Effects of activin A and somatostatin on intact FSH secretion and intracellular Ca2+ concentration in human FSH-secreting pituitary adenoma cells.

Activin A stimulated synthesis and secretion of intact FSH in dispersed human FSH-secreting adenoma cells. Significant stimulation was observed after 24 hr. Activin A caused an increase in Ca2+ concentration ([Ca2+]i). This response occurred soon after the activin A action. These effects were blocked in Ca(2+)-deficient medium and by nitrendipine (5 microM). Somatostatin inhibited the activin A-induced intact FSH secretion and the [Ca2+]i response. These findings indicated that Ca2+ influx through voltage-gated Ca2+ channel was involved in the activin A induced synthesis and secretion of intact FSH.     

Centrally applied somatostatin influences morphology of pituitary FSH cells but not FSH release

Effects of i.c.v. administered somatostatins on morphology and function of pituitary FSH cells were examined in adult male Wistar rats. The animals were given three 1 microg doses of SRIH-14 or SRIH-28 in 5 microl saline every second day. Controls were given the same volume of saline only. Both SRIH treatments lead to a significant decrease in absolute pituitary weight and volume of FSH cells in comparison with controls. Relative pituitary weight was significantly decreased only after SRIH-28 treatments, while FSH secretion was insignificantly decreased by both SRIH treatments. Our results indicate that i.c.v. applied somatostatins have significant inhibitory effect on absolute pituitary weight and on the volume of FSH cells, without affecting the hormone secretion in male rats.     

Leptin effect on nitric oxide and GnRH-induced FSH secretion from ovine pituitary cells in vitro.

The secretion of gonadotrophins from anterior pituitary cells can be modulated by leptin and signals originating from the immune system, among others, by nitric oxide (NO). There are some studies that have demonstrated a role for leptin and NO in the regulation of FSH in rodents, however, no similar data are available in regards to ewes. Therefore, the objective of the present study was to analyse the leptin effect on GnRH-induced FSH secretion from the ovine anterior pituitary cells in vitro. Additionally, the influence of leptin on NO release and its role in the GnRH and leptin-modulated secretion of FSH from pituitary gland of ewes was investigated. The obtained results show that the influence of leptin on FSH secretion is biphasic. Leptin in concentration 10(-8) and 10(-7) M/l significantly enhances, whereas 10(-6) and 10(-5) M/l of leptin suppresses FSH secretion from the pituitary cells in comparison to the control. The secretion of FSH and NO release under the influence of leptin are in very high positive correlation (r=0.77). The inhibition of NO synthesis with L-NAME., instead, disables leptin from the stimulation of FSH secretion.     

Specificity of the stimulatory effect of prostaglandins on hormone release in rat anterior pituitary cells in culture

Specificity of the effect of prostaglandins (PGs) on hormone release by the anterior pituitary gland was studied using cells in primary culture. Growth hormone (GH) release is stimulated by all eight PGs studied, PGE₁ and E₂ being 1000-fold more potent than the corresponding PGFs. The release of luteinizing hormone (LH), follicle-stimulating hormone (FSH), and prolactin (PRL) remains unchanged upon addition of PGEs. While the basal release of thyrotropin (TSH) is only slightly stimulated by concentrations of PGEs above 10⁻⁶M, an important potentiation of the stimulatory effect of thyrotropin-releasing hormone on TSH release is observed. The release of GH, TSH and LH is stimulated equally well by PGAs and PGBs at concentrations higher than 10⁻⁶M, 3 × 10⁻⁶M, and 10⁻⁵M, respectively. PGFs do not affect the release of any of the measured pituitary hormones at concentrations below 10⁻⁴M. The stimulation of GH release by PGE₂ can be inhibited by the PG antagonist 7-oxa-13-prostynoic acid, a half-maximal inhibition being found at a concentration of 4 × 10⁻⁵M of the antagonist in the presence of 10⁻⁶M PGE₂. In the presence of somatostatin (10⁻⁸M), the inhibition of GH release cannot be reversed by PGE₂ at concentrations up to 10⁻⁴M. 8-bromo-cyclic AMP-induced GH release is additive with that produced by PGE₂.The present data show that 1) of the five pituitary hormones measured, only GH release is stimulated by prostaglandins at relatively low concentrations, 2) the PGE-induced GH release can be competitively inhibited by 7-oxa-13-prostynoic acid, 3) the inhibition of GH release by somatostatin cannot be reversed by PGE₂ and 4) the PGEs increase the responsiveness of the thyrotrophs to TRH.     

