LH-releasing activity and receptor binding of pHGnRH 14-26 analogues

The human gonadotropin-releasing hormone (GnRH) precursor consists of the GnRH sequence followed by a cleavage and amidation site and a 56-amino acid carboxyl-terminal extension (pHGnRH - precursor human GnRH) which has been shown to stimulate gonadotropin release. This activity has been localized to a decapeptide sequence (corresponding to pHGnRH 17-26) in its amino-terminal region using human pituitary cell cultures. To further characterize the structural features required for gonadotropin release, two analogues, [D-Ala17]pHGnRH 14-26 and [D-Trp22]pHGnRH 14-26, with D-amino acid substitutions inside and peripheral to this decapeptide sequence were chemically synthesized. pHGnRH 14-26 and the D-Ala17 analogue were inactive and GnRH, pHGnRH 14-36 and the D-Trp22 analogue stimulated luteinizing hormone release from cultured rat pituitary cells in a calcium-dependent, dose-responsive manner. Experiments and receptor binding studies with the active pHGnRH peptides in conjunction with GnRH or a GnRH antagonist suggest that the active pHGnRH peptides act through the GnRH receptor.     

The delineation of a decapeptide gonadotropin-releasing sequence in the carboxyl-terminal extension of the human gonadotropin-releasing hormone precursor

The human gonadotropin-releasing hormone (GnRH) precursor consists of the GnRH sequence followed by a 59-amino acid carboxyl-terminal extension. A 56-amino acid peptide within this extension has been shown to stimulate gonadotropin release, and this activity has been localized to its amino-terminal region. A series of seven overlapping peptide fragments corresponding to the first 24 amino acids of the carboxyl-extension of the GnRH precursor were synthesized and tested for their ability to stimulate luteinizing hormone and follicle-stimulating hormone release from cultured human anterior pituitary cells. All active peptide fragments were found to incorporate the decapeptide sequence Asn-Leu-Ile-Asp-Ser-Phe-Gln-Glu-Ile-Val which is regarded as a minimal structural requirement delineated for gonadotropin-releasing activity. A further flanking sequence extending this active region from its carboxyl terminus was found to enhance gonadotropin-releasing activity although the flanking sequence itself was inactive. The gonadotropin release stimulated by the active peptides wa shown to be a dose- dependent, specific, and calcium-dependent phenomenon which occurred independently of the GnRH receptor on the pituitary gonadotrophs as a GnRH antagonist did not inhibit activity.     

Isolation and characterization of cDNAs encoding the rat pituitary gonadotropin-releasing hormone receptor.

Rat pituitary cDNAs encoding the full peptide coding sequence of the rat gonadotropin-releasing hormone receptor were isolated and characterized. The deduced amino acid sequence encodes a protein of 327 residues with seven putative transmembrane domains characteristic of the family of G-protein coupled receptors. It is 95% identical at the amino acid level with the mouse gonadotropin-releasing hormone receptor. An mRNA of 4.5 Kb was identified in the rat pituitary, ovary, and testis, and in murine alpha T3 cells. In addition, a larger mRNA species of 5.0-5.5 Kb was present in these rat tissues, and a smaller mRNA species of 1.8 Kb was present in the rat pituitary and ovary, and in alpha T3 cells. The receptor mRNA levels were increased in the female rat pituitary after ovariectomy compared to levels in intact female rats.     

Estrogenic effects of phenol red on rat pituitary cell responsiveness to gonadotropin-releasing hormone

This study investigated whether phenolsulfonphthalein (PR), a common pH indicator in tissue culture media, affects luteinizing hormone (LH) secretion from rat pituitary cells or 17 beta-estradiol (E2) augmentation of pituitary responsiveness to gonadotropin-releasing hormone (GnRH). PR enhanced GnRH-stimulated LH secretion and shifted the GnRH dose-response curve leftward with a relative potency ratio of 0.24 +/- 0.09 (+/- SE; p less than 0.01). The effect of E2 on LH release was significantly diminished by PR, which elevated GnRH-stimulated LH secretion in the absence of E2. This phenomenon was elicited by PR from different sources and was inhibited by the antiestrogen Cl628. Thus, PR exerted estrogen-like effects on rat pituitary cells and caused an underestimation of the degree to which E2 enhanced GnRH-stimulated LH secretion.     

