Effects of gonadectomy and steroids on pituitary gonadotropin secretion in a frog, Rana pipiens

Secretory dynamics of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) were measured at various times following gonadectomy in adult male grass frogs, Rana pipiens. Plasma levels and in vitro initial secretory rates of both LH and FSH increased significantly within 1 wk and remained elevated for 3-4 wk of castration. Pituitary FSH and LH content were unchanged. However, dissociation between the two gonadotropins (Gth) occurred thereafter: Secretion of FSH remained elevated for 70 days, but those of LH declined to control levels after 30 days. In vitro secretion of Gth from gonadectomized (gonadx) frogs declined progressively over time reaching control levels after 24 h incubation. The results indicate that elevated pituitary secretion contributes to the observed circulating LH and FSH levels in gonadx frogs, and that FSH and LH may be controlled independently. Replacement therapy with 17 beta-estradiol (E2) suppressed post-gonadectomy increases in plasma Gth and in vitro responses to GnRH, whereas 5 alpha-dihydrotestosterone (DHT) had little effect in vivo and augmented GnRH responses in long-term castrates. In vitro, E2 also inhibited, while 48 h of DHT treatment had no effect on GnRH responsiveness of pituitaries from gonadx frogs. The actions of these steroids were opposite to those typically observed in mammals (and birds), and support the hypothesis that E2 may contribute to seasonal testicular regression in ranid frogs.     

The effect of opioid peptides on ovine pituitary gonadotropin secretion in vitro

Although a hypothalamic site of action has been firmly established for opiate-mediated gonadotropin regulation, there have been several reports which indicate the possibility of a direct influence on the pituitary gland. The objective of this study was to further investigate this possibility in an in vitro pituitary perifusion system utilizing ovine tissue. Treatment with gamma-endorphin (GE) or human beta-endorphin (hBE) resulted in elevated basal LH release (p less than 0.05), followed by an inhibition in the response to a subsequent GnRH challenge (p less than 0.05). The stimulatory effect of hBE was found to be dose-responsive (p less than 0.01). PRL secretion was not similarly stimulated. Ovine beta-endorphin (oBE) had no effect on LH secretion, even though it differs from hBE by only 2 amino acids and contains the active GE sequence. Met-enkephalin also did not influence gonadotropin secretion. Naloxone pretreatment did not reverse the effects of hBE on gonadotropin release. It was found, however, that [D-pGlu1, D-Phe2, D-Trp3,6]-GnRH, a specific GnRH receptor antagonist, did reduce hBE-induced LH and FSH release (p less than 0.05). Naloxone pretreatment alone suppressed the response to GnRH (p less than 0.05). These data indicate that certain opioid peptides can influence ovine gonadotropin secretion in vitro by activating the GnRH receptor. Furthermore, a facilitory role is suggested for endogenous opiates in the local regulation of pituitary gonadotropin secretion.     

Galanin stimulates rat pituitary growth hormone secretion in vitro

The effect of galanin on growth hormone (GH) secretion was investigated in monolayer cultures of rat anterior pituitary cells. Galanin caused a gradual increase in GH concentrations into the culture medium that was maximal at 90 minutes and sustained after 180 minutes. The ED50 for galanin-stimulated GH secretion was approximately 200 nM compared to an ED50 for rat GH-releasing factor (rGRF)-stimulated GH secretion of 10pM. Galanin and rGRF were additive in increasing GH release into the incubation medium. These data indicate that porcine-derived galanin has a direct effect on pituitary GH secretion in vitro.     

Regulation of gonadotropin secretion in the anterior pituitary

Studies on the regulation of gonadotropin secretion in dissociated pituitary cell cultures are described. Initial studies employing a ferritin-labelled analogue of gonadotropin hormone releasing hormone (GnRH) to localize its receptor sites on the gonadotropin cell surface that while these receptor sites initially have a random monodisperse distribution, binding of the ligand causes coarse aggregation and internalization of the GnRH receptor. These events are not due to the multivalency of the ligand and probably reflect redistributive events in vivo. By using an octapeptide analogue GnRH that binds to the GnRH receptor but lacks gonadotropin releasing activity in conjunction with sequence-specific antisera it is shown that antibodies that bind the octapeptide can induce the octapeptide to release gonadotropin. These data suggest that receptor aggregation is important in GnRH stimulation. Finally immunocytochemical studies are described in which golg-protein-A-antibody complexes are used to identify gonadotropins on ultrathin frozen sections of porcine pituitary cells. These studies indicate that in porcine gonadotropin cells the majority of the secretory granules contain both luteinizing hormone and follicle-stimulating hormone.     

