Integration of the effects of estradiol and progesterone in the modulation of gonadotropin secretion

Estradiol secreted by the maturing follicle is the primary trigger for the surge of gonadotropins leading to ovulation. Progesterone has stimulatory or inhibitory actions on this estrogen-induced gonadotropin surge depending upon the time and dose of administration. The administration of progesterone to immature ovariectomized rats primed with a low dose of estradiol induced a well-defined LH surge and prolonged FSH release, a pattern similar to the proestrus surge of gonadotropins. A physiological role of progesterone is indicated in the normal ovulatory process because a single injection of the progesterone antagonist RU 486 on the day of proestrus in the adult cycling rat and on the day of the gonadotropin surge in the pregnant mare's serum gonadotropin stimulated immature rat resulted in an attenuated gonadotropin surge and reduced the number of ova per ovulating rat. Progesterone administration brought about a rapid LHRH release and an decrease in nuclear accumulation of estrogen receptors in the anterior pituitary but not the hypothalamus. The progesterone effect was demonstrated in vitro in the uterus and anterior pituitary and appears to be confined to occupied estradiol nuclear receptors. In in vivo experiments the progesterone effect on estradiol nuclear receptors appeared to be of approximately 2-h duration, which coincided with the time period of progesterone nuclear receptor accumulation after a single injection of progesterone. During the period of progesterone effects on nuclear estrogen receptors, the ability of estrogens to induce progesterone receptors was impaired. Based on the above results, a model is proposed for the stimulatory and inhibitory effects of progesterone on gonadotropin secretion.     

Effect of 5 alpha-dihydrotestosterone and dexamethasone on estrogen receptors of the anterior pituitary and uterus.

The administration of 5 alpha-dihydrotestosterone (5 alpha-DHT) and dexamethasone has been shown to attenuate estrogen-induced prolactin release in the estrogen-primed rat. Therefore, the effect of these compounds was studied on anterior pituitary and uterine estrogen receptors. Injection of 0.8 mg/kg body weight of 5 alpha-DHT to ovariectomized adult rats treated with 2 micrograms estradiol/d for 4 days resulted in a significant decrease in occupied nuclear estrogen receptors of the anterior pituitary but not the uterus. Estrogen priming was essential for 5 alpha-DHT effect on occupied nuclear anterior pituitary estrogen receptors because this effect did not occur in ovariectomized vehicle-treated control animals. The administration of 1 mg/kg body weight of dexamethasone brought about a decrease in uterine but not anterior pituitary nuclear estradiol receptors. These results provide further evidence that the regulation of estrogen receptor dynamics is different in the anterior pituitary and the uterus and that different steroids can exert tissue-specific effects.     

Estrogen-like effects of 7,12-dimethylbenz(a)anthracene on the female rat hypothalamo-pituitary axis

We have recently demonstrated that 7,12-dimethylbenz(a)anthracene (DMBA), a potent inducer of mammary tumors in rodents, can in vitro decrease the number of membrane dopamine D2 receptors and stimulate prolactin (PRL) release, by direct estrogen-like actions on anterior pituitary. In the present study, we tested the ability of DMBA to mimic the in vivo estradiol (17 beta E2) effects on pituitary D2 receptors and on PRL as well as LH release. We have found that DMBA, like 17 beta E2, when injected to ovariectomized rats, induced a decrease in the number of anterior pituitary D2 receptors, a release of PRL and exerted a biphasic (acute negative and longer term positive) action on LH secretion. We thus examined the ability of DMBA to interact with 17 beta E2 receptors in the hypothalamo-pituitary axis: DMBA binds to the pituitary cytosolic estrogen receptors with an affinity 0.001% that of 17 beta E2. Finally [3H]DMBA binds to hypothalamus-containing brain sections. This binding was displaced partially by RU 2858 a pure estrogen agonist and totally by tamoxifen, a purported estrogen antagonist. No competition for [3H]DMBA binding was observed with an androgen (RU 1881) or a glucocorticoid (RU 26988) agonist. From these data, it may be concluded that DMBA can act as a partial estrogen in pituitary and hypothalamic tissues.     

