Independent actions of gonadotropin releasing hormone upon cyclic GMP production and luteinizing hormone release

Gonadotropin releasing hormone (GnRH) and its potent analog [D-Ser(tBu)6]des-Gly10-GnRH N-ethylamide elevate pituitary cyclic GMP levels while stimulating gonadotropin release in cultured pituitary cells. Addition of mycophenolic acid to pituitary cell cultures decreased basal and GnRH-induced cGMP production to undetectable levels, but did not reduce basal or GnRH-stimulated luteinizing hormone (LH) release. Elevation of endogenous cGMP levels by sodium nitroprusside, or addition of cGMP or its potent derivatives, was also without effect on basal or GnRH-stimulated LH release. These findings demonstrate that the elevation of intracellular cGMP during GnRH action does not mediate the release of LH by pituitary cells.     

Preparation and characterization of photoreactive derivatives of GnRH. Persistent activation of function by photoaffinity labeling

A photoreactive derivative of the highly potent gonadotropin releasing hormone (GnRH) agonist, D-Lys6-GnRH(1-9)-ethylamide, was prepared by selective modification of the epsilon-amino group with 2-nitro-4-azidophenyl sulfenyl chloride (2,4-NAPS C1). The modified peptide [D-Lys(NAPS)]6-GnRH-(1-9)-ethylamide was found to be a full agonist of LH release from rat pituitary cells with a relative potency 23 compared to GnRH. Covalent attachment of the photoreactive analog to rat pituitary cells resulted in prolonged activation of LH secretion which could not be inhibited by a potent GnRH antagonist. Persistent stimulation of pituitary gonadotrophs caused by covalently bound hormone led to desensitization of the LH releasing mechanism.     

Regulation of gonadotropin secretion in the anterior pituitary

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

Comparison of the effect of several gonadotropin releasing hormone antagonists on luteinizing hormone secretion, receptor binding and ovulation

The biological activity of three gonadotropin releasing hormone (GnRH) antagonists was evaluated in the following assays: suppression of GnRH-mediated luteinizing hormone (LH) secretion by cultured pituitary cells, suppression of the spontaneous LH release by ovariectomized rats, blockade of ovulation in regularly cycling females and inhibition of binding of a potent radiolabeled agonist to rat pituitary membrane homogenates. The peptides were: [Ac-delta 3Pro1,4FDPhe2, DTrp3,6]-GnRH (Antagonist 1); [Ac-delta 3Pro1,4FDPhe2,DNAL(2)3,6]-GnRH (Antagonist 2); and [Ac-DNAL(2)2,4FDPhe2,DTrp3,DArg6]-GnRH (Antagonist 3). All three antagonists exhibited similarly high potency in suppressing LH secretion in vitro, while Antagonist 1 was the most active peptide in the radioreceptor assay. When administered by gavage, Antagonist 3 exhibited the highest potency to inhibit LH secretion in gonadectomized rats and to block ovulation. Comparison of the oral versus the subcutaneous mode of administration of these analogs indicates that less than 1% is absorbed after gavage. However, these data demonstrate that the intragastric administration of GnRH antagonists can lower gonadotropin secretion and interfere with reproductive functions.     

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.     

Photoaffinity labeling of pituitary GnRH receptors: significance of the position of photolabel on the ligand

Photoreactive derivatives of GnRH and its analogues were prepared by incorporation of the 2-nitro-4(5)-azidophenylsulfenyl [2,4(5)-NAPS] group into amino acid residues at positions 1, 3, 6, or 8 of the decapeptide sequence. The modification of Trp3 by the 2,4-NAPS group led to a complete loss of the luteinizing hormone (LH) releasing as well as LH-release-inhibiting activity of the peptide. The [D-Lys(2,4-NAPS)]6 analogue was a very potent agonist that, after covalent attachment by photoaffinity labeling, caused prolonged LH secretion at a submaximal rate. [Orn(2,4-NAPS)]8-GnRH, a full agonist with a relative potency of 7% of GnRH, after photoaffinity labeling caused prolonged maximal LH release from cultured pituitary cells. In contrast, [Orn(2,5-NAPS)]8-GnRH, although being equipotent with the 2,4-NAPS isomer in terms of LH releasing ability, was unable to cause prolonged LH release after photoaffinity labeling. Thus, [Orn(2,4-NAPS)]8-GnRH is a very effective photolabeling ligand of the functionally significant pituitary GnRH receptor. Based on this compound, a pituitary peptidase resistant derivative, D-Phe6,[Orn(2,4-NAPS)]8-GnRH-(1-9)-ethylamide, was synthesized. This derivative showed high-affinity binding to pituitary membranes with a Kd comparable to those of other GnRH analogues. A radioiodinated form of this peptide was used for pituitary GnRH-receptor labeling. This derivative labeled 59- and 57-kDa proteins in rat and 58- and 56-kDa proteins in bovine pituitary membrane preparations, respectively. This peptide also labeled pituitary GnRH receptors in the solubilized state and therefore appears to be a suitable ligand for the isolation and further characterization of the receptor.     