Sex differences in nutritional modulation of gonadotropin secretion during development: studies in the growth-retarded lamb

This study determined whether changes in nutrition during development alter LH secretion in males in a manner similar to that in females; sheep were used as an experimental model. Studies were conducted in the absence of gonadal steroid negative feedback. First, we compared the effect of chronic growth restriction on LH secretion in male and female lambs. Second, we determined whether the gonadotropic response to acute increases and decreases in nutrition is sexually differentiated. Seven male and 8 female Suffolk lambs, gonadectomized, and weaned by 8 wk of age were maintained at a target weight of 20 kg by level of nutrition. After 7 wk of chronic low nutrition (15 wk of age), LH pulse frequency was equally low in males (2.0 +/- 0.7 pulses/4 h) and females (2.0 +/- 0.4 pulses/4 h) relative to that (ca. hourly pulses) in normally growing gonadectomized lambs. Seven weeks later, at 22 wk of age, LH pulse frequency dropped further (males 0.9 +/- 0.3/4 h; females 0.9 +/- 0.4 pulses/4 h). The results of this first experiment, in which we observed no sex difference in gonadotropin secretion under chronic growth restriction, imply equal neuroendocrine sensitivity in males and females to long-term low nutrition. In the second experiment, however, a sex difference was evident in the response to increased and decreased nutrition. Both sexes responded to feeding ad libitum with a rapid increase in LH pulse frequency, but the response was greater in the males than in the females.(ABSTRACT TRUNCATED AT 250 WORDS)     

Anti-relaxin and relaxin on prolactin and gonadotropin secretion in vitro from porcine pituitary cells

This study examines the possibility of a feedback interaction between gonadal relaxin and the pituitary by investigating the impact of exogenous relaxin and ablation of endogenous with relaxin anti-relaxin serum on pituitary hormone secretion in vitro. Three wells were assigned to treatments: 0, 100 and 1000 ng ml⁻¹ of relaxin, 1:100, 1:1000 and 1:10000 titer of anti-relaxin. Relaxin significantly enhanced prolactin (PRL) secretion (P < 0.05) in long-term culture but had no effect on luteinizing hormone and follicle stimulating hormone secretion. Relaxin anti-serum stimulated a dose dependent increase (P < 0.05) in gonadotropin secretion at 48, 72 and 96 h. Luteinizing hormone and follicle stimulating hormone increased two-fold in 48 h cultures in response to 1:100 anti-relaxin serum in comparison with untreated controls. Anti-relaxin serum at 1:100 completely suppressed PRL secretion after either 48, 72, and 96 h of culture. At 48 h all levels of anti-relaxin serum completely suppressed PRL secretion. These results indicate that endogenous relaxin may be involved at the adenohypophysial level in modulating gonadotropin and PRL release in the pig.     

Changes in gonadotropin secretion following complete or hemicastration in the adult rat.

The effect of sham castration, hemicastration or complete castration on gonadotropin and testosterone secretion was studied in adult male rats. Untreated control rats were autopsied 1, 10, 20, 30 and 40 days following assignment to treatment groups. Sham-castrated controls were autopsied 1, 2 and 3 days after surgery. Complete and hemicastrates were autopsied 1, 2, 3, 10, 20, 30 and 40 days after surgery. Serum levels of both FSH and LH were elevated by 24 h postcastration and the levels of both gonadotropins continued to rise throughout the course of the experiment. Serum levels of LH rose following hemicastration and remained above control values through day 30. Serum FSH levels were not significantly affected by hemicastration. Compensatory testicular hypertrophy was not observed in hemicastrated rats.     

Time-dependent changes in gonadotropin synthesis following gonadectomy in the frog, Rana pipiens

Anterior pituitary glands from frogs gonadectomized (gonadx) for various periods (0-90 days) were labeled in vitro with 35S-methionine. Shortly (7-10 days) after gonadx, plasma levels and the in vitro basal pituitary secretion of LH and FSH are elevated compared to values in sham-operated frogs. However, LH and FSH become dissociated in long-term (over 40 days) gonadx frogs; FSH remains elevated while LH returns to sham levels. Gth (gonadotropin: LH and FSH) synthesis shows a similar pattern. Gth synthesis becomes elevated after gonadx, but returns to sham levels after 80 days. In short-term (15 days) gonadx females, LH and FSH each comprise approximately the same percentage of counts immunoprecipitated. In contrast, in long-term (90 days) gonadx females, nearly 100% of Gth synthesis can be accounted for solely by FSH; LH synthesis is barely or not detectable. Although the elevated in vitro secretion rate of LH and FSH following gonadx diminishes within 24 h in culture, Gth synthesis remains elevated. This study demonstrates that although the pattern of Gth secretion and synthesis generally parallel each other following gonadx, these two cellular processes can be dissociated from one another. Furthermore, it appears that in frogs, not only the secretion, but also the synthesis, of LH and FSH may be under independent regulation.     