Regulation of galanin secretion from pituitary cells in vitro by estradiol and GHRH

The effects of estradiol and growth hormone-releasing hormone (GHRH) on galanin release from anterior pituitary cells were examined in vitro. 17-β-Estradiol (0.001–10 nM) increased galanin secretion from anterior pituitary cells in a concentration-dependent manner. Estradiol (10 nM) increased galanin release 300 and 600% from pituitary cells of ovariectomized and male rats, respectively. Immunocytochemical studies demonstrated that estradiol (10 nM) increased the number of galanin-containing cells twofold after 4 days in culture. Growth hormone-releasing hormone (1 and 10 nM) increased and SRIF (1 and 10 nM) decreased galanin release from pituitary cells of ovariectomized and male rats. We conclude that estradiol increases galanin release by a direct effect on pituitary cells, in part by increasing the number of pituitary cells synthesizing galanin. In addition, GHRH stimulates galanin release when estradiol levels are low.     

Role of the prostaglandin system in the monoaminergic control of prolactin release in the rat]

In ovariectomized rats treated with estradiol benzoate, the pre-treatment with bromocriptine or metergoline on increase of PRL secretion induced by some prostaglandins has been investigated. The PGs used were able to hinder the drop in PRL levels induced by metergoline, a blocker of 5-HT receptors, but not that produced by bromocriptine, a dopamine receptor agonist. Therefore it is possible to suppose that the PGs are involved in the monoaminergic hypothalamic regulation of the PRL secretion.     

Somatostatin inhibits prolactin secretion in the estradiol primed male rat

Somatostatin inhibits not only growth hormone secretion, but also the secretion of several other hormones. The role of somatostatin in prolactin (PRL) secretion has not been clearly demonstrated. The present study was undertaken to examine the effects of somatostatin on rat PRL secretion in several different circumstances where the circulating PRL level is elevated: (1) the estradiol primed intact male rat, (2) normal and (3) estradiol primed rats pretreated with pimozide, (4) normal and (5) estradiol primed hypophysectomized male rats with adenohypophyses grafted under the kidney capsule (HAG rat). Blood samples (70 microL) were taken every 2 min via an indwelling atrial cannula from conscious, unrestrained animals. In the estradiol primed intact rats, a bolus injection of somatostatin (10, 100, and 1000 micrograms/kg) lowered PRL levels in a dose-dependent manner. When the PRL concentration was elevated by the administration of pimozide (3 mg/kg), a dopaminergic receptor blocking agent, somatostatin was ineffective in decreasing plasma PRL concentration but the PRL concentration was lowered by somatostatin when the rat had been primed with estradiol. Somatostatin had no effect on the normal HAG rats, but lowered the plasma PRL concentration in the estradiol primed HAG rats. Since somatostatin inhibits PRL secretion only in the estradiol primed rats, it is suggested that estradiol priming creates a new environment, presumably via new or altered receptors, which can be inhibited by somatostatin.     

Antagonism of estrogen-induced prolactin release by progesterone

Previous work from our laboratory has shown that during the process of nuclear occupancy of the progesterone receptor complex (1-2 h), nuclear estradiol receptors of the anterior pituitary are depleted. The purpose of this study was to determine whether the depletion of nuclear estradiol receptors by progesterone had functional biological significance. The ovariectomized (26 days of age) immature rat was used as the model for analysis of this question. The ability of estradiol to release prolactin from the anterior pituitary was the function chosen to determine the biological significance of the progesterone and estradiol interactions. In response to estradiol exposure (2 micrograms/rat), prolactin release reached peak values from 8 h to 12 h and returned to control levels by 24 h. A second injection of estradiol 13 h after the initial injection stimulated a second increase in serum prolactin at 25 h. This model of two injections of estradiol 13 h apart served to provide adequate levels of anterior pituitary progesterone receptors and elevated serum prolactin levels upon which superimposed progestin modulation could be examined. A single injection of progesterone (0.8 mg/kg BW) 1 h before the second estradiol injection blocked the increase in serum prolactin. This action was a receptor-mediated event because progesterone had no effect without estrogen priming or when the progesterone antagonist RU486 was used. Finally, when the interval between the progesterone and second estradiol injection was extended to 4 h, a time period when progesterone does not deplete pituitary nuclear estrogen receptors, the estrogen-induced increase in serum prolactin was not blocked.(ABSTRACT TRUNCATED AT 250 WORDS)     