Phosphatidic acid and the calcium-dependent actions of gonadotropin-releasing hormone in pituitary gonadotrophs

The stimulation of luteinizing hormone (LH) release and cyclic GMP (cGMP) production in rat anterior pituitary cells by gonadotropin-releasing hormone (GnRH) are receptor mediated and calcium dependent, and have been shown to be accompanied by increased phospholipid turnover and arachidonic acid release. The incorporation of 32Pi into the total phospholipid fraction of pituitary gonadotrophs was significantly elevated by 10(-8) M GnRH, with specific increases in the labeling of phosphatidylinositol and phosphatidic acid (PA). Since PA acts as a calcium ionophore in several cell types, its effects upon calcium-mediated gonadotroph responses were compared with those elicited by GnRH. In rat pituitary gonadotrophs prepared by centrifugal elutriation, PA stimulated LH release and cGMP production by 9-fold and 5-fold, respectively. The stimulation of LH release by 30 microM PA was biphasic in its dependence on extracellular calcium concentration, rising from zero in the absence of calcium to a maximum of 10-fold at 0.5 mM Ca2+ and declining at higher calcium concentrations. In dose-response experiments, PA was 3-fold more potent at 0.5 mM Ca2+ than at 1.2 mM Ca2+. The cGMP response to PA in cultured gonadotrophs was also calcium dependent, and was progressively enhanced by increasing Ca2+ concentrations up to 1.5 mM. The ability of PA to stimulate both LH release and cGMP formation in a calcium-dependent manner suggests that endogenous PA formed in response to GnRH receptor activation could function as a Ca2+ ionophore in pituitary gonadotrophs, and may participate in the stimulation of gonadotroph responses by GnRH and its agonist analogs.     

Effects of the intensity of the suckling stimulus and ovarian steroids on pituitary gonadotropin-releasing hormone receptors during lactation

These studies examined whether the decrease in pituitary responsiveness to gonadotropin-releasing hormone (GnRH) observed during lactation in the rat results from a change in pituitary GnRH receptors. GnRH binding capacity was determined by saturation analysis using D-Ala6 as both ligand and tracer. During the estrous cycle, the number of GnRH binding sites increased from 199 +/- 38 fmol/mg protein on estrus to 527 +/- 31 fmol/mg protein on the morning of proestrus, whereas there was no change in receptor affinity (Ka, 6-10 X 10(9) M-1), During lactation, females nursing 8 pups on Days 5 or 10 postpartum had 50% fewer GnRH receptors (109-120 fmol/mg protein) than observed during estrus or diestrus 1 (199-242 fmol/mg protein) although receptor affinity was similar among all the groups. No deficits in pituitary GnRH receptors were observed in females nursing 2 pups on Day 10 postpartum. Removal of the 8-pup suckling stimulus for 24 or 48 h resulted in a dramatic increase in GnRH receptor capacity by 24 h from 120 +/- 16 to 355 +/- 39 fmol/mg protein. The rise in GnRH receptors after pup removal was accompanied by an increase in serum luteinizing hormone (LH) and estradiol concentrations. To assess the role of ovarian steroids in determining GnRH receptor capacity during lactation, females were ovariectomized (OVX) on Day 2 postpartum. Suckling of a large litter (8 pups) completely blocked the postcastration rise in serum LH and in pituitary GnRH receptors on Day 10 postpartum (OVX+ 8, 77 +/- 12 fmol/mg protein; OVX+ 0, 442 +/- 38 fmol/mg protein).(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibitory effect of beta-endorphin on gonadotropin-releasing hormone and thyrotropin-releasing hormone releasing activity in cultured rat anterior pituitary cells

To study the effect of human beta-endorphin (beta h-End) on pituitary response to gonadotropin-releasing hormone (LH-RH) and thyrotropin-releasing hormone (TRH) in vitro, we used dispersed rat pituitary cells. When beta h-End (10(-7) M) was simultaneously added along with LH-RH, its stimulatory effect was blocked and naloxone (NAL, 10(-5) M) did not reverse the beta h-End inhibitory effect. NAL alone elicited an increase in LH release, but in the presence of both stimulants (LH-RH and NAL), LH secretion was lower than that observed with LH-RH alone. TRH stimulatory activity of TSH and PRL secretion was blunted by the presence of beta h-End (10(-7) M) and was not reversed by NAL (10(-5) and 10(-3) M). These data suggest that beta h-End directly blocks the LH, TSH- and PRL-secreting activity of both LH-RH and TRH at the pituitary level. This beta h-End effect is not reversed by the specific opiate receptor blocker NAL.     

