In vitro effect of leptin on LH release by anterior pituitary glands from female rats at the time of spontaneous and steroid-induced LH surge.

OBJECTIVE: The purpose of this work was to study the direct effect of leptin on LH release by anterior pituitary glands from female rats at the time of spontaneous and steroid-induced LH surge. METHODS: LH responsiveness to leptin by pituitaries from rats killed in the afternoon (1500 h) at different stages of the 4-day estrous cycle (diestrus-1: D1; diestrus-2: D2; proestrus; estrus), ovariectomized (OVX; 15 days post-castration) and ovariectomized steroid-primed (OVX-E(2)/Pg; pretreated with 5 microg estradiol and 1 mg progesterone), was evaluated in vitro. Hemi-adenohypophyses were incubated in the presence of synthetic murine leptin for 3 h. RESULTS: Addition of increasing concentrations of leptin (0.1-100 nmol/l) to the incubation medium of proestrus pituitaries produced a dose-related stimulation of LH release; the maximal increase to 315% of control was obtained with 10 nmol/l leptin. Leptin (10 nmol/l) enhanced LH release at all days of the estrous cycle, the greatest response occurring in proestrus (318%) and the lowest at D1 (123%). In order to evaluate the role of nitric oxide (NO) in the action of leptin on LH release, glands from proestrus rats were incubated in the presence of 10 nmol/l leptin with or without 0.3 mmol/l N(G)-monomethyl-l-arginine (NMMA), a competitive inhibitor of NO synthase (NOS). NMMA completely suppressed the stimulation of LH release induced by leptin. Leptin also stimulated LH release by pituitaries from OVX rats, and treatment with steroid hormones led to a marked increase in the response (OVX: 162% compared with OVX-E(2)/Pg: 263%; P<0.05). For comparative analysis, a similar experimental procedure was carried out using GnRH (10 nmol/l). Leptin acts at the pituitary level in a similar manner as GnRH, although with significantly lower potency. CONCLUSIONS: These results confirm and extend previous reports regarding a direct action of leptin at the pituitary level, stimulating LH release by anterior pituitaries from female rats at the time of spontaneous and steroid-induced LH surge. In the female rat pituitary this leptin action is controlled by gonadal steroids and mediated by NO.

Role of vasoactive intestinal peptide and 5-HT2 receptor subtype in serotonin stimulation of basal and thyrotropin-releasing-hormone-induced prolactin release in vitro from rat pituitary cells.

We have previously demonstrated that 5-HT stimulates not only basal but also thyrotropin-releasing-hormone (TRH)-induced prolactin (PRL) release by acting directly at the pituitary gland level. In the present report, the participation of an autoparacrine action of VIP in the stimulatory effects of 5-HT and the involvement of the 5-HT2 receptor type in mediating serotonin-induced PRL release have been examined. Cultured anterior pituitary cells from ovariectomized adult rats were incubated for 1 h in 1 ml of T3-supplemented medium with or without the test substances. The results obtained in the presence of T3 confirm our previous observations, since treatment of the cells with 5-HT caused dose-dependent increases in basal PRL release, with an approximate EC50 of 3.68 x 10(-8) M, and led to a significant potentiation (1.3-fold) of the TRH-induced PRL release. In order to evaluate the possible participation of vasoactive intestinal peptide (VIP) as mediator of the effects of 5-HT on PRL release, cells were incubated in the presence of 5-HT alone (3-1,000 nM) or 100 nM 5-HT plus 30 nM TRH, with or without 200 nM VIP antagonist (VIP-At): [D,4-Cl-Ph6,Leu17]VIP. VIP-At partially inhibited the release of PRL induced by 5-HT, both basal and TRH-stimulated release. The stimulatory effect of 5-HT, however, was not eliminated by VIP-At, since the PRL released in response to 5-HT was still over the respective control ones. These results further support the findings suggesting that 5-HT acts directly at pituitary level by stimulating PRL release. Addition of the 5-HT2 receptor antagonist, ketanserin (1 microM) into the incubation medium resulted in the loss of cellular responsiveness to 5-HT, preventing not only the stimulatory effect of 5-HT on the basal but also on the TRH-induced PRL release. In conclusion, the results further strengthen the possibility that 5-HT increases the basal PRL release and potentiates the stimulatory effect of TRH by acting directly at the level of the lactotropes. These effects are not simply a consequence of autoparacrine action of VIP. In addition, it was shown that ketanserin completely antagonizes PRL response to 5-HT, indicating the involvement of the 5-HT2 receptor type in mediating PRL release.