The met-enkephalin analog FK 33-824 directly inhibits ACTH release by the rat pituitary gland in vitro

Systematic administration of the enkephalin analog FK 33-824 was previously shown to stimulate PRL secretion and to inhibit ACTH secretion in man. Naloxone prevented the effect on PRL release, but not on ACTH release. In this study, the direct action of this analog on hormone release by rat anterior pituitary lobes $\text{in}$$\text{vitro}$ were investigated. 1 uM FK 33-824 inhibited basal ACTH secretion by anterior pituitary glands in vitro, while 0.1 uM and 1 uM attenuated the lysine vasopressin stimulated ACTH release. Naloxone did not reverse the inhibitory action of the analog on ACTH release. β-Endorphin (0.01 - 1 uM) did not directly affect ACTH release. Basal and dopamine-induced inhibition of PRL release by anterior pituitary glands was neither influenced by FK 33-824 (0.1 and 1 uM), nor by β-endorphin (0.1 and 1 uM) with or without bacitracin. This study shows that the long-acting met-enkephalin analog FK 33-824 differentially affects PRL and ACTH secretion by the pituitary gland. It seems to stimulate PRL release at a suprapituitary site and this action probably involves u opiate receptors, because naloxone prevents these stimulatory effects. The inhibitory effect of FK 33-824 on ACTH release, however, is mediated via a direct effect at the pituitary level, which does not involve u receptors, as naloxone did not prevent this effect. In this respect, its action differs from that of β-endorphin, which does not directly affect ACTH release by the anterior pituitary gland.     

The influences of GnRH, oxytocin and vasoactive intestinal peptide on LH and PRL secretion by porcine pituitary cells in vitro.

The aim of the present study was to evaluate the possible direct effects of GnRH, oxytocin (OT) and vasoactive intestinal peptide (VIP) on the release of LH and PRL by dispersed porcine anterior pituitary cells. Pituitary glands were obtained from mature gilts, which were ovariectomized (OVX) one month before slaughter. Gilts randomly assigned to one of the four groups were treated: in Group 1 (n = 8) with 1 ml/100 kg b.w. corn oil (placebo); in Group 2 (n = 8) and Group 3 (n = 8) with estradiol benzoate (EB) at the dose 2.5 mg/100 kg b.w., respectively, 30-36 h and 60-66 h before slaughter; and in Group 4 (n = 9) with progesterone (P4) at the dose 120 mg/ 100 kg b.w. for five consecutive days before slaughter. In gilts of Group 2 and Group 3 treatments with EB have induced the negative and positive feedback in LH secretion, respectively. Isolated anterior pituitary cells (10(6)/well) were cultured in McCoy's 5a medium with horse serum and fetal calf serum for 3 days at 37 degrees C under the atmosphere of 95% air and 5% CO2. Subsequently, the culture plates were rinsed with fresh McCoy's 5A medium and the cells were incubated for 3.5 h at 37 degrees C in the same medium containing one of the following agents: GnRH (100 ng/ml), OT (10-1000 nM) or VIP (1-100 nM). The addition of GnRH to cultured pituitary cells resulted in marked increases in LH release (p < 0.001) in all experimental groups. In the presence of OT and VIP we noted significant increases (p < 0.001) in LH secretion by pituitary cells derived from gilts representing the positive feedback phase (Group 3). In contrast, OT and VIP were without any effect on LH release in Group 1 (placebo) and Group 2 (the negative feedback). Pituitary cells obtained from OVX gilts primed with P4 produced significantly higher amounts (p < 0.001) of LH only after an addition of 100 nM OT. Neuropeptide GnRH did not affect PRL secretion by pituitary cells obtained from gilts of all experimental groups. Oxytocin also failed to alter PRL secretion in Group 1 and Group 2. However, pituitary cells from animals primed with EB 60-66 h before slaughter and P4 produced markedly increased amounts of PRL in the presence of OT. Neuropeptide VIP stimulated PRL release from pituitary cells of OVX gilts primed with EB (Groups 2 and 3) or P4. In contrast, in OVX gilts primed with placebo, VIP was without any effect on PRL secretion. In conclusion, the results of our in vitro studies confirmed the stimulatory effect of GnRH on LH secretion by porcine pituitary cells and also suggest a participation of OT and VIP in modulation of LH and PRL secretion at the pituitary level in a way dependent on hormonal status of animals.     

