Intracellular LH Research Articles

Genetic Labeling: New Approaches to Creating a Gonadotroph “ID”

Genetic Labeling: New Approaches to Creating a Gonadotroph “ID”

A Carboxyl-terminal Sequence in the Lutropin β Subunit Contributes to the Sorting of Lutropin to the Regulated Pathway

Although synthesized in the same pituitary gonadotropes, the secretion profiles of lutropin (LH) and follitropin (FSH) differ. LH is secreted through a regulated pathway and associated with a bolus release at mid-estrous cycle. In contrast, the majority of FSH is secreted constitutively with an incremental increase until ovulation. Both share an identicalalpha subunit, and thus thebeta subunit contains determinants for sorting into the regulated pathway. Previously, we demonstrated that a hydrophobic carboxyl-terminal heptapeptide of the LHbeta subunit (Leu-Ser-Gly-Leu-Leu-Phe-Leu), not found in the FSHbeta subunit, influences the intracellular behavior of the LH dimer. To test the hypothesis that the peptide contributes to differential sorting, we monitored the fates of LH and LHDeltaT (LHbeta subunit lacking the carboxyl-terminal seven amino acids) dimers in the rat somatotrope-derived GH(3) cell line in which both the regulated and constitutive secretory pathways operate. Pulse-chase labeling demonstrated that the LHDeltaT dimer was diverted to the constitutive pathway, resulting in a significant decrease in the corresponding intracellular pool. Forskolin stimulated LH dimer release 3-fold, which was accompanied by a parallel decrease of intracellular LH; only marginal forskolin stimulation of LHDeltaT was seen. Immunofluorescence after cycloheximide treatment demonstrated decreased retention of LHDeltaT compared with LH, consistent with increased constitutive secretion of LHDeltaT. We also demonstrated that fusing the heptapeptide to the carboxyl terminus of the FSHbeta subunit resulted in an increased regulated secretion of this FSH analog compared with wild-type FSH. These data are the first to identify a novel structural determinant responsible for the sorting of a member of the glycoprotein hormone family into the regulated secretory pathway.

Protein kinase C cross-talk with gonadotrope progesterone receptor is involved in GnRH-induced LH secretion

In the absence of progesterone (P), the anti-P at the receptor RU486 reduces basal and GnRH-stimulated LH secretion both in vivo and in vitro, demonstrating the existence of a ligand-independent activation of progesterone receptor (LIAPR). The aim of the present study was to determine which component of the intracellular LH secretory pathway activated by GnRH is responsible for LIAPR. To do this, anterior pituitary dispersed cells from female rats in proestrus, cultured in the presence of 17beta-estradiol, were incubated with activators or inhibitors of PKC, cAMP-PKA signalling pathways or intracellular calcium (Ca2+) traffic, in the presence or absence of RU486. Results showed that RU486 reduced both GnRH- and the PKC activator PMA-induced LH secretion. In GnRH-stimulated cells incubated with the PKC inhibitor BIS-I or treated with PMA "overnight", RU486 had no effect on reduced LH secretion, nor on stimulated LH secretion elicited by the Ca2+ ionophore ionomycin. Moreover, when GnRH- or PMA-treated cells were co-incubated with 1 microM of the L-type Ca2+ channel blocker nifedipine or the intracellular Ca2+ chelator BAPTA-AM, RU486 potentiated the expected inhibition of these drugs on LH secretion. Activation (forskolin, 8-Br-cAMP) or inhibition (MDL-12,330A) of the cAMP-PKA signalling cascade affected neither the GnRH- and PMA-induced increase of LH secretion nor the reduction of LH secretion due to RU486. Taken together, the data point to the existence of a Ca2+ -independent PKC-PR cross-talk mechanism as part of the intracellular signalling of GnRH-stimulated LH secretion.

Effect of GnRH and its antagonist (Antarelix) on LH release from cultured bovine anterior pituitary cells.

