Endogenous inhibin suppresses only basal follicle-stimulating hormone secretion but suppresses all parameters of pulsatile luteinizing hormone secretion in the diestrous female rat

The purpose of these studies was to ascertain which parameters of pulsatile gonadotropin secretion are regulated by endogenous inhibin in the intact diestrous female rat. This was determined by examining the changes in the secretion parameters of FSH and LH that resulted from immunoneutralizing endogenous inhibin in diestrous I female rats. Passive immunoneutralization of endogenous inhibin was achieved using specific, high titer ovine antiserum generated against the alpha-subunit of the recently described inhibin molecule. The optimal times after inhibin immunoneutralization to observe the changes in FSH secretion were determined in initial experiments. Pulsatile secretion of both FSH and LH was observable in the diestrous female. Two hours after inhibin immunoneutralization, the mean trough level, mean peak level, and overall mean level of FSH began to increase. The maximal increase and plateau of these parameters were observed 5 h after antiserum injection. During the period of increase, mean FSH pulse amplitude was also increased, but returned to the level observed in control (normal sheep serum-injected) animals when the parameters of trough, peak, and overall mean FSH reached their plateau levels. FSH pulse frequency was not changed at any time. These results indicate that endogenous inhibin affects only the basal parameters of FSH secretion without affecting pulsatile FSH secretion. The transient increase in FSH pulse amplitude resulted from FSH pulses being superimposed on the increasing basal FSH secretion. In contrast, immunoneutralization of endogenous inhibin rapidly increased all parameters (i.e. pulse amplitude and frequency, mean trough and peak levels, and mean plasma levels) of LH secretion. In addition, pituitary sensitivity to an exogenous LHRH challenge was increased in inhibin-immunoneutralized females in terms of stimulated LH secretion. As a result of the already increased rate of basal secretion, the actual quantity of FSH released in response to the LHRH challenge was greatly increased in the inhibin-immunoneutralized rats compared with the normal sheep serum-injected controls; however, the increase in the rate of FSH secretion stimulated by the LHRH challenge was the same in both groups. The observations from these studies collectively demonstrate that inhibin acts endogenously to suppress those parameters of gonadotropin secretion that are regulated by LHRH.     

The involvement of ovarian factors in maintaining the pituitary glands of female rats in a state of low LH responsiveness to LHRH

The effects of discontinuation and restoration of ovarian influences on the pituitary LH response to LHRH in vitro were investigated. When female rat pituitary glands taken on day 2 of dioestrus were incubated with LHRH the release of LH was low during the first hour (lag phase response) and afterwards a progressive, protein synthesis-dependent increase took place (second phase response), this being the self-priming action of LHRH. Short-term discontinuation (less than 1 day) of ovarian influences on the rat pituitary gland in vivo (ovariectomy) or in vitro (incubation in medium only) resulted in an increased LHRH-induced LH response during the lag phase. The biphasic LH response or the self-priming action of LHRH disappeared completely after long-term discontinuation of ovarian influences on the pituitary gland, LH release being at its maximum from the start of the incubation. The biphasic response was reinstated when ovaries were implanted under the kidney capsules of ovariectomized rats. Auto-implantation of an ovary into the spleen immediately after bilateral ovariectomy did not, however, prevent the disappearance of the LHRH self-priming action. Ovarian activity responsible for the presence of the low LH response during the lag phase was thus effectively removed by the liver, but inhibin-like activity suppressing serum FSH levels remained present. Silicone elastomer implants (s.c.) containing oestradiol-17 beta, implanted for 4 weeks, did not reverse the loss of the biphasic LH response to LHRH. It is concluded that liver-labile factors released by the ovaries keep the pituitary gland in a state of low responsiveness to LHRH.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of pulsatile gonadotropin-releasing hormone on the release of luteinizing hormone and follicle-stimulating hormone in vitro by anterior pituitaries from lactating and cycling rats