Effect of cycloheximide and tunicamycin on the gonadotrophin-releasing hormone stimulated distal glycosylation of luteinizing hormone by rat pituitary cells.

We have previously demonstrated that gonadotrophin-releasing hormone (GnRH) induces not only changes in quantity but also in quality on secreted luteinizing hormone (LH), by increasing [14C]Leu (translation) and [3H]Gal (distal glycosylation) incorporation into newly synthesized hormone. In the present report, we have further examined the GnRH-induced [3H]Gal-LH synthesis and release by treating anterior pituitary cells with polypeptide synthesis and glycosylation inhibitors (cycloheximide and tunicamycin, respectively). Pituitary cells from ovariectomized adult rats were cultured for 4 days and then incubated for different periods (0-5 h) in medium containing [14C]Leu plus [3H]Man or [14C]Leu plus [3H]Gal in the absence (basal) or presence of 10 nmol/L GnRH with or without (control) cycloheximide (1.0 and 4.0 microg/mL) or tunicamycin (0.5 and 2.0 microg/mL). At the end of each incubation period, the cells and the medium were separated and processed for DNA uptake and newly synthesized LH (labeled LH, by immunoprecipitation with a-betaLH) determinations. The velocity of synthesis and release (between 0 and 2 h, and between 2 and 5 h) was calculated by regression analysis and the statistical significance of differences was determined by the slope test. GnRH enhanced the rates of synthesis and release of [14C]Leu-, [3H]Man-, and [3H]Gal-LH to 157 and 237; 164 and 190; and 272 and 508% of basal values, respectively. Cycloheximide totally blocked synthesis and release of [14C]Leu-LH and greatly reduced those of [3H]Man-LH, resulting in the loss of cellular responsiveness to GnRH. Addition of tunicamycin to the pituitary cells inhibited the rates of synthesis and release of [3H]Man-LH which had been induced by GnRH, without altering those of [14C]Leu-LH. These findings indicate that glycosylation is not a condition for GnRH-stimulated LH translation. The GnRH-increased [3H]Gal-LH rates of synthesis and release were affected to a lesser extent by the inhibitors. Thus, GnRH stimulation of distal glycosylation can occur, albeit at a reduced rate, even though protein synthesis and glycosylation are blocked. In conclusion, the present results corroborate that GnRH stimulates the addition of galactose residues into LH molecule. This effect is not simply the consequence of stimulating LH polypeptide chain synthesis. In addition, it is shown that GnRH-increased LH translation is independent of glycosylation.

Rates of proximal and distal glycosylation of luteinizing hormone by cultured rat pituitary cells.