Demonstration of gonadotropin releasing-hormone receptors on gonadotrophs and somatotrophs of the goldfish: an electron microscope study.

Dispersed pituitary cells of the goldfish were incubated with biotinylated [D-Lys6, Pro9-N-ethylamide] salmon gonadotropin-releasing hormone (sGnRH-A) then avidingold (10 nm), and were fixed, embedded and sectioned. Cells were identified as gonadotrophs, somatotrophs, or prolactin cells using specific hormone antisera and protein-A gold (20 nm) as a marker. Attachment of the biotinylated sGnRH-A to the pituitary cell sections was determined by scanning cell surfaces for the smaller gold particles using the transmission electron microscope. Attachment was observed on gonadotrophs and somatotrophs, but was negligible on prolactin cells. Preincubation with unlabelled salmon gonadotropin-releasing hormone or chicken II gonadotropin-releasing hormone, or omission of the salmon gonadotropin-releasing hormone analog, prevented the reaction. The direct visualization of specific gonadotropin-releasing hormone receptors on gonadotrophs and somatotrophs supports the existence of direct stimulatory actions of gonadotropin-releasing hormone on gonadotropin and somatotropin release in gold-fish.     

Gonadotropin-releasing hormone receptor binding in bovine anterior pituitary

Synthetic gonadotropin-releasing hormone (GnRH) was monoiodinated at a high specific radioactivity with 125I. The iodinated hormone retained full biological activity as assessed by the release of luteinizing hormone in vitro from bovine anterior pituitary tissue slices. Specific binding of 125I-labeled gonadotropin-releasing hormone of high affinity and low capacity was obtained using dispersed bovine anterior pituitary cells. The binding had sigmoid characteristics, compatible with the presence of more than one binding site. The subcellular fraction responsible for binding was identified with the plasma membranes. However, significant binding also occurred in the secretory granules fraction. The plasma membranes were solubilized with sodium dodecyl sulfate. Using gonadotropin-releasing hormone covalently coupled to a solid phase, a protein was purified by an affinity technique from the solubilized plasma membrane preparation which possessed similar binding propperties as plasma membranes, both intact and solubilized. The protein migrated as a single component on polyacrylamide gel in sodium dodecyl sulfate and the estimated molecular weight was 60 000. The character of the gonadotropin-releasing hormone concentration dependence binding as well as association kinetics were multiphasic and suggested the presence of more than one binding site. When analyzed by the Hill plot, the Hill coefficient of all binding curves was always greater than one which is compatible with positive cooperativity. This was further supported by the dissociation studies where the dissociation rate was inversely proportionate to both the gonadotropin-releasing hormone concentration and the time interval during which the gonadotropin-releasing hormone-gonadotropin-releasing hormone receptor protein complex was formed. Using difference chromatography, aggregation of the purified gonadotropin-releasing hormone receptor protein was demonstrated to occur upon its exposure to gonadotropin-releasing hormone. The formed macromolecular complexes bound preferentially 125I-labeled gonadotropin-releasing hormone. It is concluded that a single receptor protein is responsible for gonadotropin-releasing hormone binding in the bovine anterior pituitary. It is a part of the plasma membranes. Its interaction with gonadotropin-releasing hormone provokes transitions of the protein into different allosteric forms and this may be related to the biological effect of gonadotropin-releasing hormone on gonadotropin secretion.     

The ability of prolactin to change the sensitivity of the pituitary of the lactating rat to luteinising hormone releasing hormonein vitro

The ability of prolactin to influence the responsiveness of the lactating rat pituitary to luteinising hormone releasing hormone has been examinedin vitro. The pituitary responsivenessin vivo to luteinising hormone releasing hormone decreased as a function of increase in the lactational stimulus. Prolactin inhibited the spontaneousin vitro release of luteinising hormone and follicle stimulating hormone to a small extent, from the pituitary of lactating rats with the suckling stimulus. However, it significantly inhibited the release of these two hormones from luteinising hormone releasing hormone-stimulated pituitaries. The responsiveness of pituitaries of rats deprived of their litter 24 h earlier, to luteinising hormone releasing hormone was also inhibited by prolactin, although minimal. It was concluded that prolactin could be influencing the functioning of the pituitary of the lactating rat by (a) partially suppressing the spontaneous release of gonadotropin and (b) inhibiting the responsiveness of the pituitary to luteinising hormone releasing hormone.     