A novel action of activin A: stimulation of insulin secretion in rat pancreatic islets

The present study was conducted to examine an action of activin A on insulin secretion from rat pancreatic islets. In a batch incubation system, activin A stimulated insulin secretion in a dose-dependent manner at concentrations higher than 1 nM. Furthermore, activin A greatly potentiated glucose-induced insulin release. When islets were perifused with 1 nM activin A, insulin secretion was barely affected in this system. However, the insulin response to 16.7 mM glucose was greatly enhanced. Both the first and second phases of insulin response were enhanced by 1 nM activin A. These results indicate that, in addition to its known actions on pituitary-gonadal and hematopoietic systems, activin A modulates the function of pancreatic islets and stimulates insulin secretion.     

ACTH secretion in mouse pituitary tumor cells in culture: Inhibition of CRF-stimulated hormone release by somatostatin

Synthetic corticotropin-releasing factor (CRF) stimulates ACTH secretion in the clonal mouse pituitary cell strain AtT20/D16v (D16) in a dose-dependent manner with a half-maximal effect at 2×10^?9M. A single dose of 5×10^?9M CRF maximally stimulates the rate of ACTH secretion during the initial two hrs of treatment. During the period of maximal CRF stimulation intracellular hormone concentration declines progressively to a nadir at 4 hrs. During the ensuing 24 hrs of incubation intracellular hormone levels in CRF-stimulated cells increase gradually toward control values. Somatostatin (SRIF) inhibits the secretory response to CRF. This action of SRIF is dose-dependent with a half-maximal effect at 1×10^?9M and results in decreased maximal ACTH secretion with little effect on the ED₅₀ for CRF.     

Characterization of functional receptors for somatostatin in rat pituitary cells in culture.

GH4C1 cells are a clonal strain of rat pituitary tumor cells which synthesize and secrete prolactin and growth hormone. Somatostatin, a hypothalamic tetradecapeptide, inhibits the release of growth hormone and, under certain circumstances, also prolactin from normal pituitary cells. We have prepared [125I-Tyr1]somatostatin (approximately 2200 C1/mmol) and have shown that this ligand binds to a limited number of high affinity sites on GH4C1 cells. Half-maximal binding of somatostatin occurred at a concentration of 6 x 10(-10) M. A maximum of 0.11 pmol of [125I-Tyr1]somatostatin was bound per mg of cell protein, equivalent to 13,000 receptor sites per cell. The rate constant for binding (kon) was 8 x 10(7) M(-1) min(-1). The rate constant for dissociation (koff) was determined by direct measurement to be 0.02 min(-1) both in the presence and absence of excess nonradioactive somatostatin. Binding of [125I-Tyr1]somatostatin was not inhibited by 10(-7) M thyrotropin-releasing hormones. Substance P, neurotensin, luteinizing hormone-releasing hormone, calcitonin, adrenocorticotropin, or insulin. Of seven nonpituitary cell lines tested, none had specific receptors for somatostatin. Somatostatin was shown to inhibit prolactin and growth hormone production by CH4C1 cells. The dose-response characteristics for binding and the biological actions of somatostatin were essentially coincident. Furthermore, among several clonal pituitary cell strains tested, only those which had receptors for somatostatin showed a biological response to the hormone. We conclude that the characterized somatostatin receptor is necessary for the biological actions of somatostatin on GH4C1 cells.     

LSH and FSH autonomous secretion in long-term pituitary tissue culture

Pituitary tissue from 2- to 6-day-old male rats was cultivated for up to 136 days in medium containing fetal bovine serum, but without added steroid or hypothalamic extracts. After 40 to 70 days of sustained release of LH and FSH at a very low level, there was an increase in the quantity of both, and a plateau of depressed secretion. LH was identified by immunoreactivity in two radioimmunological systems and in gel chromatography. Little, if any, alpha-subunits were liberated in these cultures. It is concluded that basal production of LH and FSH is a constitutive activity of the gonadotropic cell.     