Stimulatory action of prolactin on gonadotropin secretion in vitro

The action of prolactin (PRL) on the secretion of gonadotropin was investigated by means of a cell culture system of rat anterior pituitary gland. Anterior pituitary glands were removed from Wistar male rats, enzymatically digested and cultured. Luteinizing hormone (LH) release into medium was increased by adding PRL dose-dependently in the range between 10 ng/ml and 1 microgram/ml. This effect of PRL was further augmented by the presence of either gonadotropin-releasing hormone or estradiol. The intracellular LH concentration was also increased by PRL. PRL also caused an increase in follicle-stimulating hormone release into medium dose-dependently. In conclusion, PRL was shown to stimulate the secretion of gonadotropin at the pituitary level, thus suggesting a paracrine mode of PRL action in the anterior pituitary gland.     

Effect of progesterone on tachykinin concentrations in the hypothalamus and anterior pituitary of female siberian hamsters.

The effect of progesterone on SP- and NKA-like immunoreactive substances in the hypothalamus and anterior pituitary was studied in ovariectomized and in ovariectomized, estrogen treated Siberian hamsters. Neither ovariectomy nor progesterone or estradiol treatment resulted in apparent changes in the tachykinin concentration in the hypothalamus. No effect of the treatments was seen on the release of tachykinins by hypothalami incubated in vitro in presence of high KCl concentrations. Ovariectomy resulted in a significant increase in the concentrations of both tachykinins in the anterior pituitary, as compared with intact animals. Progesterone (5 mg/animal) significantly reduced tachykinin concentrations in the anterior pituitary, as compared with the values found in ovariectomized animals. Estradiol completely suppressed the post-ovariectomy increase in anterior pituitary tachykinins, and progesterone did not significantly modify the response to estradiol. Lower doses of progesterone (250 microg or 1 mg/animal) significantly reduced NKA concentrations in the anterior pituitary of ovariectomized Siberian hamsters, but SP concentrations, although showing a similar tendency, were not significantly different in progesterone-treated as compared with ovariectomized, control animals. These results suggest that progesterone may modulate tachykinin stores in the anterior pituitary gland of Siberian hamsters.     

Fatty acid profiles in hepatic membranes of rats with different levels of circulating estrogen and prolactin

Plasma and liver microsomal fatty acid patterns of female rats (Rattus norvegicus) with either low or high serum levels of prolactin (PRL) were studied. Hyperprolactinemia was achieved by grafting anterior pituitary glands or by estradiol administration. One group treated with estradiol also received bromocriptine to inhibit PRL secretion. Ovariectomized (OVX) rats showed a decrease in PRL levels as compared with intact animals (controls). Rats possessing high levels of circulating PRL showed a significant decrease of linoleic acid in the fatty acid pattern of total and polar liver microsomal lipids. High PRL levels in the presence of normal estrogen levels significantly increased arachidonic acid in the same group of lipids. The group of rats treated with estrogen evidenced a decrease in arachidonic acid and in the unsaturation index. From these results it is possible to infer a decrease in the activity of the desaturases. The changes observed in the estradiol-treated group were not modified by bromocriptine administration. OVX rats showed no changes when compared with controls. It is concluded that, while PRL decreases the microsomal unsaturation index, estrogen administration causes a decrease in poly-unsaturated fatty acid biosynthesis and that this effect is independent of PRL levels.     