The purpose of the present work was to study the rate of basal luteinizing hormone (LH) glycosylation, discriminating the co-translational (proximal) and the post-translational (distal) glycosylation. The experiments were performed to determine the temporal relationship between the biosynthesis of the peptide chains (by [14C]leucine incorporation: [14C]Leu-LH) and the proximal (by [3H]mannose incorporation: [3H]Man-LH) and distal (by [3H]galactose incorporation: [3H]Gal-LH) glycosylation of LH, by rat pituitary cells in primary culture. In addition, the effects of cycloheximide (translation inhibitor) and tunicamycin (glycosylation inhibitor) on the rates of synthesis and release of [3H]Man-LH and [3H]Gal-LH were studied. The rates of synthesis and release (between 0 and 2 h and between 2 and 5 h) were calculated by regression analysis and the statistical significance of differences was determined by the slope test. The rate of synthesis of [3H]Man-LH (slope = 45.59) parallelled that of [14C]Leu-LH (slope = 41.39), which was in agreement with the assumption that the addition of the high mannose core is a co-translational event. Release of [3H]Man-LH (slope = 4.32) as well as that of [14C]Leu-LH (slope = 2.53) showed a lag period of approximately 2 h. The dynamics of [3H]Gal-LH secretion over the course of incubation, with a slower rate of synthesis (slope = 26.40) and a faster rate of release (slope = 6.34), differed from that of [3H]Man-LH. LH labeled with [3H]Gal was released from the early times of the incubation, indicating that galactose is added in the final stages of the secretory process into LH molecules, which are immediately released. LH translation blockage induced by cycloheximide was associated with a corresponding decrease of [3H]Man incorporation. On the other hand, addition of tunicamycin to the pituitary cells inhibited the rates of synthesis and release of [3H]Man-LH, without affecting those of [14C]Leu-LH. These findings show that proximal glycosylation depends on synthesis of the peptide chains, whereas the addition of the polymannose core is not a condition for translation. The rates of synthesis and release of [3H]Gal-LH were less affected by the antibiotics, and the inhibition was only significant at higher doses and long-time treatments. The present results demonstrate the independence of both steps of LH glycosylation, the rate of [3H]Gal-LH synthesis being 1.7-fold slower and that of release 1.5-fold faster than those of [3H]Man-LH, respectively. The data also suggest that glycosylation is not an essential step in the LH secretory process since the hormone, which is normally secreted in a glycosylated form, was synthesized, transported, and released without the carbohydrate side chains.

GnRH-stimulated glycosylation (proximal and distal) of luteinizing hormone by cultured rat pituitary cells.

In the present work, the effects of GnRH on the translation (by [14C]leucine incorporation; [14C]Leu-LH) and the glycosylation of LH by rat pituitary cells in primary culture were established. The use of specific markers as radioactive precursors made it possible to discriminate the action of the neurohormone on proximal glycosylation (by[3H]mannose incorporation; [3H]Man-LH) as well as distal glycosylation (by [3H]galactose incorporation; [3H]Gal-LH) in the course of synthesis and release of LH. Pituitary cells from ovariectomized adult rats were incubated for different periods between 0 and 5 h in medium containing [14C]Leu plus [3H]Man or [14C]Leu plus [3H]Gal with or without 10 nM GnRH. GnRH increased synthesis and release of newly synthesized LH. The magnitude of the stimulatory effect on the kinetics of [14C]Leu (slope = 63.58; 158% of control) and [3H]Man (slope = 75.15; 161%) incorporation to LH was similar. The action of the neurohormone appears to be exerted on translation, the increased [3H]Man incorporation being a secondary phenomenon arising from the greater amount of available polypeptide chains as acceptors of the polymannose core. However, a direct effect of GnRH on proximal glycosylation cannot be excluded. GnRH also stimulated the kinetics of release of [14C]Leu-LH (slope = 6.14; 236% of control) and [3H]Man-LH (slope = 8.06; 191%). Comparatively, the effect of GnRH on [3H]Gal-LH was detected earlier than that on LH labeled with the other precursors; increases in rates of production (slope = 71.57; 278% of control) and release (slope = 32.08; 494%) were higher than those in [14C]Leu- and [3H]Man-LH kinetics, indicating that GnRH acts specifically on this distal step of LH glycosylation. GnRH enhanced the relative terminal glycosylation ([3H]Gal/[14C]Leu ratio) of total and release LH without modifying the relative proximal glycosylation ([3H]Man/[14C]Leu ration) of the hormone. We conclude that GnRH can induce not only changes in the quantity (greater number of molecules) but also in the quality (molecules more glycosylated) of the secreted LH by acting directly at translation and distal glycosylation level.

Kinetics of translation and glycosylation of pituitary glycoproteins.