The ability of pituitaries from lactating animals to secrete LH and FSH in response to gonadotropin-releasing hormone (GnRH) was studied in vitro using a pituitary incubation system. Hemipituitaries were exposed to GnRH for 6 min during each hour of incubation. LH release by anterior pituitaries (APs) from day 5 postpartum rats nursing eight pups, in response to pulsatile exposure to GnRH, was significantly less than that released by APs from diestrous cycling females. Even though the amount of LH released by APs increased as lactation progressed, LH release by APs from day 15 postpartum rats nursing eight pups was still less than LH release by APs from diestrous females. In contrast pituitaries from lactating females nursing two pups released amounts of LH similar to that released by pituitaries from diestrous females, whereas females deprived of their litters for 48 h showed a greater response than diestrous females. Generally, there was a good quantitative relationship between the amount of LH released in vitro and plasma LH concentrations for all the intact groups studied. The ability of lactation to suppress the postcastration rise in serum LH also was demonstrated in vitro as pituitaries from ovariectomized or intact females nursing eight pups released similar amounts of LH on days 5 and 10 postpartum. However, by day 15 postpartum, even though serum LH concentrations were still very low, pituitaries from ovariectomized lactating females released LH in vitro at a rate similar to pituitaries from nonlactating rats. Serum FSH concentrations were not suppressed but similar in intact and cycling females. Also, the total amount of FSH released in vitro in response to GnRH by pituitaries from lactating and cycling females did not differ significantly, even though LH release differed greatly among these groups of animals. However, the patterns of GnRH-stimulating FSH secretion differed among intact lactating, ovariectomized lactating, and nonlactating females. Pituitary LH concentrations were similar on day 5 postpartum and diestrus and on day 15 postpartum and proestrus. Pituitary FSH concentrations on day 5 postpartum were similar to those during diestrus and proestrus and had increased 2-3 times by day 15 postpartum. Generally, there was no correlation between the amount of LH or FSH released by pituitaries in response to GnRH and pituitary gonadotropin content. In summary, the inability of pituitaries from lactating rats to respond adequately to large doses of GnRH in vitro suggests that the suckling stimulus indirectly suppresses pituitary responsiveness to GnRH. This suppression differentially affects basal LH secretion, but not basal FSH secretion, and may be the direct result of inadequate GnRH stimulation in vivo.     

Effects of progesterone (P) and antiprogestin RU486 on LH and FSH release by incubated pituitaries from rats treated with the SERM LY11701 8-HCl and/or recombinant human FSH

The aim of the present study was to investigate the role of the estrogen (ES) background on the effects of P or its antagonist RU486 on basal and LHRH-stimulated LH and FSH secretion. To do this, pituitaries collected from: intact rats in proestrus; rats injected with the ES antagonist LY11701 8-HCl; rats injected with recombinant-human FSH (r-hFSH) to stimulate ovarian hormonogenesis; and rats injected with both LY11701 8-HCl and r-hFSH were incubated with or without LHRH (10 nM) in the presence of P (100 nM) or RU486 (10 nM). RU486 decreased basal and LHRH-stimulated release of LH and FSH and LHRH self-priming in pituitaries from control rats, while P increased both pituitary responsiveness and LHRH self-priming. These effects were absent in pituitaries from rats treated either with the ES antagonist or r-hFSH, which, in the absence of P or RU486 in the incubation medium, reduced gonadotropin release. Because r-hFSH did not increase E2 serum concentration significantly, the putative FSH-dependent ovarian non-steroidal gonadotropin surge inhibiting factor (GnSIF) might be the hormonal cause of the reduced secretion of LH and FSH. Combined treatment with LY117018-HCl and r-hFSH had additive inhibitory effects on gonadotropin release. These results indicate that ES-inducible P receptor (PR) in the pituitary can be activated in a ligand-independent manner by intracellular messengers giving rise to enhanced basal and LHRH-stimulated gonadotropin secretion. The results also suggested that the r-hFSH-stimulated ovarian bioactive entity GnSIF and RU486 may share a similar mechanism of action involving pituitary PR.     