Pituitary receptor binding activity of active, inactive, superactive and inhibitory analogs of gonadotropin-releasing hormone.

We have previously described the binding of biologically active ¹²⁵I gonadotropin-releasing hormone to the 10,800 × g membrane fraction prepared from 7-day castrate adult female rat anterior pituitary glands. Specific binding with two equilibrium association constants (10⁹ liters per mole and 10⁵ liters per mole) was found and an equilibrium competitive binding radio-receptor assay established. In order to further characterize the gonadotropin-releasing hormone receptor, 20 synthetic analogs with known bioactivity were tested in the radioreceptor assay. In vivo biological activity correlated with high affinity receptor binding but not with low affinity binding. Inhibitory analogs with no in vivo biological activity and weak antagonistic properties did not bind, while in vivo active or superactive analogs bound to high affinity receptors. These findings suggest that the high affinity gonadotropin-releasing hormone receptor binds only biologically active gonadotropin-releasing hormone like peptides and that this binding may be the initial step in gonadotropin-releasing hormone actions at the pituitary level.     

Demonstration of a nonsteroidal factor in human follicular fluid that attenuates the self-priming action of gonadotropin-releasing hormone on pituitary gonadotropes

The self-priming effect of gonadotropin-releasing hormone (GnRH) on luteinizing hormone (LH) release can be demonstrated in vitro by perfusing pituitary tissue with a continuous GnRH stimulus. A characteristic biphasic response is produced. We have used this system to investigate whether or not human follicular fluid (hFF) contains a nonsteroidal substance that can attenuate the GnRH-induced LH secretion in perfused rat pituitary glands. Steroid-extracted hFF, added to the perfusing medium, attenuated the self-priming action of GnRH in a dose-dependent manner. This was not abolished by selectively depleting the inhibin content of hFF by 97% on an immunoaffinity column. Furthermore, the biological activity of the substance was resistant to heating and was removed by dialysis. It is concluded that hFF contains a nonsteroidal factor, distinct from inhibin, that can attenuate the self-priming action of GnRH on pituitary gonadotropes.     

beta-Sulfonamido gonadotropin-releasing hormone analogs: synthesis and evaluation of several parent hormone properties.

With the aim of producing long-acting analogs of gonadotropin releasing hormone (GnRH), four analogs, containing -X(6) (aa)psi(CH(2)SO(2)NH)-Leu(7) building unit (X(aa)=Gly, Ala, Val or Phe), and a reduced-size analog [Des-Tyr(5)]-GnRH which includes the unit Phe(5)psi(CH(2)SO(2)NH)-Leu(6), and [beta-Ala(6)]-GnRH were synthesized. The peptides were evaluated for their capacity to induce LH-release from rat pituitary cells and to withstand proteolysis by pituitary-derived enzymes, compared with the parent peptide GnRH. Albeit stable toward enzymatic degradation, the sulfonamido containing peptides were only marginally bioactive. [beta-Ala(6)]-GnRH, however, induced LH-release and bound to pituitary receptors nearly as efficiently as GnRH. This analog was also highly stable toward proteolysis suggesting that it may serve as a long-acting GnRH-analog.     

Immunoreactivity to gonadotropin-releasing hormone and gonadotropic hormone in the brain and pituitary of the rainbow trout Salmo gairdneri