Bromocryptine prevents the decline in tuberoinfundibular neuronal release of dopamine after removal of chronic estrogen treatment

Prolonged exposure to estradiol 17-beta (E2) in rats has been shown to decrease dopamine (DA) synthesis in and release from tuberoinfundibular dopaminergic (TIDA) neurons in Fischer 344 rats. The objective of the present study was to determine whether inhibition of the E2-induced increase in anterior pituitary (AP) weight and prolactin (PRL) secretion by concomitant administration of the dopaminergic agonist, bromocryptine, could prevent the decrease in TIDA neuronal function produced by chronic E2 administration. TIDA neuronal function was evaluated by in vitro superfusion and electrical stimulation of median eminence (ME) tissue after allowing for accumulation of [3H]dopamine (DA). The effect of chronic E2 and/or bromocryptine treatment on catecholamine content in tuberohypophyseal neurons in the neurointermediate lobe was also measured to determine whether increased pituitary size possibly damaged the tuberohypophyseal neurons. Treatment with E2 for 30 days significantly increased AP weight, serum PRL concentration, and AP PRL and DNA content over values in non-E2-treated controls. When bromocryptine was injected daily during E2 treatment, bromocryptine completely inhibited the E2-induced increase in serum PRL and AP DNA content, and AP weight was only moderately increased. The evoked release of 3H at the end of the 30-day E2 treatment was reduced during electrical stimulation and there was no augmented release of 3H from the ME tissue after 10 microM nomifensine infusion in E2-treated rats and in rats given both bromocryptine and E2. However, neurointermediate lobe DA content was diminished only in E2-treated rats and not in animals given bromocryptine together with E2. When all treatments were discontinued for 30 days, animals previously given only E2 showed sustained increases in AP weight, serum PRL levels, and AP PRL and DNA content, but reduced stimulation-evoked release of 3H, absence of response to nomifensine, and reduced neurointermediate lobe DA and norepinephrine content when compared with values in non-E2-treated controls. After withdrawal of E2 treatment for 30 days, animals previously given bromocryptine and E2 together were not different from control animals in any of the parameters measured. These results suggest that the decline in TIDA neuronal release of DA induced by chronic E2 treatment was at least partly exerted via the marked hyperprolactinemia and/or by compression of the medial basal hypothalamus by the enlarged AP.     

Interaction of (+)- and (-)-3-PPP with the dopamine receptor in the anterior pituitary gland

The interaction of the enantiomers of the novel dopamine agonist, 3-PPP (3-hydroxyphenyl)-N-n-piperidine) with the dopamine receptor in the anterior pituitary gland was examined. Both (+)- and (-)-3-PPP were effective in suppressing the elevation in serum prolactin (PRL) concentrations in rats treated with alpha-methyl-paratyrosine, an inhibitor of dopamine synthesis. The (+)-enantiomer was slightly more potent than the (-)-enantiomer in this regard. In addition, the secretion of PRL from anterior pituitary tissue under in vitro conditions was significantly inhibited by both isomers of 3-PPP, with (+)-3-PPP being approximately 10 times more potent than (-)-3-PPP. Both (+)- and (-)-3-PPP displaced 3H-(-)-N-n-propylnorapomorphine (3H-NPA) and 3H-spiperone from bovine anterior pituitary membranes. The Hill coefficients of (+)- and (-)-3-PPP for the displacement of 3H-spiperone were 0.6 and 0.7, respectively. These results are consistent with the view that the (+)- and (-)-enantiomer exhibit dopamine agonist effects at dopamine receptor sites in the anterior pituitary gland. However, (+)-3-PPP demonstrated marked differences in affinity for 3H-NPA- and 3H-spiperone labeled-sites, whereas (-)-)3-PPP showed the same order of affinity for these two sites. In view of these results and the fact that (-)-3-PPP has also been characterized as a dopamine antagonist at postsynaptic receptor sites in the striatum, (-)-3-PPP might be best described as a partial agonist at pituitary dopamine receptors. Moreover, these data are suggestive of a similarity, at least on a pharmacological basis, between dopamine autoreceptors and dopamine receptors in the anterior pituitary gland.     