The present study determines the basal kinetics of synthesis of translation (by [14C] leucine incorporation, [14C]leu-PROT] and of proximal (by [3H]mannose incorporation, [3H]man-PROT) and distal (by [3H]galactose incorporation, [3H]gal-PROT) glycosylation of total adenohypophyseal glycoproteins, by rat pituitary cells in primary culture. In order to obtain more information regarding the role of both steps of glycosylation on the secretory process, the effects of cycloheximide (CH; translation inhibitor) and tunicamycin (TM;glycosylation inhibitor) on the kinetics of synthesis and release of pituitary glycoproteins were also studied. Cells were incubated in medium containing [14C]leu plus [3H]man or [14C]leu plus [3H]gal, for various time-intervals (from 0.5 to 5 h) in the absence (control) or presence of different doses of CH (1.0; 4.0 or 16.0 micrograms/ml) or TM (0.5; 1.0 or 2.0 micrograms/ml). The kinetics of synthesis (slope = 3488) and release (slope = 622) of [14C]le-PROT were higher than those of the sugar precursors (slopes: [3H]man-PROT = 1751 and 526; [3H]gal-PROT = 1231 and 506). Leucine or mannose-labeled protein was barely detectable in the medium after 2 h incubation, whereas galactose-labeled protein had already been released into the incubation medium by 30 min. Cycloheximide induced translation blockage and, concomitantly, produced a marked inhibition of [3H]man incorporation. On the other hand, TM inhibited the kinetics of synthesis and release of [3H]man-PROT without affecting those of [14C]leu-PROT. The kinetics of synthesis and release of [3H]gal-PROT, although diminished, maintained linearity and increased in function of time, even in the presence of the antibiotics. Thus, the present results on glycoproteins from the pituitary gland are consistent with the previous conclusion for other mammalian glycoproteins that carbohydrate attachment occurs in several steps to molecules destined to be secreted. Addition of mannose (proximal glycosylation) is a co-translational event and that of galactose (distal glycosylation) is post-translational and can be designated as final stages in carbohydrate assembly, occurring close to the time of release. Furthermore, it has been demonstrated that the absence of the carbohydrate side chains of the pituitary glycoprotein does not prevent the intracellular transport of the protein and its export from the cell.

Basal and gonadotrophin-releasing hormone-induced biosynthesis and release of luteinizing hormone: effect of calcium deprivation.

The present study examines the basal and gonadotrophin-releasing hormone (GnRH)-stimulated biosynthesis and release of luteinizing hormone (LH) by pituitary cells in primary culture, and the effect of extracellular calcium deprivation on these events. Pituitaries from ovariectomized adult rats were enzymatically dispersed and cultured for 96 h. The cells were then incubated for 5 h (Expts. 1 and 3) or for different time intervals between 0 and 5 h (Expt. 2), in medium containing [14C]leucine ([14C]leu) and [3H]glucosamine ([3H]gln), with or without GnRH. Total immunoreactive LH (iLH) was measured in the medium and the cell extract by radioimmunoassay. LH translation (as estimated by [14C]leu incorporation into LH; [14C]LH) and LH glycosylation (as estimated by [3H]gln incorporation into LH; [3H]LH) were measured by immunoprecipitation with specific LH beta antiserum in both medium and cell extract. Treating the cells with GnRH caused both time- and dose-dependent increases of iLH in the medium as well as in total (cells plus medium) content, with an approximate ED50 of 0.7 nM. GnRH also stimulated LH biosynthesis by increasing both LH polypeptide chain synthesis and LH glycosylation. The effect of GnRH on LH glycosylation was detected earlier than that on translation, the [3H]LH rates of production and release being higher than those of [14C]LH. These findings suggest that GnRH-induced translation and glycosylation of LH are independently regulated. Removal of extracellular calcium resulted in the loss of cellular responsiveness to GnRH, preventing not only the stimulatory effects of GnRH on total and released iLH but also the GnRH-induced incorporation of both [14C]leu and [3H]gln into newly synthesized LH. These observations suggest that GnRH-stimulated LH glycosylation and LH translation involve calcium-dependent mechanisms. Neither the uptake of radiolabeled precursors nor their incorporation into total protein were affected by GnRH or Ca(2+)-deficient (no added calcium) medium. The results also suggest that the release of newly synthesized LH is regulated differently from previously synthesized stored hormone.