In the following investigations, the LH secretion of cells from pituitaries in heifers on days 16-18 of their oestrous cycle (n = 14) was analysed. Cells were dissociated with trypsin and collagenase and maintained in a static culture system. For the estimation of LH release, the cells were incubated with various concentrations of mammalian GnRH (Lutrelef) for 6 h. To determine the action of Antarelix (GnRH antagonist), the cells were preincubated for 1 h with concentrations of 10(-5) or 10(-4) M Antarelix followed by 10(-6) M GnRH coincubation for a further 6 h. At the end of each incubation, the medium was collected for LH analysis. Parallel, intracellular LH was qualitatively detected by immunocytochemistry. Changes in the intensity of LH staining within the cells in dependence of different GnRH concentrations were not observed, but a significant increase LH secretion in pituitary cells was measured at 10(-6) M GnRH. Antarelix had no effect on basal LH secretion at concentrations of 10(-4) and 10(-5) M. After coincubation of pituitary cells with Antarelix and GnRH, Antarelix blocked the GnRH-stimulated LH secretion with a maximal effect of 10(-4) M, but the staining of immunoreactive intracellular LH was detected at approximately the same level compared to the pituitary cells treated with exogenous GnRH alone. These data demonstrate that Antarelix is effective in influencing the GnRH-stimulated LH secretion of pituitary cells in vitro. After administration of Antarelix in vivo, the GnRH-stimulated LH secretion of cultured pituitary cells was not inhibited.

Effects of leptin on secretion of LH and FSH from primary cultured female rat pituitary cells.

Leptin, which is the product of the obese gene, is believed to play important roles in pubertal development and reproductive function in females. In a study using adult male rats, it was found that leptin stimulated secretion of gonadotropin from the pituitary in a dose-related manner. However, there has been no such study in female rats. To investigate the effects of leptin on the production of LH and FSH from the pituitary in female rats, using primary cultured pituitary cells. In this study, we determined body weight, serum leptin concentration and serum estradiol (E(2)) concentration in female Wistar rats at 3, 5, 6, 7, 9 and 11 weeks of age, and cultured pituitary cells from 6-week-old female Wistar rats with leptin (0--10(-7) mol/l) and GnRH (0 or 10(-8) mol/l). Then basal and GnRH-stimulated extra- and intracellular LH and FSH were assayed by RIA. Serum leptin concentration increased with increases in body weight and E(2) concentration. The pubertal serum leptin concentration was about 10(-10) mol/l. At a lower or moderate concentration, leptin produced dose-related increases in both basal and GnRH-stimulated extra- and intracellular LH and FSH in pituitary cells. At a concentration of 10 mol/l, leptin significantly (P<0.05) stimulated both basal and GnRH-stimulated extra- and intracellular LH and FSH. However, at greater concentrations, these effects diminished. These results indicated that leptin induced pituitary cells to produce and secrete both LH and FSH, with or without GnRH. The concentration of leptin that induced the greatest production of gonadotropins by pituitary cells was 10(-10) mol/l, which was the same as the physiological pubertal concentration. Leptin may be involved in the onset of puberty. It is also conceivable that leptin may be a cause of ovulatory failure, not only in weight loss but also in weight gain.

A modulatory role for substance P on the regulation of luteinizing hormone secretion by cultured porcine gonadotrophs.

Substance P (SP) has been suggested to regulate gonadotroph function both directly and indirectly in different species. In pigs, the possible role of hypothalamic and pituitary SP in the control of LH release has not been examined. Here, we investigated SP effects on basal and GnRH-stimulated LH secretion by porcine gonadotrophs in vitro, in both static and dynamic culture systems. SP concentrations of 100 nM or above stimulated LH release from monolayer cultures without affecting intracellular LH content. In the same cultures, SP potentiated GnRH (10 nM)-stimulated LH release and reversed the GnRH-induced decrease of gonadotroph LH stores. The GnRH, but not the SP, effect was completely blocked by the potent GnRH-receptor antagonist antide. In superfused pituitary fragments, three successive pulses of SP or GnRH also stimulated LH release, yet the combined administration of both factors did not result in a synergistic stimulation. These results demonstrate that SP acts directly on porcine gonadotrophs to stimulate LH release, and to maintain the levels of hormonal stores, through a GnRH receptor-independent mechanism. Furthermore, our findings suggest that continuous exposure of gonadotrophs to SP would potentiate GnRH-stimulated LH secretion, thus supporting a possible role of SP as modulator of porcine gonadotroph function.