Kinetic characteristics of LH and FSH responses to LHRH in incubated pituitaries from ovariectomized or ovariectomized, estrogen-implanted rats

Incubated pituitary halves from ovariectomized, estrogen-implanted female rats were shown to be much more sensitive to LHRH than pituitaries from castrated, nontreated animals. LHRH in a concentration of 1,885 pg/ml increased the release of LH and FSH from 7.3 +/- 0.9 and 0.91 +/- 0.13 ng/h/hemipituitary respectively to 21.4 +/- 1.9 and 1.97 +/- 0.18 ng/h in animals implanted with the steroid. In contrast, 5,000 pg/ml of LHRH increased LH secretion from 3.4 +/- 0.3 to 8.4 +/- 0.4 ng/h in ovariectomized, nontreated animals. In pituitaries from both steroid and nontreated animals a highly significant dose response for LH and FSH secretion to the actual concentration of LHRH measured in each incubation tube by radioimmunoassay was observed. When expressed as percent of the corresponding control release, maximal stimulation of LH and FSH was comparable. Pituitaries from implanted animals provided a very sensitive bioassay for LHRH, in which amounts of the peptide lower than 100 pg/ml were detected. The apparent responsiveness to LHRH of pituitaries from estradiol-treated rats was found to be over 20 times greater than that of pituitaries from nontreated castrates.     

Changes in plasma luteinizing hormone-releasing hormone and gonadotropin concentrations during constant rate intravenous infusion of luteinizing hormone-releasing hormone in cyclic rats.

Further analysis has been made of the response of the rat pituitary gland to LHRH during the 4-day estrous cycle. LHRH was infused iv at a constant rate (50 ng/h) into phenobarbital-treated rats at different times during the estrous cycle. Infusion at this rate in proestrous rats simulates the rising and plateau phases of the spontaneous proestrous surges of LH and FSH in plasma. Plasma LH rose to similar heights during the "initial phase" of LH release (during the first 40 min of infusion) on the afternoons of estrus, diestrous day one, and proestrus and during the morning of proestrus. The increase during the afternoon of diestrous day two was significantly less than that in all the other groups. A similar response was seen in the case of FSH release. A "rapid rising" or "augmented" phase of LH release (during 40-120 min of infusion) was present in all groups and the magnitude of the response was greatest during the afternoon of proestrus. In the case of FSH, an augmented phase of release started 60 min after the start of infusion, and the response during the afternoon of proestrus was slightly greater than the responses measured at the other times tested. The responses on diestrous day one were not altered when phenobarbital was omitted or when rats were ovariectomized shortly before LHRH infusion. Other differences in the LH and FSH responses during both initial and augmented phases of release were seen in rats tested at different times during the estrous cycle with an LHRH infusion rate which caused a supraphysiological response on proestrus. The results suggest that 1) the initial rising phases in plasma LH and FSH during the spontaneous surges during proestrus are not the result of an increase in pituitary responsiveness to LHRH during the estrous cycle, 2) augmented phases of LH and FSH release can be elicited on all days of the estrous cycle, and 3) the increases in magnitude of the augmented phases of LH and FSH release on proestrus, as compared to those on other days of the cycle, are the result of an increase in pituitary responsiveness to LHRH during the estrous cycle.     

The self-priming action of LHRH increases the low pituitary LH and FSH response caused by ovarian factors: observations in vitro

Pituitary glands taken from intact rats on day 2 of dioestrus and incubated with LHRH show a biphasic pattern of LH and FSH release. Initially the release of the gonadotrophins is low (first-phase or lag-phase response), but increases during further incubation with LHRH (second-phase or primed-state response). Removal of the influence of an unidentified ovarian factor either by ovariectomy or prolonged incubation in medium only leads to an increased (lag-phase) response to LHRH. The development of the increased response after prolonged incubation was prevented by the addition of cycloheximide to the media, implicating that this process is dependent upon the synthesis of protein. Steroid-free material (bovine follicular fluid or rat ovarian extracts) prevented the development of this process. In addition, it was shown that steroid-free rat ovarian extracts were also able to induce the development of a lag phase in pituitary glands from ovariectomized rats. Finally, it was found that steroid-free ovarian extracts reversed the self-priming effect of LHRH. The biological activity which reduced the responsiveness of the pituitary gland towards stimulation by LHRH was eliminated after the use of protein-denaturating techniques such as increased temperature or addition of methanol. The presence of this activity in ovaries, did not vary during the oestrous cycle, contrary to inhibin-like activity. Hence the ovarian factor responsible for the low lag-phase response is a protein which is probably not identical to inhibin. It is concluded that a non-steroidal ovarian factor reduces the responsiveness of the anterior pituitary gland to LHRH.(ABSTRACT TRUNCATED AT 250 WORDS)     

