabbits (greater than 12 weeks) were treated with various combinations of hormones, and unoccupied and total uterine PRL receptors were determined. Progesterone treatment resulted in the highest concentration of both unoccupied and total PRL receptor after desaturation and removal of anti-ovine PRL antibodies with MgCl2. The value for total uterine PRL receptor was equivalent to the value for mammary gland, and the Kd values (2-4 x 10(-10) M) were similar. Treatment of long term ovariectomized rabbits with progesterone, with or without estradiol, produced an increase (P less than 0.05) in the UG mRNA content, which also occurred in PSP animals. PRL alone had no effect on UG mRNA but PRL plus progesterone increased (P less than 0.05) UG mRNA in a dose-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)