A cholera toxin-sensitive guanyl nucleotide binding protein mediates the movement of pituitary luteinizing hormone into a releasable pool: loss of this event is associated with the onset of homologous desensitization to gonadotropin-releasing hormone.

Cholera toxin (CTX; 5 micrograms/ml), but not pertussis toxin (100 ng/ml), when preincubated with pituitary cells for 18 h, enhances the percentage of cellular LH released in response to continuous or pulsatile administration of 5 x 10(-9) M GnRH. This effect occurs without increasing total (intracellular plus extracellular) LH, indicating that it is best explained by redistribution of LH from a nonreleasable to a releasable pool. This site of action is consistent with the observation that CTX-pretreated cells are also sensitized to stimulation of LH release by the Ca2+ ionophore A23187. The observations that CTX stimulates the production of cAMP in these cells and that the sensitizing action of CTX is mimicked by (Bu)2cAMP (1 mM) are consistent with the view that a CTX-stimulated guanyl nucleotide binding protein, capable of activating adenylyl cyclase, is mediating this sensitization. We used a perifused cell system to show that the movement of LH into a releasable pool is lost with the onset of homologous desensitization due to high pulse frequency or constant administration of GnRH (5 x 10(-9) M, continuous or a pulse each 15 min). Sensitization to CTX is restored by stimulation with a high concentration of GnRH (10(-6) M) or by resetting the pulse frequency to the rate measured in vivo (a pulse each 90 min). Both of these treatments also circumvent the desensitized state, restoring LH release. These results identify a novel lesion associated with the development of desensitization in the gonadotrope and support the role of a CTX-sensitive guanyl nucleotide binding protein in regulation of pituitary responsiveness to GnRH.

Modulation of pituitary gonadotropins and prolactin secretion by testosterone in vitro.

Investigations were undertaken to study the differential modulation of LH, FSH and PRL secretion by testosterone (T) using whole pituitary (PI) or pituitary-hypothalamus coincubates (PHC) as in vitro constructs. PI and PHC from intact and castrated rats were incubated with or without T thrice, for 24 h each, (24 h x 3, total incubation period 72 h). The spent media was replenished every 24 h. At the end of 72 h, a few of the pituitary glands were challenged with 10 nM LHRH for 4 h. The spent media and pituitary glands were analyzed for LH, FSH and PRL using specific RIAs. Incubation of PI or PHC from intact rats with T stimulated the release of LH and FSH but inhibited the release of PRL. T had no effect on the intrapituitary contents of LH but inhibited intrapituitary contents of FSH and PRL, as compared to controls incubated without T. Castration increased intrapituitary contents of LH and FSH with concomitant decrease in PRL levels. Incubation of PI or PHC from castrated rats with T inhibited intrapituitary contents of LH to intact pituitary levels, while PRL levels were further reduced instead of being ameliorated. It is concluded that PI or PHC can be used as convenient in vitro models to monitor the effect of castration or of T modulation of pituitary and hypothalamus functions. T does not affect the synthesis of LH at the gonadotroph level but facilitates the regulation of intracellular LH and FSH levels. It is postulated that T inhibits the synthesis of FSH/PRL at the gonadotroph/lactotroph levels.

Regulation of the Biopotency of Primate Luteinizing Hormone by Gonadotropin-Releasing Hormone in Vitro and in Vivo1

Gonadotropin biological/immunological (B/I) ratios have proven to be valuable indicators of the biopotencies of LH and FSH. Observations of rapidly changing LH B/I have been made which suggest the existence of a readily mobilized pool of highly bioactive pituitary gonadotropins. To test this hypothesis, we have examined the role of GnRH in the regulation of LH B/I in vivo and in vitro. The rhesus monkey was used as a model due to its many physiological similarities with the human. A rapid elevation in circulating LH B/I was observed following GnRH administration to male monkeys that was sustained for at least 2 h (15 min; p less than 0.05). The administration of 1 or 10 nM GnRH to cultured pituitary cells was found to significantly increase the B/I of secreted, but not intracellular, LH (p less than 0.05). In unstimulated controls, the B/I of intracellular LH was higher than that of secreted LH (p less than 0.05). These findings are consistent with the notion that a pool of highly active LH exists within the gonadotrophs in primates. One way that GnRH may regulate the bioactivity of circulating LH is by rapidly mobilizing this gonadotropin pool.