The ovary-mediated FSH attenuation of the LH surge in the rat involves a decreased gonadotroph progesterone receptor (PR) action but not PR expression

Hyperstimulation of ovarian function with human FSH (hFSH) attenuates the preovulatory surge of LH. These experiments aimed at investigating the mechanism of ovarian-mediated FSH suppression of the progesterone (P(4)) receptor (PR)-dependent LH surge in the rat. Four-day cycling rats were injected with hFSH, oestradiol benzoate (EB) or vehicle during the dioestrous phase. On pro-oestrus, their pituitaries were studied for PR mRNA and protein expression. Additionally, pro-oestrous pituitaries were incubated in the presence of oestradiol-17beta (E(2)), and primed with P(4) and LH-releasing hormone (LHRH), with or without the antiprogestin RU486. After 1 h of incubation, pituitaries were either challenged or not challenged with LHRH. Measured basal and LHRH-stimulated LH secretions and LHRH self-priming were compared with those exhibited by incubated pituitaries on day 4 from ovariectomized (OVX) rats in metoestrus (day 2) injected with hFSH and/or EB on days 2 and 3. The results showed that: i) hFSH lowered the spontaneous LH surge without affecting basal LH and E(2) levels, gonadotroph PR-A/PR-B mRNA ratio or immunohistochemical protein expression; ii) incubated pro-oestrous pituitaries from hFSH-treated rats did not respond to P(4) or LHRH, and lacked E(2)-augmenting and LHRH self-priming effects and iii) OVX reversed the inhibitory effects of hFSH on LH secretion. It is concluded that under the influence of hFSH, the ovaries produce a non-steroidal factor which suppresses all PR-dependent events of the LH surge elicited by E(2). The action of such a factor seemed to be due to a blockade of gonadotroph PR action rather than to an inhibition of PR expression.     

In vitro basal and GnRH-stimulated secretion of gonadotrophins reflects long-lasting modulatory effects, and peripheral levels are not predicted by pituitary responsiveness to GnRH

OBJECTIVE: Production of the appropriate pattern of gonadotrophin levels is crucial to proper functioning of the female reproductive system. We aimed to establish whether the pituitary has invariant secretory characteristics when isolated from in vivo controls. We aimed to obtain information during both the rising and declining phases of the gonadotrophin surge. DESIGN: This study investigated factors that are directed at the pituitary by isolating it from the acute influences of the in vivo environment and studying gonadotrophin secretion in vitro. METHODS: Pituitaries of adult female rats were collected at selected times during the day of pro-oestrus and incubated in vitro, and at the same time blood was collected. Peripheral levels of LH and FSH were measured over the whole day of pro-oestrus, basal in vitro secretions of LH and FSH from pituitaries were measured, GnRH-stimulated LH and FSH secretion were assessed, and the responsiveness of LH and FSH secretion to GnRH were calculated. RESULTS: Peripheral levels of LH peaked at 1800 h (P<0.02) followed by a subsequent decline. In contrast, although FSH had a peak at 1800 h (P<0.01), serum levels were also high at the end pro-oestrus. The profile of basal LH and FSH secretion from the pituitary in vitro, in the absence of added secretagogue, resembled that of the peripheral blood levels of each gonadotrophin. Pituitaries collected at 1800 h secreted most LH (P<0. 02). FSH secretion was low early on the day of pro-oestrus and then increased to and was maintained at high levels in the last quarter of the day (P<0.01).When the pituitaries were stimulated with GnRH the patterns of LH release and FSH release approximated those observed for basal release. Responsiveness of the pituitaries to GnRH was calculated by determining the ratio of GnRH-stimulated release to basal release. However, low levels of gonadotrophin were secreted even from pituitaries which were highly responsive as determined from consideration of percentage increase in secretion induced by GnRH. CONCLUSIONS: The secretory activity was dependent on the time of day the pituitaries were collected. Since the secretion occurred after the tissue had been removed from the direct influence of the in vivo environment, the variations in secretion must reflect long-lasting components of the mechanism that regulate gonadotrophin concentrations. There were changes in both LH and FSH responsiveness to GnRH stimulation over the day of pro-oestrus. Delineation of the time courses and changing predominance of multiple processes is needed to assist understanding the mechanisms underlying the female reproductive cycle.     