Summary Immunoreactivity to gonadotropin-releasing hormone (GnRH) and gonadotropic hormone (GTH) was studied at the light-microscopical level in the brain and pituitary of rainbow trout at different stages of the first reproductive cycle using antisera against synthetic mammalian GnRH and salmon GTH. GnRH perikarya were localized exclusively in the preoptic nucleus, both in the pars parvicellularis and the pars magnocellularis. A few somata contacted the cerebrospinal fluid. Not all neurosecretory cells were GnRH-positive, indicating at least a bifunctionality of the preoptic nucleus. We recorded no differences between sexes or stages of gonadal development in the location of GnRH perikarya, whereas gradual changes were found in staining intensity during the reproductive cycle. GnRH fibres ran from the partes parvicellularis and magnocellularis through the hypothalamus and merged into a common tract at the transverse commissure before entering the pituitary. In the pituitary, GnRH was localized in the neural tissue of the neurointermediate lobe and, to a lesser extent, in the neural protrusions penetrating the proximal pars distalis. The bulk of GTH-positive cells was situated in the proximal pars distalis. Some cells were found more rostrally amidst prolactin cells or in the neurointermediate lobe. Only a limited number of GTH cells appeared to be in close contact with GnRH-positive material.     

Interrelationship between estrogen and thyroxine on the release of luteinizing hormone and gonadotropin-releasing hormone in vitro

The present experiments were designed to study the interaction between estradiol benzoate (EB) and thyroxine (T4) given in vivo on the responsiveness of pituitary luteinizing hormone (LH) to gonadotropin-releasing hormone (GnRH) and the release of GnRH in vitro. Ovariectomized-thyroidectomized (Ovx-Tx) rats were injected s.c. with saline or T4 (2 micrograms/100 g b.wt), and oil or EB (0.1 microgram) once daily for 40 days following a 2 x 2 factorial design. All animals were then decapitated and blood samples were collected. Anterior pituitaries (APs) were incubated in vitro with and without 0.1 ng GnRH at 37 degrees C for 4 h. Mediobasal hypothalami (MBHs) were excised and then incubated with and without APs from Ovx donor rats. Concentrations of LH and GnRH in the medium and that of LH in the serum were measured by radioimmunoassay. The LH level in media containing MBHs and donor APs was used as the index of bioactive GnRH release. In Ovx-Tx rats, T4 injections reduced the serum LH concentration, the pituitary LH response to GnRH, and the bioactive as well as the immunoreactive GnRH release. The serum LH levels and the spontaneous as well as the GnRH-stimulated release of LH in vitro were suppressed in Ovx-Tx rats following administration of EB. By contrast, the serum LH concentration, as well as pituitary LH response to GnRH and GnRH release in vitro, were higher in the group treated with both T4 and EB than in that treated with saline and EB. These results suggest that the differential changes in the LH secretion after thyroidectomy of Ovx versus non-Ovx rats are due to an antagonistic effect between T4 and estrogen on the response of pituitary LH to GnRH, and the release of GnRH.     

Stimulation of pituitary gonadotropin release does not require internalization of gonadotropin-releasing hormone

Binding of gonadotropin-releasing hormone (GnRH, pyro-Glu1-His2-Trp3-Ser4-Tyr5-Gly6-Leu7-Arg8-Pro9-Gly-NH210) to its plasma membrane receptor is the first step leading to the release of pituitary luteinizing hormone. As in the case of other plasma membrane receptors, patching, capping, and internalization of this hormone-receptor complex occurs rapidly following exposure of cultured pituitary cells to physiological levels of releasing hormone. In the present study we sought to determine whether gonadotropin release could occur under conditions which rigorously excluded internalization. A GnRH analog, D-Lys6-GnRH (to which a small quantity of [125I]iodoTyr5-D-Lys6-GnRH was added), was coupled by its epsilon-amino group with an N-hydroxysuccinimide ester then, through a 10-A spacer arm, to a cross-linked agarose matrix. Exposure of the product to proteases, soaps, detergents, solvents, chaotropic agents, or cell cultures resulted in dissociation of < 0.28% of biologically active releasing hormone. The apparent potency of the immobilized analog was one-fourth that of the free form and it was still capable of evoking a full luteinizing hormone secretory response. It can, therefore, be concluded that internalization of GnRH is not required for gonadotropin release.     

The gonadotropin-releasing hormone receptor: signals involved in gonadotropin secretion and biosynthesis

The neurohormone gonadotropin-releasing hormone (GnRH) is a decapeptide which is synthesized in the hypothalamus and released into the hypophysial portal system in a pulsatile manner. GnRH exerts its effect on the anterior pituitary gonadotrophs where it regulates the secretion and synthesis of gonadotropins (luteinizing hormone and follicle-stimulating hormone) through receptor-mediated actions. The GnRH receptor has been characterized and shown to be coupled to the formation of 'second messengers' which participate in signal transduction mechanisms. GnRH stimulation of luteinizing hormone release is a Ca2(+)-dependent process. G protein, phosphoinositide hydrolysis, protein kinase C as well as arachidonic acid and some of its metabolites were identified as possible mediators in the process.     