LSH and FSH autonomous secretion in long-term pituitary tissue culture

Summary Pituitary tissue from 2- to 6-day-old male rats was cultivated for up to 136 days in medium containing fetal bovine serum, but without added steroid or hypothalamic extracts. After 40 to 70 days of sustained release of LH and FSH at a very low level, there was an increase in the quantity of both, and a plateau was reached when gonadotropin levels were about twice those obtained during the phase of depressed secretion. LH was identified by immunoreactivity in two radioimmunological systems and in gel chromatography. Little, if any, α-subunits were liberated in these cultures. It is concluded that basal production of LH and FSH is a constitutive activity of the gonadotropic cells. This work was supported by Délégation Générale à la Recherche Scientifique et Technique (Grant No. 76-7-0046). We are grateful to the National Institute of Arthritis, Metabolism and Digestive Diseases for rat FSH and LH radioimmunoassay materials; to Dr. F. Ectors, Ecole Vétérinaire, Brussels, for second antibody and heterologue LH radioimmunoassay materials; and to Miss J. Bois for secretarial assistance.     

Paracrine effect of folliculo-stellate cells on the growth factor-like action of activin A in anterior pituitary cultures.

Several studies have shown that pituitary folliculo-stellate (FS) cells exhibit local functions within the pituitary gland. On the other hand, we have shown previously that activin A increases the number of FSH-producing gonadotropes in cultured rat anterior pituitary cells. In this study, we investigated whether FS cells exert an influence on the action of activin A. FS cells were prepared by culturing the dispersed rat anterior pituitary cells in media containing 15% fetal calf serum and 6 mM glutamine for 15 days. Most cells had the morphological characteristics of FS cells and S-100 protein immunoreactivity, a specific marker of FS cells. The number of FSH cells, which was higher in activin A-treated than in control cultures, was reduced to the control level by incubation with activin A plus conditioned media from FS cell-enriched cultures (FSCM). This inhibitory effect of FSCM was neutralized by a follistatin antibody, but not by anti-S-100 protein or anti-basic fibroblast growth factor. Furthermore, follistatin suppressed activin A stimulated increases in the number of FSH cells in a similar inhibitory pattern to that of FSCM. Meanwhile, the number of FSH cells was not affected by FSCM or follistatin in the absence of activin A. These results suggest that FS cells are involved in the regulation of the function and/or the morphogenesis of the FSH cell-lineage by affecting the action of activin A, and that this paracrine effect of FS cells is mediated by follistatin.     

Modulatory effect of steroid hormones on GnRH-induced LH secretion by cultured rat pituitary cells.

The purpose of the present experiments was to examine the short- and long-term effects of estradiol-17 beta (E2), progesterone (P), and 5 alpha-dihydrotestosterone (DHT), alone and in combination, on the gonadotrophin-releasing hormone (GnRH)-induced luteinizing hormone (LH) secretion, using an ovariectomized rat pituitary cells culture model. After 72 h in steroid-free medium, pituitary cells were further cultured for 24 h in medium with or without E2 (1 nM), P (100 nM), or DHT (10 nM). Cultures were then incubated for 5 h in the absence or presence of 1 nM GnRH with or without steroids. LH was measured in the medium and cell extract by radioimmunoassay. The results show that the steroid hormones exert opposite effects on the release of LH induced by GnRH, which seems to be dependent upon the length of time the pituitary cells have been exposed to the steroids. In fact, short-term (5 h) action of E2 resulted in a partial inhibition (64% of control) of LH release in response to GnRH, while long-term (24 h) exposure enhanced (158%) GnRH-induced LH release. Similar results were obtained with DHT, although the magnitude of the effect was lower than with E2. Conversely, P caused an acute stimulatory action (118%) on the LH released in response to GnRH and a slightly inhibitory effect (90%) after chronic treatment. GnRH-stimulated LH biosynthesis was also influenced by steroid treatment. Significant increases in total (cells plus medium) LH were observed in pituitary cells treated with E2 or DHT.(ABSTRACT TRUNCATED AT 250 WORDS)     