Interdependence of oestradiol and 5 alpha-dihydrotestosterone in modulating LH and FSH secretion in rats

The effects of oestradiol, 5 alpha-dihydrotestosterone (DHT) and oestradiol plus DHT on pituitary responsiveness to LHRH were studied. Rats ovariectomized for 2 weeks were infused s.c. (by osmotic minipump) with LHRH at 250 ng/h for 6 days. Control rats received a sham s.c. pump. On day 3, silicone elastomer implants containing oestradiol or DHT were implanted s.c. and on day 6 the effects of these in-vivo treatments on pituitary LH and FSH content and on in-vitro (perifusion) LH and FSH secretion following maximal LHRH stimulation (1 microgram/ml perifusion medium) were assessed. Luteinizing hormone-releasing hormone alone decreased pituitary LH/FSH content and, in response to acute LHRH challenge in vitro, the absolute rate of LH/FSH release, but not LH/FSH release expressed as a fraction of pituitary content. Oestradiol alone increased pituitary LH/FSH content and LHRH-induced LH/FSH release in vitro, both absolutely and as a fraction of pituitary LH/FSH. Oestradiol exacerbated the decrease in pituitary LH/FSH caused by LHRH pretreatment in vivo, and decreased the absolute rate of LHRH-stimulated LH/FSH release in vitro, but increased this rate when it was expressed as a fraction of pituitary LH/FSH. In both LHRH-treated and control rats, DHT increased pituitary LH/FSH content, did not change the absolute rate of LH/FSH release in response to acute LHRH challenge in vitro, but decreased the rate of LH/FSH release expressed as a fraction of pituitary LH/FSH content.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gonadal steroids modulate pulsatile luteinizing hormone secretion by perifused rat anterior pituitary cells

Recent studies have shown that LH secretion is pulsatile and that LH pulse characteristics are affected by the prevailing steroid environment in both male and female rats. In the present study, a cell perifusion system was used to examine the effects of testosterone (T) and 17 beta-estradiol (E) on LHRH-stimulated pulsatile LH secretion. T inhibited LH secretion, increasing the EC50 for LHRH, while E stimulated secretion, lowering the EC50. Steroid effects were independent of both LHRH pulse amplitude and frequency. E also affected the pattern of LH secretion by facilitating both LHRH self-priming and desensitization to LHRH. These results show that steroids can affect pulsatile LH secretion by actions exerted at the pituitary level and that steroids can induce both quantitative and qualitative changes in LH secretion in the presence of an invariant LHRH stimulus. These results help to elucidate the mechanisms underlying steroid feedback in vivo, since reduction in pituitary responsiveness to LHRH may play an important role in T feedback, while facilitation by E of both self-priming and desensitization may serve to increase the magnitude and shorten the duration of the proestrous LH surge.     

Luteinizing hormone (LH)-releasing hormone: chronic effects on LH and follicle-stimulating hormone cells and secretion in adult male rats

We investigated whether chronic administration of LHRH to normal adult rats could increase the percentages of anterior pituitary gland (APG) cells that contain immunoreactive LH and/or FSH and gonadotropin secretion. Vehicle or 1 microgram LHRH was injected sc twice daily for 6 days, and rats were decapitated 16 h after the last injection. Treatment with LHRH caused nearly a doubling in the numerical density of LH and FSH cells and in the percentage of APG cells that contained LH or FSH. It also caused a shift in the gonadotroph population from LH and LH/FSH cells to LH/FSH cells. It did not change the mean size of gonadotrophs or APG weight. These changes at the light microscopic level were not accompanied by any apparent changes in LH cells at the ultrastructural level. However, they were accompanied by an approximate doubling of the basal serum LH and FSH concentrations, an increase in the APG FSH concentration, and an increase in the basal FSH release rate (measured in vitro). The results indicate that exogenous LHRH can be administered to increase numbers of gonadotrophs in the APG, synthesis of FSH in gonadotrophs, and basal serum LH and FSH concentrations.     