Inhibitory effect of thalidomide on the growth, secretory function and angiogenesis of estrogen-induced prolactinoma in Fischer 344 rats

The process of angiogenesis has been found to be essential for the development of estrogen-induced pituitary prolactinoma in Fischer 344 rats. Thalidomide [(alpha-(N-phthalimido)-glutarimide] is known to be a potent immunomodulatory drug with antiangiogenic properties, but its effect on lactotroph cell secretory function and pituitary prolactinoma formation has not been described yet. The purpose of this study was to examine the effects of thalidomide on secretion of prolactin (PRL) and vascular endothelial growth factor (VEGF), cell proliferation, apoptosis and angiogenesis within the anterior pituitary gland in long-term diethylstilboestrol (DES)-treated male F344 rats in vivo and in vitro. It was found that DES sharply increased serum PRL and VEGF levels. On the other hand, simultaneous treatment of F344 rats with thalidomide for the last 15 days of the experiment attenuated the stimulatory effect of DES on PRL and VEGF secretion. It also diminished prolactin cell proliferation evaluated as the number of proliferating cell nuclear antigen (PCNA)-positive stained cell nuclei and increased the number of apoptotic bodies determined by the terminal deoxynucleotidyl-mediated dUTP nick-end labeling (TUNEL) method in sections of the DES-induced pituitary prolactinoma. The density of pituitary microvessels evaluated by microscopic counting of CD-31-positive blood vessels was also diminished by the tested drug. In addition, thalidomide (10(-4) to 10(-6) M) inhibited cell proliferation, prolactin and VEGF secretion from rat pituitary prolactinoma cells cultured in vitro. In conclusion, our results provide strong evidence for the antiprolactin and antitumor activity of thalidomide in experimentally DES-induced pituitary adenoma.     

Separate neural systems mediate the steroid-dependent and steroid-independent suppression of tonic luteinizing hormone secretion in the anestrous ewe

In the ewe, two types of seasonal fluctuations in secretion of tonic luteinizing hormone (LH) have been described: a steroid-dependent change whereby estradiol gains the capacity to suppress LH pulse frequency in anestrus, and a steroid-independent decrease in pulse frequency in ovariectomized animals during anestrus. We have proposed that the former reflects activation, in anestrus, of estradiol-sensitive catecholaminergic neurons that inhibit gonadotropin-releasing hormone (GnRH). Three results reported here support this hypothesis: dopaminergic (pimozide) and alpha-adrenergic (phenoxybenzamine) antagonists increased LH in intact anestrous ewes without altering pituitary responses to GnRH; other dopaminergic (fluphenazine) and alpha-adrenergic (dibenamine) antagonists also increased LH in anestrus; agonists for dopaminergic (apomorphine) and alpha-adrenergic (clonidine) receptors suppressed LH secretion in both seasons, suggesting that the appropriate receptors are present in breeding-season ewes. In contrast, catecholamines do not appear to mediate the steroid-independent suppression of pulse frequency; neither pimozide nor phenoxybenzamine increased LH pulse frequency in ovariectomized ewes during anestrus. When antagonists for 6 other neurotransmitter receptors (muscarinic and nicotinic cholinergic, GABAnergic, serotonergic, opioid, and beta-adrenergic) were tested in anestrus, only cyproheptadine, the serotonergic antagonist, increased pulse frequency in ovariectomized ewes. Cyproheptadine had no effect on frequency during the breeding season. On the basis of these results, we propose that the steroid-dependent and -independent actions of anestrous photoperiod occur via catecholaminergic and serotonergic neurons, respectively.     