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)

Effect of serotonin on the basal and gonadotrophin-releasing hormone-induced release of luteinizing hormone from rat pituitary glands in vitro.

The effect of serotonin (5-HT) on the basal and gonadotrophin-releasing hormone (GnRH)-stimulated release of luteinizing hormone (LH) was studied in rat adenohypophysis in vitro. Anterior pituitary glands from ovariectomized rats were incubated for 1h in the presence of different doses of 5-HT (0.01 to 3 mumol/l). Serotonin added to the culture medium slightly dimished the basal release of LH and markedly inhibited the release of LH induced by GnRH. Responsiveness to GnRH (3 nmol/l) was significantly reduced, in a dose-dependent manner, by the simultaneous treatment of glands with 5-HT. Maximal inhibition to 65% of the response obtained with GnRH alone, was attained with 1 mumol/l 5-HT. The EC50 value was estimated to be about 1.9 X 10(-7) M. The inhibitory effect of 5-HT was evident within 30 min of incubation. Furthermore, 5-HT appear to exert a short-lasting action, since the rate of basal and GnRH-induced release of LH was reduced during the first hour of incubation, but after 2h the suppressive effects of 5-HT were no longer apparent. Methysergide, a serotonin receptor blocking agent, partially antagonized the inhibitory effect of 5-HT on LH release, either basal or GnRH-stimulated. This suggests that a receptor-mediated component may be involved in the mechanism of 5-HT action. The present results indicate that 5-HT can affect the release of LH by acting directly at the pituitary gland level.

Effect of serotonin on basal and TRH-induced release of prolactin from rat pituitary glands in vitro.

The effect of serotonin on the release of prolactin (PRL) was studied in vitro. Anterior hemipituitary glands from ovariectomized rats were incubated for 1 h in the presence of different doses of serotonin. Serotonin added into the culture medium caused a significant increase in basal PRL release. The effect was dose-related between 10 and 30 nmol/l serotonin, but responsiveness declined towards basal levels with higher concentrations. When studied as a function of incubation time, basal release of PRL was significantly increased up to 1 h but decreased thereafter. Serotonin also enhanced the release of prolactin induced by 30 nmol/l thyrotropin-releasing hormone (TRH), at all doses tested. A serotonin concentration of as little as 30 nmol/l was already effective. A significant response was seen at 15 min and further increases occurred during the following incubation periods. Serotonin (approximately EC50 4.6 X 10(-8) mol/l) was less potent than TRH (EC50 about 1.2 X 10(-8) mol/l) to increase basal PRL release. On the other hand, the indole amine appeared to act with similar potency in stimulating PRL release both basal and TRH-induced. In addition, the combined effect of the releasing agents was found to be additive. These results suggest that serotonin and TRH could act through separate mechanisms. Methysergide, a serotoninergic blocking agent, had no effect on the in vitro PRL release either basal or TRH-induced, but it completely blocked that evoked by serotonin suggesting that serotonin may interact with specific receptors on the lactotropes. These findings clearly demonstrate that serotonin may stimulate the release of PRL by acting directly at the pituitary gland level.

Basal and GnRH-induced release and synthesis of LH and FSH from incubated pituitary glands throughout the 4-day estrous cycle of the rat.