Neuroendocrine control of FSH secretion: IV. Hypothalamic control of pituitary FSH-regulatory proteins and their relationship to changes in FSH synthesis and secretion

The current dogma is that the differential regulation of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) synthesis and secretion is modulated by gonadotropin-releasing hormone (GnRH) pulse frequency and by changes in inhibins, activins, and follistatins both at the pituitary and at the peripheral level. To date no studies have looked at the overlapping function of these regulators in a combined setting. We tested the hypothesis that changes in GnRH pulse frequency alter the relative abundance of these regulators at the pituitary and peripheral levels in a manner consistent with changes in pituitary and circulating concentrations of FSH; that is, an increase in FSH will be accompanied by increased stimulatory input (activin) and/or reduced follistatin and inhibin. Ovariectomized ewes were subjected to a combination hypothalamic pituitary disconnection (HPD)-hypophyseal portal blood collection procedure. Hypophyseal portal and jugular blood samples were collected for a 6-h period from non-HPD ewes, HPD ewes, or HPD ewes administered GnRH hourly or every 3 h for 4 days. In the absence of endogenous hypothalamic and ovarian hormones that regulate gonadotropin secretion, 3-hourly pulses of GnRH increased pituitary content of FSH more than hourly GnRH, although these differences were not evident in the peripheral circulation. The results failed to support the hypothesis in that the preferential increase of pituitary content of FSH by the lower GnRH pulse frequency could be explained by changes in the pituitary content of inhibin A, follistatin, or activin B. Perhaps the effects of GnRH pulse frequency on FSH is due to changes in the balance of free versus bound amounts of these FSH regulatory proteins or to the involvement of other regulators not monitored in this study.     

Dopaminergic innervation of the rainbow trout pituitary and stimulatory effect of dopamine on growth hormone secretion in vitro

To elucidate which factors regulate growth hormone (GH) secretion in rainbow trout, dopaminergic innervation of the rainbow trout pituitary along with the action of dopamine in vitro, were studied. Brains with attached pituitaries were double-labeled for putative dopaminergic neuronal fibers and somatotropes, using fluorescence immunohistochemistry. A direct dopaminergic innervation to the proximal pars distalis (PPD) with dopaminergic fibers terminating adjacent to somatotropes was demonstrated. Growth hormone secretion from whole pituitaries was measured in perifusate using a homologous GH-RIA. Dopamine (DA; 10(-7)-2x10(-6) g ml(-1)) increased basal GH secretion, with the GH secretion normalizing again after the DA exposure was halted. When pituitaries were pre-treated with somatostatin-14 (SRIF-14; 10(-12)-10(-9) g ml(-1)), before being exposed to different doses of DA, there was an inhibition of GH secretion which was not reversed after treatment of SRIF-14 was halted, unless DA was added. It is concluded that dopamine can function as a GH secretagogue in the rainbow trout pituitary gland.     

Inhibin secretion during the rat estrous cycle: relationships to FSH secretion and FSH beta subunit mRNA concentrations

Serum inhibin and FSH and FSH beta subunit mRNA levels were measured at 3h intervals throughout the 4 day estrous cycle in female rats and hourly between 1000 and 2400 h of proestrus. On proestrus, serum inhibin concentrations fell during the late morning-early afternoon, then increased transiently during the late afternoon gonadotropin surges. Inhibin levels decreased during the late evening of proestrus, coincident with the FSH surge-related rise in FSH beta mRNA levels. Serum inhibin remained relatively stable during estrus and early metestrus, but rose during the late evening of metestrus and remained elevated until early diestrus. FSH beta mRNA levels were elevated on late estrus and early metestrus and declined during the evening of metestrus as serum inhibin levels increased. These data show that concentrations of serum inhibin change during the estrous cycle and that a general inverse relationship exists between serum inhibin and FSH levels and FSH beta mRNA concentrations in the pituitary. This suggests that inhibin may inhibit FSH beta gene expression and FSH secretion during the 4 day cycle in female rats.     