Pituitary gonadotropins, hypothalamic gonadotropin-releasing hormone, and testicular traits of boars exposed to natural or supplemental lighting during pubertal development

Seventy crossbred boars were reared under natural (30 lux) or supplemental lighting (1000 lux) beginning at 4 wk of age. Boars received supplemental lighting from six 40-watt fluorescent bulbs between 0530 and 2030 h. Five boars from each treatment were killed at 67, 91, 119, 155, 182, 210, or 246 days of age. No differences (p greater than 0.05) in pituitary concentrations of luteinizing hormone (LH), follicle-stimulating hormone (FSH), and prolactin (PRL) were found between treatment groups at any age. Total pituitary content of LH, FSH and PRL increased as boars became older, but when expressed as hormone concentration, only PRL increased with age. Content of gonadotropin-releasing hormone (GnRH) in the pituitary stalk-median eminence, preoptic area, and hypothalamus proper was similar (p greater than 0.05) between treatments. When GnRH contents were totaled and combined for the treatment groups, it was found that GnRH content increased (p less than 0.05) as boars became older. No differences (p greater than 0.05) were observed in testicular volume percentage of seminiferous tubules and tubular diameter between lighting treatments. These data demonstrate that the supplemental lighting does not influence puberty in boars by altering hypothalamic content of GnRH or pituitary stores of LH, FSH, and PRL.     

Effects of progesterone on gonadotropin-releasing hormone receptor concentration in cultured estrogen-primed female rat pituitary cells

Acute (0.5–4 h) treatment of estradiol (E)-primed female rat pituitary cells with progesterone (P) augments gonadotropin-releasing hormone (GnRH)-induced LH release, whereas chronic (48 h) P-treatment reduces pituitary responsiveness to the hypothalamic decapeptide. Dispersed E-primed (48 h, 1 nM) rat pituitary cells were cultured for 4 or 48 h in the presence of 100 nM P to assess the effects of the progestagen on GnRH receptors and on gonadotrope responsiveness to the decapeptide. P-treatment (4 h) significantly augmented GnRH-receptor concentrations (4.44 ± 0.6 fmol/10⁶ cells) as compared to cells treated only with E (2.6 ± 0.5fmol/10⁶ cells). Parallel significant changes in GnRH-induced LH secretion were observed. The acute increase in GnRH-receptor number was nearly maximal (180% of receptor number in cells treated with E alone) within 30 min of P addition. Chronic P-treatment (48 h) significantly reduced pituitary responsiveness to GnRH as compared to E-treatment. The GnRH-receptor concentrations (3.9 ± 0.6 fmol/10⁶ cells), however, remained elevated above those in E-primed cells. GnRH-receptor affinity was not influenced by any of the different treatments. These results indicate that the acute facilitatory P-effect on GnRH-induced LH release is at least chronologically closely related to an increase in GnRH-receptor concentration. The chronic negative P-effect on pituitary responsiveness to GnRH, however, shows no relation to changes in available GnRH receptors.     

Rat ghrelin stimulates growth hormone and prolactin release in the tilapia,Oreochromis mossambicus

Recently, ghrelin (Ghr), a new peptide which specifically stimulates growth hormone (GH) release from the pituitary, was identified in the rat and human stomach. Ghrelin has been shown to stimulate GH release by acting through a growth hormone secretagogue (GHS) receptor in the rat. The present study describes the in vitro effect of rat Ghr on the release of GH and two forms of prolactin (PRL(177) and PRL(188)) in the tilapia, Oreochromis mossambicus. Rat Ghr stimulated the release of GH in a dose-related manner after 8 and 24 hr of incubation. Rat Ghr also significantly stimulated the release of PRL(177) and PRL(188) in a dose-related manner after 24 hr. Rat Ghr had no effect on the pituitary content of GH or PRL(188), but significantly increased PRL(177) content. These results show for the first time that rat Ghr significantly stimulates GH and PRL release in teleosts, and suggest that Ghr and a GHS receptor are present in fish.