Role of GnRH in the regulation of pituitary GnRH receptors in female mice

The fall in pituitary GnRH receptors in female mice after ovariectomy (Ovx) was further decreased (greater than 50%), rather than prevented, by treatment with a GnRH antiserum, despite suppression of the post-gonadectomy increase in serum gonadotrophins, suggesting that increased endogenous GnRH secretion is not the mediator of GnRH receptor fall after ovariectomy in mice. Furthermore, GnRH antiserum reduced GnRH receptors by 30-50% in intact normal females, without altering receptor affinity, and rendered serum LH and FSH undetectable but did not reduce receptors in GnRH-deficient, hpg mice. When GnRH was administered to ovariectomized mice this failed to restore receptor values (fmol/pituitary) (intact = 55.3 +/- 2.4; Ovx = 30.1 +/- 2; Ovx + GnRH = 31.6 +/- 2.8), but serum LH was reduced from high post-ovariectomy values (231 +/- 42 ng/ml) to values normal for intact females (24 +/- 2 ng/ml). In contrast, multiple GnRH injections to intact female mice increased GnRH receptor by 35%, while serum LH was reduced to just detectable levels. A marked dissociation between GnRH receptor and serum gonadotrophin concentrations was observed. Administration of oestrogen (E2) plus progesterone (P) to ovariectomized mice in which endogenous GnRH had been immunoneutralized reversed the inhibitory effect of GnRH antiserum on GnRH receptors and increased values above those of ovariectomized controls, although no increase in serum or pituitary gonadotrophin levels was seen in ovariectomized mice treated with E2 + P + GnRH antiserum. Treatment with E2 and P of intact females receiving GnRH antiserum did not prevent the inhibitory effect of antiserum on receptors, while E2 + P treatment alone of intact female mice reduced GnRH receptors by 30%. These data suggest that the gonadal steroids reduce GnRH receptors in intact female mice by inhibiting hypothalamic GnRH secretion, and that a certain degree of pituitary exposure to GnRH is required for maintenance of a normal receptor complement. These results suggest that (1) the fall in GnRH receptors after ovariectomy is primarily attributable to removal of gonadal factors. The fall is not a reflection of alteration in endogenous GnRH interaction with the gonadotroph; (2) homologous ligand 'up-regulation' of GnRH receptors in female mice depends upon the presence of the ovaries; (3) endogenous GnRH is also required for GnRH receptor maintenance in intact female mice; and (4) GnRH receptor and serum gonadotrophin responses to hormonal changes can be dissociated and their relationship is complex.     

Involvement of the neurointermediate lobe of the pituitary gland in the secretion of prolactin and luteinizing hormone in the rat

The relationship between prolactin (PRL) secretion and the neurointermediate lobe (NIL) of the pituitary gland was investigated. Plasma PRL concentrations in rats bearing anterior pituitaries autografted with or without the NIL to the renal capsule were elevated to equal extents at 1 through 6 weeks after surgery (p > 0.10). PRL levels in ovariectomized rats in which the NIL had been removed surgically (NIL-X) or only visualized (NIL-C) were 3–7 ng/ml 4, 7, and 28 days after surgery (p > 0.10); however, they were slightly higher in NIL-X $\text{vs.}$ NIL-C rats 14 days after surgery (p < 0.05). Plasma luteinizing hormone (LH) concentrations in NIL-C rats increased by 36% from 2 to 4 weeks after surgery (p < 0.05); this increase was not detected in NIL-X rats. PRL and LH surges were induced by estradiol implants in ovariectomized NIL-X and NIL-C rats; the profiles of the PRL surges were superimposable, although the magnitude of the LH surge was only 50% that in NIL-C rats (p < 0.05). These results cast doubt on the importance of the NIL in the regulation of PRL secretion either $\text{via}$ secreting hypophysiotropic hormones or $\text{via}$ conducting anterior pituitary hormones directly to the median eminence. However, the NIL may have a physiologically important role in the regulation of LH secretion.     