Effect of Inhibin on Activators of Protein Kinase-C and Calcium-Mobilizing Agents which Stimulate Secretion of Gonadotropins in Vitro: Implication of a Postgonadotropin-Releasing Hormone Receptor Effect of Inhibin on Gonadotropin Release*

To further characterize the subcellular mechanisms by which inhibin suppresses GnRH-stimulated gonadotropin release, anterior pituitary cells from adult male Sprague-Dawley rats were treated on day 2 of culture with or without purified 31-kDa bovine inhibin (1-300 pM) for a further 3 days. On day 5, the pretreated cells were washed and incubated in the absence or presence of various secretagogues for 4 h. At the end of the stimulation, the media were saved, and cells were lysed for measurement of both extracellular and intracellular FSH and LH by specific RIAs. Released hormone was expressed as the proportion of total (released plus intracellular) hormone that was available for release in each case. This manipulation of the data corrects for the differential effect of the inhibin pretreatments to suppress intracellular FSH before the stimulation period. Pretreatment for 3 days with inhibin suppressed the proportions of FSH and LH released during 4 h in response to 1) phorbol 12-myristate 13-acetate (100 nM), an activator of protein kinase-C, by maxima of 48% and 53% with inhibin median inhibitory concentrations (IC50) of 17 and 18 pM, respectively; 2) mezerein (100 nM), another type of activator of protein kinase-C, by maxima of 49% and 50% with inhibin IC50 of 19 and 20 pM, respectively; 3) high extracellular K+ (60 mM) by 42% (P less than 0.01) and 38% (P less than 0.01), respectively, with 130 pM inhibin; 4) the calcium ionophore, A23187 (100 microM) by maxima of 54% and 56% with IC50 of 18 and 17 pM, respectively; and 5) GnRH (10 nM) by maxima of 52% and 53% with IC50 of 18 and 19 pM, respectively. However, inhibin had no effect on the proportional release of gonadotropin induced by melittin, an activator of phospholipase-A2. Finally, inhibin had no effect on ACTH release either under basal conditions or in response to CRF (10 nM), phorbol 12-myristate 13-acetate (100 nM), or A23187 (100 microM). We conclude that inhibin suppresses the stimulated release of hormones from gonadotrophs in part by a mechanism common to both gonadotropins that is independent of the previously described inhibitory effect of inhibin on the GnRH receptor. The results are consistent with an action at a site(s) beyond the GnRH receptor, such as protein kinase-C and calmodulin.

Effects of Castration on Luteinizing Hormone and Follicle-Stimulating Hormone Secretion by Pituitary Cells from Male Rats*

Because the role of the pituitary in the testicular control of gonadotropin secretion remains controversial, we examined the effects of castration on the release of LH and FSH under basal conditions and in response to GnRH stimulation by dispersed pituitary cells in monolayer culture as well as by cells perifused with pulses of GnRH. These effects were compared to changes in LH beta, FHS beta, and alpha-subunit mRNA levels determined by Northern blot analysis. Pituitary cells were prepared from 7-week-old intact rats and rats orchidectomized 2 weeks previously. Castration increased basal FSH secretion from monolayer cultures, interpulse FSH release from perifused pituitary cells, FSH beta mRNA concentrations and serum FSH levels each approximately 2-fold, whereas pituitary FSH contents were similar in cells from intact and castrated rats. Pituitary LH content rose 3-fold, LH beta mRNA rose 5.6-fold, and basal LH secretion increased 6-fold, but serum LH levels increased 22-fold. Thus, the change in FSH synthesis inferred from the increase in FSH beta mRNA was proportional to the increase in FSH secretion both in vitro and in vivo. Whereas the basal release of LH in vitro was also proportional to the change in LH beta mRNA, secretion of LH in vivo exceeded these changes, underscoring the importance of increased GnRH to the serum LH castration response. Castration resulted in an increase in the sum of FSH content and secretion during 10 days in culture in the absence of GnRH, indicating ongoing FSH synthesis. Total LH declined in cells from intact rats, and this decline was prevented by castration; this effect may be due to a castration-related decrease in intracellular LH degradation or increased LH synthesis in the absence of GnRH. Castration also augmented the GnRH-stimulated release of LH and FSH from monolayer cultures 4.5- and 1.8-fold, respectively, and increased the amplitude of GnRH-stimulated LH and FSH pulses 5- and 2-fold in experiments with perifused pituitary cells. The EC50 for GnRH was unaffected by castration.(ABSTRACT TRUNCATED AT 400 WORDS)