Control of follicle-stimulating hormone secretion by steroid-free bovine follicular fluid in the ovariectomized rat

The effects of steroid-free bovine follicular fluid (bFF) and sodium phenobarbitone on spontaneous LH releasing hormone (LHRH)-induced secretion of FSH and LH were studied in ovariectomized rats. Luteinizing hormone releasing hormone was administered by infusion to rats anaesthetized with phenobarbitone. Bovine follicular fluid reduced FSH release and synthesis. Luteinizing hormone release remained unaffected after bFF treatment. Phenobarbitone reduced both FSH and LH release. The observed suppressive effects of bFF and phenobarbitone on FSH secretion were additive, suggesting that the basal release of FSH has an LHRH-dependent and an LHRH-independent component. Furthermore, bFF did not affect pituitary responsiveness of LH secretion to LHRH and reduced the responsiveness of FSH secretion only when administered some time before the LHRH challenge. The present observations support the view that in the ovariectomized rat the pituitary gland is the only site of action of inhibin-like activity as present in bFF.     

Adenosine 3',5'-monophosphate primes the secretion of follicle-stimulating hormone

We investigated whether cAMP acts as a mediator for LHRH in either its immediate FSH release action or its self-priming action. Pituitary pieces from cyclic female rats were superfused in vitro in the presence of Bu2cAMP, 8-bromo-cAMP, or forskolin or used as controls. For pituitary pieces from proestrous rats, the first significant increase in the baseline FSH secretion rate occurred after approximately 90 min of exposure to elevated cAMP resulting from forskolin treatment. By comparison, in the same system LHRH caused a 3-fold increase in FSH secretion during a 10-min exposure to the peptide. In contrast to its ineffectiveness as a secretagogue, cAMP elevation resulted in a several-fold augmentation of both LHRH- and elevated K+-stimulated FSH secretion from pituitary pieces from proestrous, but not estrous, rats; for these experiments, superfusion with a cAMP analog or forskolin for varying times preceded a 10-min pulse of either 8 nM LHRH or 47 mM K+. Augmentation of K+-stimulated secretion was evident after 30 min of cAMP elevation. Priming of LHRH-stimulated FSH secretion required 30-90 min of pretreatment with cAMP; longer exposures to cAMP analogs or forskolin were coincident with greater potentiation. Cycloheximide prevented Bu2cAMP augmentation of LHRH-stimulated FSH secretion. These data show that cAMP does not mimic the FSH release action of LHRH, but does augment LHRH- or K+-stimulated FSH secretion with characteristics that lead us to suggest that cAMP mediates, at least in part, the self-priming function of LHRH.     

Effects of luteinizing hormone (LH)-releasing hormone pulse amplitude and frequency on LH secretion by perifused rat anterior pituitary cells

Recent studies have shown that LH secretion in vivo is pulsatile. In the present study, a cell perifusion system was employed to characterize the pituitary response to changes in LHRH pulse amplitude and frequency. Increases in pulse amplitude consistently elevated both mean LH levels and the amount of LH released in response to individual LHRH pulses. The EC50 for LHRH was approximately 3 nM. Increases in pulse frequency also increased mean LH levels, but frequencies of three or more pulses per h were associated with a decrease in the amount of LH released per pulse. Alterations in LHRH pulse characteristics changed qualitative as well as quantitative aspects of LH secretion, with high frequency, high amplitude pulses producing a biphasic response to LHRH. Initially a self-priming response was seen during the second and third hours of stimulation; this was followed by increasing desensitization of the cultures to LHRH. These results, by defining the pituitary response to specific conditions of stimulation, will help to clarify the relationship of LHRH stimulation to LH secretion in vivo.     