Lack of effect of prolactin on the dopaminergic receptor sensitivity in striatal and limbic areas after experimentally-induced alterations in its peripheral levels.

Although it had been suggested that prolactin (PRL) modulates the dopaminergic receptor sensitivity in extrahypothalamic areas, recent studies have questioned this role. We studied the effects of PRL on the receptor sensitivity in the striatum and the limbic forebrain, analyzing the number of D1 and D2 receptors and the amount of their second messenger, cyclic-adenosine monophosphate (cAMP). Tyrosine hydroxylase (TH) activity and dopamine (DA) and L-3,4-dihydroxyphenylacetic acid (DOPAC) content were also measured as indices of presynaptic activity. The study was carried out in male rats submitted to either acute (PRL injection) or chronic (pituitary grafts or diethylstilbestrol (DES)-induced pituitary tumors) rises of plasma PRL levels. The results showed a common lack of effect of PRL on the dopaminergic receptor sensitivity in both brain areas and, only some few effects on presynaptic activity in the striatum. Thus, grafted rats showed a slight decrease in DA content in the striatum, but neither D1 and D2 receptor number and cAMP content nor DOPAC content and TH activity, were modified, whereas DES animals exhibited no changes in all the parameters studied. A single injection of ovine PRL caused a decrease in DOPAC content and an increase in TH activity in the striatum. In the case of the limbic area, both chronic and acute hyperprolactinemia failed to alter any of the indices studied. In summary, we cannot support the view that PRL plays a role as modulator of dopaminergic receptor sensitivity. The only effects were always produced at the presynaptic level on the striatum, and after acute treatment, which supports the possible development of tolerance after chronic changes in peripheral PRL levels.     

Heme oxygenase in the rat anterior pituitary: immunohistochemical localization and possible role in gonadotropin and prolactin secretion

The objectives of this study were to determine if heme oxygenase (HO), which catalyzes the degradation of heme and the formation of carbon monoxide (CO), is localized in the rat anterior pituitary and, if so, to determine if hemin (a substrate for HO) or chromium mesoporphyrin (CrMP) (an inhibitor of HO), alter pituitary gonadotropin and prolactin secretion. For localization of HO, sections of anterior pituitaries obtained from mature Holtzman Sprague-Dawley rats in different stages of the estrous cycle were immunostained for two of the HO isoforms, HO-1 and HO-2. The immunostaining for the inducible HO isoform (HO-1) was limited to discrete populations of pituitary cells, whereas the constitutive isoform (HO-2) had a more widespread distribution. The afternoon surge of leutinizing hormone (LH) in the plasma of ovariectomized, estradiol-treated rats was advanced by 2 hr after 7 days of treatment with CrMP (4 micro M/kg), and this effect was reversed when hemin (30 micro M/kg) was co-administered with CrMP. The afternoon follicle-stimulating hormone (FSH) surge was not affected by either treatment. In contrast, the afternoon prolactin (PRL) surge was completely blocked or delayed by CrMP treatment, and this effect was not reversed by hemin. In vitro perifusion of pituitary explants with CrMP also significantly reduced PRL release compared with secretion from untreated explants. In vitro gonadotropin-releasing hormone (GnRH)-stimulated FSH secretion was significantly increased from pituitary explants of ovariectomized, estradiol-treated rats treated in vivo with hemin but was unaffected by CrMP treatment, whereas GnRH-stimulated LH release was not affected by hemin but was increased by CrMP treatment. In conclusion, this study demonstrates that HO exists in the rat anterior pituitary gland, and that a substrate and an inhibitor of this enzyme alter the secretion of gonadotropins and PRL.