Effect of Inhibin from Primate Sertoli Cells and GnRH on Gonadotropin Subunit mRNA in Rat Pituitary Cell Cultures

Partially purified inhibin from primate Sertoli cell culture medium (pSCl) suppresses both LH and FSH secretion from cultured rat pituitary cells stimulated with GnRH. To examine the mechanism of action of pSCl, we have measured steady state levels of mRNAs for the gonadotropin subunits in pituitary cell cultures exposed to 10 nM GnRH for 6 h in control or pSCl-containing medium (short term) and after 72-h pretreatment with pSCl or control medium (long term). Messenger RNA levels were determined by Northern analysis using specific cDNA probes for rat FSH beta, LH beta, and the common alpha-subunit. In the long term experiments, pSCl inhibited GnRH-stimulated release of FSH (47.4 +/- 3.3% of control), LH (69.2 +/- 2.3%), and free glycoprotein alpha-subunit (74.2 +/- 4.5%), and intracellular FSH declined to 88.4 +/- 3.5% of control. Concentrations of the subunit mRNAs were all decreased: FSH beta to 54.4 +/- 5.0%, LH beta to 79.6 +/- 9.4%, and alpha to 70.8 +/- 8.7% of control. In the short-term experiments, pSCl also suppressed FSH, LH, and alpha-subunit secretion to 75.9 +/- 3.6%, 79.5 +/- 2.1%, and 90.9 +/- 1.8% of control, respectively. Intracellular LH and alpha-subunit levels were significantly increased in cells treated for 6 h with GnRH and pSCl (155 +/- 18%, 145 +/- 14% of control), while FSH was comparable to control. After 6 h, pSCl selectively reduced the level of mRNA for FSH beta (56.5 +/- 5.8% of control).(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanism of LH Release in Cultured Rat Pituitary Cells.

To investigate the mechanisms of the synthesis and the release of gonadotropin, rat anterior pituitary cells were stimulated in vitro with luteinizing hormone releasing hormone (LH-RH), [D-Ser(tBu)]6 des-Gly-NH2(10) ethylamide (Buserelin) and 12-0-tetradecanoyl phorbol-13-acetate (TPA), and then the LH and LH-beta subunit released into the medium were determined by radioimmunoassay. Buserelin showed its biological activity at a much lower concentration than LH-RH, but both of them caused the release of LH and LH-beta subunit in a dose-dependent manner. Furthermore, intracellular LH synthesis from LH-beta subunit by stimulation with LH-RH or Buserelin was also found. After inducing various degrees of desensitization by stimulation with LH-RH or Buserelin in a dose-dependent manner (the first stimulation), pituitary cells were stimulated with a fixed dose of TPA (the second stimulation) and the released LH was assayed. LH was released almost constantly by the second stimulation, regardless of the dose used for the first stimulation. These results suggest that the C-kinase pathway was unaffected by the desensitization induced with LH-RH or Buserelin.

Regulation of luteinizing hormone subunit biosynthesis in cultured male anterior pituitary cells: effects of gonadotropin-releasing hormone and testosterone.