The In Vitro Inhibitory Action of Antiprogestin RU486 on LH and FSH Secretion in the Absence of Progesterone in Rats Is Estrogen-Dependent

Previous in vivo findings show that in the virtual absence of progesterone (P), the antiprogestin RU486 reduces LH and FSH secretion in proestrous rats, indicating that activation of P receptor (PR) can occur in the absence of the cognate ligand. The present study investigates, in vitro, whether or not the inhibitory effect of antiprogestin RU486 on gonadotropin secretion in the absence of P is estrous cycle dependent, and whether its specific expression in proestrus mirrors the high estrogen (E₂) background.In the first experiment we investigated the effect of RU486 (10 nM) and/or LHRH (10 nM) on LH and FSH secretion in incubated pituitaries collected on each day of the estrous cycle of the rat. In the second experiment, we determined the effect of RU486 and/or LHRH on preovulatory LH and FSH release by pituitaries from female rats that were ovariectomized (OVX), treated with the antiestrogen LY117018-HCL (Eli Lilly & Co.), or injected with 20 g of estradiol benzoate (EB). The third experiment investigated the effect of RU486 and/or LHRH on LH and FSH release by pituitaries collected from intact or EB-treated (0.1 mg/kg over three consecutive days) male rats.RU486 reduced both basal and LHRH-stimulated LH and FSH secretion in proestrous pituitaries from normal 4-day cyclic rats. By contrast, in diestrous pituitaries, RU486 increased both parameters of LH secretion but was without effect on FSH release. RU486 was also without effect in pituitaries collected from rats in estrus or metestrus, or from OVX or antiestrogen-treated rats. Moreover, EB injection or treatment induced the full inhibitory effect of RU486 in pituitaries from female and male rats, respectively.The above results suggested that P occupancy of the receptor is not required for the formation or function of the active receptor and hence for preovulatory LH and FSH secretion, and that this form of PR activation at pituitary level is E₂-dependent and not genetically determined.     

Differential effects of in vitro glucocorticoids on luteinizing hormone and follicle-stimulating hormone secretion: dependence on sex of pituitary donor

We have used a dynamic perifusion system to determine whether glucocorticoids exert a direct effect on the secretion of LH and FSH from rat anterior pituitaries. Anterior pituitary fragments from male, proestrous female, or metestrous female rats were perifused for 8 h in either the absence (basal secretion rate) or presence of pulsatile GnRH administration (50 ng/ml peak concentration). Perifusions used medium containing 0.05% ethanol (vehicle), 600 ng/ml corticosterone, or 600 ng/ml cortisol. GnRH-stimulated secretion of FSH was enhanced in pituitaries from both male and female rats after in vitro incubation with either corticosterone or cortisol. The basal secretion rate of FSH was also elevated in proestrous females after glucocorticoid treatment. The GnRH-stimulated secretion rate for LH was significantly decreased in pituitaries from male rats treated with either glucocorticoid. In contrast, pituitaries from proestrous rats responded to either cortisol or corticosterone with an increase in LH secretion. Metestrous pituitaries showed divergent effects of the glucocorticoids on LH secretion; corticosterone enhanced secretion rates, and cortisol effected a decrease. Our data demonstrate that 1) glucocorticoids exert a direct effect on the secretion of LH and FSH from male and female rat pituitaries; 2) glucocorticoids elicit different effects on the secretion of LH and FSH, suggesting that they act at separate sites to regulate LH and FSH secretion; and 3) the effect of in vitro glucocorticoid treatment on gonadotropin secretion is dependent on sex and cycle stage of the pituitary donor and may be linked to prior in vivo concentrations of estrogen.     

The role of estrogen-dependent progesterone receptor in protein kinase C-mediated LH secretion and GnRH self-priming in rat anterior pituitary glands