Feedback control of FSH secretion in the male rat

Site of feedback control of FSH secretion in the male rat was studied by measuring changes in serum LH, FSH and hypothalamic LH-RH by radioimmunoassay in rats after castration and after 500 rad X-irradiation to the testis. The rise in serum LH and FSH in castrated animals was associated with a significant fall in hypothalamic LH-RH 16 and 24 days after castration. Serum FSH rose significantly after X-irradiation without a significant change in serum LH or hypothalamic LH-RH content up to 30 days after irradiation. When pituitary halves from X-irradiated animals were incubated in vitro in the presence or absence of synthetic LH-RH, there was a significant rise in FSH (but not LH) released in the incubation medium in the absence of added LH-RH. The response of the pituitaries to LH-RH was, however, not different between control and irradiated rats. It is concluded that the testicular FSH-inhibitory substance acts predominantly at the pituitary gland on the LH-RH independent release of FSH.     

Ovarian estradiol modulates the stimulatory effect of ovulation-inducing factor (OIF) on pituitary LH secretion in llamas

This study was designed to: 1) characterize the effect of ovulation-inducing factor (OIF) on pituitary LH secretion in ovariectomized (OVX) llamas; and 2) determine the effect of OIF on LH secretion in OVX llamas pretreated with estradiol-17β (E-17β) or estradiol benzoate (EB). In Experiment 1, intact and OVX llamas (n = 5 or 6 per group) were assigned to a two by two factorial design: 1) Intact llamas treated with 1 mL of phosphate buffered saline (PBS); 2) Intact llamas treated with 1 mg of purified OIF; 3) OVX llamas treated with 1 mL of PBS; or 4) OVX llamas treated with 1 mg of purified OIF. In Experiment 2, intact and OVX llamas (n = 5 or 6 per group) were randomly assigned to the following groups: 1) Intact llamas treated with 1 mg of purified OIF; 2) OVX llamas treated with 1.0 mL of PBS; 3) OVX llamas treated with 1.0 mg of purified OIF; 4) OVX llamas primed with E-17β, followed by 1.0 mg of purified OIF. Experiment 3 was similar as described for Experiment 2, except that priming was done with EB. In Experiment 1, animal category by treatment and animal category by treatment by time interactions tended (P = 0.08) to affect LH concentration. The effect of OIF on LH released was partly restored (P < 0.05), to the values observed for the intact OIF-treated females, when OVX llamas were primed with E-17β or BE (Experiments 2 and 3). We concluded that peripheral estradiol concentrations in llamas partially modulates the effect of OIF on pituitary LH secretion; however, other ovarian factor(s) could also participate in this modulatory action.     

An in vitro evaluation of adrenergic action on rat pancreatic amylase secretion: lack of stimulatory effect.

To assess direct evidence of adrenergic stimulation in pancreatic amylase secretion, effects of catecholamines on amylase release and intracellular cyclic AMP accumulation were examined with rat dispersed pancreatic acini. We first carried out control studies with CCK-8 and carbamylcholine to evaluate the usefulness of the material for the examination of amylase secretion, and examined VIP-induced cyclic AMP accumulation to assess the agonist evoked intracellular response. As a result, significant effects of CCK-8, carbamylcholine and VIP were observed, which confirmed that dispersed pancreatic acini used in this study were useful in examining exocrine pancreatic secretion. However, catecholamines failed to stimulate amylase release from pancreatic acini, although a significant increase in intracellular cyclic AMP accumulation was observed. Thus the present study strongly suggests that direct involvement of catecholamine is unlikely in pancreatic amylase secretion, in contrast to results reported previously.     

Long-term maintenance of growth hormone secretion in perifused rat anterior pituitary cells

We studied the effect of rat growth hormone-releasing factor-(1-43) acid, rGRF(1-43)OH, on the long-term secretion of rat growth hormone (rGH) in dispersed primary cultured cells of rat anterior pituitaries over a period of 7 days or longer. Results of the perifusion assay show that freshly dispersed cells secrete more rGH than 4-day-old redispersed cells (P less than 0.05), that a stabilization period ranging from 4 to 24 h allows a greater production of rGH per day than longer periods (P less than 0.05) and that the working concentrations of rGRF-(1-43)OH and prostaglandin E2 (PGE2) that insured the best responsiveness and longer viability are 50 pM and 10-1000 nM, respectively. Under these conditions, the cells continued secreting rGH after 42 days of perifusion, and 315 milligrams of rGH was produced over that period.