Contraceptive progestins and gonadotropin secretion in vitro

In an in vitro bioassay using rat pituitary cell cultures the effect of contraceptive progestins was tested on basal and gonadotropin-releasing hormone (GnRH)-induced luteinizing hormone (LH) and follicle-stimulating hormone (FSH) secretion in vitro. Progestins diminished gonadotropin release in pituitary cells stimulated with GnRH, but did not alter basal values. This inhibitory effect was dose dependent in a range of 10(-10)-10(-5) M tested and the inhibitory action of most of the progestins examined was more potent than that of progesterone. The maximal reduction of LH and FSH values was by 60% of GnRH-induced control levels. Progestins also caused a shift in sensitivity of cells to GnRh (10(-12)-10(-6) M). When time dependence was investigated, some progestins potentiated GnRH effect on gonadotropins in pituitary cell cultures pre-incubated for a short time (4 h) with steroids. More prolonged pre-incubations from 23 to 71 h resulted in a progressive suppression of LH and FSH response to GnRH (10(-7) M). In order to examine intracellular effects, cells were pretreated with progestins and inositol phosphate metabolism was investigated. The data obtained in pituitary cells give evidence that polyphosphoinositide breakdown is potentially an early step in the action of GnRH on gonadotropin secretion by providing diacylglycerol and inositol phosphates. Addition of gonadotropin-releasing hormone to myo-2[3H]inositol-prelabeled rat pituitary cells in primary culture evoked a dose-dependent increase of the accumulation of [3H]inositol phosphates with a rise of inositol triphosphate, inositol diphosphate and inositol monophosphate within 1 min. Using one contraceptive progestin, gestoden, inositol phosphate production was inhibited by 80% compared to controls of GnRH-treated cells without the addition of steroids. The data obtained in this study suggest that this in vitro bioassay using rat pituitary cells is a useful tool in testing progestational compounds regarding their potency on gonadotropin release. In addition, these results show that one possible site of interference of progestins with GnRH-induced gonadotropin secretion may involve polyphosphoinositide breakdown.     

Effects of testosterone on hormonal content and calcium-dependent basal secretion in female rat pituitary cells

In vivo and in vitro effects of elevated androgens on agonist-induced gonadotropin secretion have been addressed previously. Here we investigated the effects of testosterone on hormonal content and basal (in the absence of agonists) hormone release in pituitary lactotrophs, somatotrophs and gonadotrophs from female rats. Furthermore we tested the hypothesis that testosterone action is dependent on the pattern of spontaneous and Bay K 8644 (a L-type calcium channel agonist) -induced calcium signalling. Mixed anterior pituitary cells were cultured in steroid containing or depleted media, and testosterone (1pM to 10nM) was added for 48h. Cells were studied for their spontaneous and Bay K 8644-induced calcium signalling pattern and total hormone levels (release and hormonal content). In lactotrophs, somatotrophs and gonadotrophs testosterone did not affect the pattern of spontaneous calcium signalling. Bay K 8644-induced calcium signalling and hormone release were not affected by testosterone. In both steroid-depleted and -containing medium, testosterone inhibited prolactin (PRL), luteinizing hormone (LH) and growth hormone (GH) cellular content and release in a dose-dependent manner, with IC(50)s in a sub-nanomolar concentration range. These results indicate that testosterone inhibits basal hormone release from lactotrophs, somatotrophs and gonadotrophs without affecting intracellular calcium signalling. This action of testosterone is not dependent on the presence of other steroid hormones.     

Synthesis and secretion of phosphorylated growth hormone by rat pituitary glands in vitro

Rat anterior pituitary glands were incubated in buffered medium, pH 7.4, containing 32Pi. After incubation the tissue and medium were separated and a post-mitochondrial supernate (PMS) of the tissue homogenate was prepared. Gel filtration of the PMS and medium resulted in a radioactive peak which coincided with the elution volume of authentic rat growth hormone (rGH). Polyacrylamide gel electrophoresis of the radioactive peak under denaturing condition resulted in a protein-staining band having the same mobility as authentic rGH. Autoradiography of the gels revealed radioactivity precisely at the position of growth hormone as well as elsewhere. The specific radioactivity of the PMS [32P]GH was estimated to be 5 to 10 times greater than that of tissue [32P]GH. These results indicate that phosphorylated GH is synthesized and secreted by pituitary glands in vitro.     