A comparative study of the patterns of LH and FSH released and synthesized during the normal estrous cycle of the rat was performed in vitro. Groups of female rats were killed at 09.00 h and 15.00 h throughout the 4-day estrous cycle and the adenohypophysis incubated for 4 h. Pituitary extracts and media were assayed for LH and FSH by radioimmunoassay. Both hormones exhibited maximum concentrations in tissue and medium on proestrus afternoon. The increased release of LH occurred during the day of proestrus, while that of FSH lasted from the afternoon of proestrus to the morning of estrus. Synthesis of LH exhibited a marked rising phase from the afternoon of diestrus-2 through the morning of estrus. When release and synthesis of LH and FSH were expressed as percentages of hormone concentration at the beginning of the incubation period, the percentages of FSH were greater than those of LH at all stages of the cycle. Addition of synthetic gonadotrophin-releasing hormone (GnRH) to the incubation medium was followed by a dose-dependent increase in release and synthesis of both LH and FSH. Pituitary responsiveness to GnRH reached a peak on the afternoon of proestrus and fell to a minimum during diestrus. Whereas maximum LH responsiveness correlated with the proestrus discharge of the hormone , that of FSH ceased before the basal release of the hormone, which terminates on estrus. The possible role of sex steroid hormones in regulating in vitro secretion of gonadotrophins and pituitary sensitivity to exogenous GnRH is discussed.

Influence of oestrogen administration in vivo and in vitro on the release and synthesis of prolactin from incubated pituitaries.

The release and synthesis of prolactin were studied in incubated adenohypophyses from ovariectomized rats. After a 4 h incubation period the prolactin concentration in the medium markedly increased whereas that in the gland was reduced. However, the concentration of prolactin in the system, tissue plus medium, after 4 h was almost twice as much as that present at the beginning of incubation indicating spontaneous synthesis. This spontaneous release and synthesis of prolactin was greatly increased in incubated glands from ovariectomized oestrogen-treated rats. Oestradiol benzoate was injected in doses of 2.5, 5.0 or 10.0 microgram/rat 2 or 24 h before killing the animals. Lower effects were obtained in glands from 2 h-oestradiol-pre-treated rats than from 24 h-oestradiol-primed rats. Oestradiol-17beta (55, 166, 500 and 1500 ng/ml) added to the incubation medium also enhanced the release and synthesis of prolactin and the effect was more marked in glands from oestrogen injected rats than in those of non-treated animals. The increase was dose-related although the higher doses were less effective. These results provide further evidence of the effect of oestrogen on the release and synthesis of prolactin by a direct action on the pituitary gland. They also show that oestradiol pre-treatment in vivo increase the response of the prolactin cells towards oestradiol in vitro.

Interaction between oestrogen and gonadotrophin- releasing hormone on the release and synthesis of luteinizing hormone and follicle-stimulating hormone from incubated pituitaries.

The release and synthesis of LH and FSH were studied in adenohypophyses from ovariectomized rats incubated for a period of 4 h in flasks containing 1 ml Eagle's medium. One hemipituitary was used as the experimental gland and the other half served as a control. Glands from ovariectomized untreated animals showed a spontaneous release of LH and FSH and the amount of hormones released (per mg gland) by both the hemipituitaries was not significantly different. Also the content of the hormones at the end of the incubation period was similar in both halves. Gonadotrophin-releasing hormone (Gn-RH) added to the incubation medium stimulated the release of LH and FSH. A dose--response relationship was obtained between doses of 0-51 and 8-00 ng/ml medium. Although lower doses were required to increase the release of LH, the amount of FSH released was higher when expressed as a percentage of gland content. Pituitary glands from ovariectomized rats treated with 5 mug oestradiol benzoate 24 h before being killed showed an increase in sensitivity to Gn-RH, but the response decreased when oestrogen was injected 2 h before death. Also the addition of oestradiol-17beta to the incubation medium inhibited LH and FSH release induced by Gn-RH. Gonadotrophin-releasing hormone increased the spontaneous synthesis of LH and FSH observed in the incubated pituitaries. This effect of Gn-RH was stimulated by the injection of oestrogen into the donor animals whereas administration of oestrogen into the medium enhanced the synthesis of LH and partially inhibited that of FSH. These results provide evidence for a dual effect of oestrogen on the release of LH and FSH induced by Gn-RH. They also show that synthesis of gonadotrophic hormones was favoured by oestrogen or by increased gonadotrophin release.