The aim of the present study was to explore the involvement of pituitary progesterone receptor (PR) in PKC-mediated LH secretion and LHRH self-priming and the role of the estrogen (E) environment. Eight randomly selected hemipituitaries from adult female rats in proestrus or from 2 weeks ovariectomized (OVX) rats were incubated, in the absence of progesterone (P), over 3 h in Dulbecco's modified Eagle's medium (DMEM). In the first experiment, hemipituitaries were incubated continuously with: medium alone, GnRH (10 nM), the PKC stimulator PMA (100 nM), the PKC inhibitor staurosporine (100 nM), the antiprogestin at the receptor RU486 (10 nM), LHRH+staurosporine, GnRH+RU486 or PMA+RU486. In the second experiment, hemipituitaries were incubated, one h apart, with GnRH to determine the GnRH self-priming and this was compared with the priming effect of PMA. Also, the effect of staurosporine and RU486 during the induction period (1st h) on GnRH and PMA priming was evaluated. Medium was aspirated at the end of each h to determine LH accumulation and to evaluate GnRH self-priming. Both GnRH and PMA stimulated LH secretion. Staurosporine and RU486 reduced basal and GnRH-stimulated LH secretion, and RU486 reduced PMA-stimulated LH secretion from proestrus pituitaries. The stimulating effect of GnRH and PMA on LH secretion and the inhibitory action of staurosporine and RU486 on basal or stimulated LH secretion were significantly reduced in OVX-rats. Both GnRH and PMA induced GnRH priming. Staurosporine during the induction h reduced GnRH self-priming while RU486 reduced both GnRH self-potentiation and PMA priming. The magnitude of these inhibitory effects was blunted in OVX-rats. These results showed that PKC signaling pathway in the gonadotrope mediates, at least in part, basal and GnRH-stimulated LH secretion and GnRH self-priming. Also, the results are suggestive of an interaction of PKC signaling pathway with E-dependent PR in a ligand-independent activation manner in the gonadotrope.     

Autonomous secretion of follicle-stimulating hormone by long term organ cultures of rat pituitaries.

Pituitaries removed from ovariectomized adult rats were maintained for 18 weeks in organ culture using three different culture media. Gonadotropin secretion was assessed by RIA and was correlated with the histological features of the cultures. In medium favoring prolonged survival of the cultures, LH content of the medium fell to a low level within a few days. In the same cultures, FSH production initially decreased before increasing and leveling at a plateau which persisted until the end of the culture period. Cultures in medium unsuitable for long term survival of pituitary tissue displayed a similar decrease in LH production along with a gradual fall of FSH. It was concluded that contrary to LH, FSH may be secreted autonomously by pituitaries removed from hypothalamic control, provided that culture conditions are adequate for survival of gonadotropes.     

Estrogen inhibits luteinizing hormone (LH), but not follicle-stimulating hormone secretion in hypophysectomized pituitary-grafted rats receiving pulsatile LH-releasing hormone infusions

The differential feedback actions of estrogen (E2) on gonadotropin secretion were studied by means of an in vivo isolated pituitary paradigm. Adult female rats were hypophysectomized (hypox) and the next day received single anterior pituitary transplants (graft) under the kidney capsule. At the same time rats underwent bilateral ovariectomy. On the third day each animal was fitted with a catheter system which allowed for intermittent infusions of LHRH (250 ng/5 min.h) and chronic blood sampling. Rats received LHRH infusions for 7 days. On the sixth day of LHRH infusions blood samples were collected for 4 h 5, 15, 25, 35, 45 min after each hourly LHRH pulse. After 1 h of sampling, animals received sc injections of 2 micrograms estradiol benzoate (EB; n = 5) or oil vehicle (n = 5). Plasma LH, FSH, E2, and PRL levels in samples from all groups were determined by RIA. In hypox/graft rats LH release, but not FSH release, was pulsatile in response to the hourly LHRH infusions. Injection of EB in the hypox/graft rats significantly (P less than 0.05) suppressed LH release within 3 h by 57%, while FSH was unaffected. PRL levels were elevated by approximately 10-fold in the hypox/graft animals compared to those in pituitary-intact rats. These levels, however, were not changed as a function of steroid treatment and, therefore, could not account for the effects of EB on LH secretion. On the basis of these observations we conclude that 1) a major inhibitory effect of an acute injection of EB on LH secretion is exerted by a direct action on pituitary gonadotropes, and 2) E2 can differentially affect the release of LH and FSH by an intrapituitary mechanism. It is hoped that development of this model will allow for further investigation of the cellular mechanisms that mediate feedback actions of E2 on pituitary gonadotropes exposed to intermittent LHRH stimulation.