Direct action of opioid peptides and naloxone on gonadotropin secretion by cultured rat anterior pituitary cells

Most current evidence indicates that opiates act via the hypothalamus to influence pituitary function. There are no detailed studies concerning pituitary site of action. Direct action of opioids on gonadotropin secretion was studied using enzymatically dispersed rat pituitary cells maintained in a monolayer culture. A time course study demonstrated that pretreatment with beta h-endorphin (beta h-End) (10(-7) M) initiated an inhibitory effect on LH release at 24 h, and was more evident at 48 h. A dose dependent decrease in LH release by beta h-End in concentrations of 10(-9) M to 10(-7) M was shown, whereas FSH was unchanged. Equimolar concentrations (10(-7)M ) of methionine enkephaline (Met-Enk) and D-ala2-met-enkephalinamide (DALA) produced a significant decrease in LH. Naloxone (NAL) (10(-5)) enhanced the release of both LH and FSH, and also blocked the inhibitory effect of beta h-End on LH release. These results indicated that opioid peptides act directly on anterior pituitary cells, decreasing the release of LH, but not of FSH. NAL also had a direct effect increasing the release of LH and FSH, and blocking the inhibitory action of beta h-End.     

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.     

Sex differences in secretion pattern of neonatal rat Harderian gland under various environmental lighting conditions

1. Secretion pattern of Harderian gland of neonatal rats maintained under (a) diurnal lighting conditions; (b) continuous light or (c) continuous darkness was studied at light microscopy level. 2. All animals were placed in especially designed cages at 13:00 hr on day 1 and studied on day 7 at 13:00 and 23:00 hr, respectively. 3. Acini with intraluminal secretion were counted in glands from each animal and the results were separately grouped for male and female animals. 4. A diurnal rhythm in secretion pattern of rat Harderian gland in neonatal period was demonstrated. 5. A statistically significant difference was observed in the gland secretion pattern between males and females at both, 13:00 and 23:00 hr when the animals were kept under diurnal lighting conditions. 6. Under continuous light or continuous darkness, the diurnal rhythm in secretion pattern was lost and no significant differences were seen when data from males were compared to those from female neonates. 7. Results are discussed in terms of the possible function of Harderian gland as element of an extraretinal photoreceptor system involved in the regulation of pineal function in neonatal rats.     

Analysis of androgen action on pituitary gonadotropin and prolactin secretion in ewes

To study the role of androgens in the control of gonadotropin and prolactin secretion in ther ewe, we have characterized androgen receptors in pituitary cytosol, and investigated the effect of androgens on pituitary hormone release in vivo and in vitro. High affinity, low capacity receptors, with an affinity for methyltrienolone (R1881) greater than 5 alpha-dihydrotestosterone (5 alpha-DHT) greater than testosterone (T) much greater than androstenedione (A4), estradiol-17 beta (E2) and progesterone (P), were identified in pituitary cytosol. Addition of 1 nM 5 alpha-DHT, but not A4, inhibited luteinizing hormone (LH) release from pituitary cells in vitro, induced by 10(10) to 10(-7) M luteinizing hormone releasing hormone (LHRH). The release of follicle-stimulating hormone (FSH) with 10(-9) M LHRH was inhibited when cells were incubated with 1 nM 5 alpha-DHT. 5 alpha-DHT had no effect when higher or lower doses of LHRH were used. In ovariectomized ewes, neither an i.v. injection of 1 mg, nor intracarotid injections of up to 1 mg, 5 alpha-DHT affected plasma LH, FSH or prolactin levels, despite dose-related increases in plasma 5 alpha-DHT levels. Daily or twice daily i.m. injections of 5 mg 5 alpha-DHT in oil did not affect LH or FSH levels, but daily injections of 20 mg significantly reduced plasma LH levels within 4 days and plasma FSH levels within 6 days. Thus, despite the presence of androgen receptors in the ewe pituitary, we conclude that androgens per se are of minimal importance in the regulation of pituitary LH, FSH and prolactin secretion in the ewe. The low binding affinity of A4 and the lack of its effect on hormone secretion in vitro suggests that A4 may act as an estrogen precursor rather than an androgenic hormone. The function of the pituitary androgen receptor remains to be established.