The purpose of this study was to evaluate the direct effects of testosterone (T) on LH subunit apoprotein synthesis, glycosylation, and release by the male pituitary. Cells from 1-week castrate rats were cultured for 48 h in steroid-free medium, followed by 48 h in medium with or without 10 nM T. The cells were then incubated for 2, 4, 6, 8, or 12 h in medium containing [35S]methionine (35S-Met) or [3H]glucosamine (3H-Gln), with or without 1 nM GnRH (Exp 1) or in medium containing precursors with or without 10 nM T and/or 1 nM GnRH (Exp 2). Radiolabeled precursor incorporation into LH subunits was determined by immunoprecipitation, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In Exp 1, precursor incorporation into total protein (TP) and LH subunits increased linearly over time for at least 8 h. GnRH did not affect precursor incorporation into total protein or 35S-Met labeling of LH subunits, but stimulated a linear time-dependent accumulation of 3H-Gln into total (cells plus media) LH subunits and release of radioimmunoassayable LH into the medium. Based on these results, the effects of T on LH subunit biosynthesis (with or without GnRH) were studied during an 8-h incubation. In Exp 2, GnRH enhanced total 3H-Gln (but not 35S-Met) incorporation into both LH subunits. GnRH stimulated the release of 35S-Met LH alpha and 3H-Gln LH subunits and increased the relative glycosylation of secreted LH subunits without altering the relative glycosylation of intracellular LH subunits. T inhibited radioimmunoassayable LH release and incorporation of both precursors into total and secreted LH subunits (with or without GnRH). However, only the relative glycosylation of secreted LH alpha was reduced by T (with or without GnRH). These data indicate that T acts directly at the pituitary to inhibit LH subunit apoprotein synthesis and selectively inhibit LH alpha glycosylation. Further, these data support the hypothesis that changes in LH glycosylation may be one of the ways by which GnRH and T regulate LH release.

Immunological and biological potencies of the different molecular species of gonadotrophins.

Pituitary gonadotrophins (follicle-stimulating hormone, FSH; luteinizing hormone, LH) exist in different molecular forms within the anterior pituitary gland and serum of several non-mammalian and mammalian species, including man. The number and relative abundance of each gonadotrophin species will depend on the specific technique utilized for their isolation, the tissue source and the physiological status of the donor. Intracellular FSH and LH from glands of rodents (hamsters and rats) and primates exhibit charge heterogeneity and therefore may be separated into several forms or iso-hormones by isoelectric focusing (IEF). These FSH and LH species differ from each other not only in their isoelectric point (pI) but also in their relative abundance, receptor binding activity, biological activity and plasma half-life. Almost all gonadotrophin species isolated from pituitary extracts have also been detected in vitro and in vivo as secreted forms. Less basic rodent LH and FSH forms exhibit low receptor binding and in-vitro biological activities; a similar trend is found in LH and FSH species isolated from glands of monkeys and humans. However, these relatively acidic isohormones have longer circulatory half-lives and higher in-vivo biological activities than less negatively charged forms. The overall pattern of charge heterogeneity of gonadotrophins varies according to the specific endocrine status of the donor. Sex steroid hormones (mainly oestrogens) and gonadotrophin-releasing hormone seem to act in concert at the pituitary level to influence the physicochemical and functional characteristics of gonadotrophins and therefore their biological expression at the target cell. The effects of these factors appear to be mediated through the incorporation of specific carbohydrate residues and/or degree of terminal sugar sulphation at co-post-translational levels. The first result of these complex interactions between the gonad and the hypothalamic-pituitary unit is the production and secretion of various types of gonadotrophin molecules in proportions according with the physiological requirements of the subject at a given time, to perform specific actions upon gonadal maturation and/or function.

Development and retention of phenotypically specialized cells in pituitary allografts in the hamster (Mesocricetus auratus).

We used immunohistochemistry to identify cells present in pituitary allografts in the hamster. Hypophyses removed from neonatal hamsters or adenohypophyses removed from adult females were placed beneath renal capsules of hypophysectomized adult females. Serum PRL, LH, and GH concentrations were measured at two, five and eight weeks after placement of allografts. Allografts were removed after eight weeks and stained for cells containing PRL, LH, FSH, GH, or ACTH. Allografts did not release LH or GH. Those of adult adenohypophyseal tissue released significantly more PRL. The morphology of allografts of neonatal hypophyseal tissue resembled that of the adult adenohypophysis in situ. Lactotrophs, corticotrophs, somatotrophs and LH-cells were observed; very few FSH-cells were present. Allografts of adult adenohypophyseal tissue contained pituitary cells, numerous cavities, often enclosing lymphoid cells, and fibrous tissue. Atypical lactotrophs were the numerically dominant cells in these allografts; all other cells were present. The LH-cells outnumbered FSH-cells. These observations suggest that: (a) development of normal adenohypophyseal morphology can occur in an ectopic position; (b) intracellular hormones are present in cells in an ectopic site; (c) development and retention of intracellular FSH is more dependent on occupation of the normal position of the adenohypophysis than is retention of intracellular LH; and (d) release of PRL occurs from atypical cells in allografts of adult adenohypophyseal tissue.