Coincidence of down-regulation and desensitization in pituitary gonadotrophs stimulated by gonadotropin releasing hormone

The dynamics of gonadotropin releasing hormone (GnRH) induced luteinizing hormone (LH) release was studied $\text{in}$$\text{vitro}$ by superfusion of cultured pituitary cells. Continuous exposure of the cells to GnRH resulted in desensitization of the gonadotroph responsiveness to further stimulation by the hormone. The refractory state was achieved within 4 hr of hormone introduction (10^?7 M) and was accompanied by down-regulation of GnRH receptors (50%) assayed by equilibration with [¹²⁵I]iodo-[D-Ala⁶]des-Gly¹⁰-GnRH N-ethylamide. The data indicate that GnRH can regulate the number of its own receptors, and that desensitization is accompanied by down-regulation.     

Activity of vertebrate gonadotropin-releasing hormones and analogs with variant amino acid residues in positions 5, 7 and 8 in the goldfish pituitary.

All non-mammalian vertebrates as well as marsupial mammals have two or more forms of gonadotropin-releasing hormone (GnRH) in the brain. Goldfish brain and pituitary contains two molecular forms of GnRH, salmon GnRH ([Trp7, Leu8]m-GnRH; s-GnRH) and chicken GnRH-II ([His5, Trp7, Tyr8]m-GnRH; cII-GnRH). Both sGnRH and cII-GnRH stimulate gonadotropin (GtH) as well as growth hormone (GH) release from the goldfish pituitary. The purpose of the present study was to study the activity of the five known forms of GnRHs as well as analogs of mammalian GnRH (m-GnRH) with variant amino acid residues in positions 5, 7 and 8 in terms of binding to GnRH receptors, and release of GTH and GH from the perifused fragments of goldfish pituitary in vitro. All five vertebrate GnRH peptides stimulated both GtH and GH release in a dose-dependent manner, although their potencies were very different. cII-GnRH was somewhat more active than s-GnRH in releasing GtH, whereas s-GnRH tended to have a greater potency than cII-GnRH in terms of GH release. Both chicken GnRH-I (cI-GnRH) and lamprey GnRH (l-GnRH) were significantly less potent than mGnRH, s-GnRH and cII-GnRH in releasing GtH and GH. cII-GnRH binds with higher affinity for the high affinity binding sites compared to all other native peptides. The activity of [Trp7]-GnRH was similar to both s-GnRH and cII-GnRH in releasing GtH and GH. Substitution of His5 resulted in a significant decrease in GtH releasing potencies compared to mGnRH, sGnRH and cII-GnRH. [His5]-GnRH also had lower GH releasing potency than mGnRH and sGnRH. Tyr8, His8 and Leu8 substitutions caused significant decreases in GtH releasing potencies compared to mGnRH, s-GnRH and cII-GnRH, but did not cause a significant change in GH releasing potency. The combination of [His5, Trp7]-GnRH had GtH and GH releasing activities similar to m-GnRH, s-GnRH and cII-GnRH.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of phorbol ester on stimulus-secretion coupling mechanisms in gonadotropin releasing hormone-stimulated pituitary gonadotrophs

The feedback regulatory control mechanism exerted by activated Ca2+/phospholipid-dependent protein C kinase upon gonadotropin releasing hormone (GnRH) binding, stimulation of phosphoinositide turnover and gonadotropin secretion was investigated in cultured pituitary cells. Addition of the tumor promoter phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), at concentrations which activate pituitary protein C kinase, to cultured pituitary cells resulted in up-regulation of GnRH receptors (155% at 4 h). The stimulatory effect of GnRH on [3H]inositol phosphates (Ins-P) production in myo-[2-3H]inositol prelabeled pituitary cells was not inhibited by prior treatment of the cells with TPA (10(-9)-10(-7) M). Higher concentrations of TPA (10(-6)-10(-5) M) inhibited the effect of GnRH on [3H]Ins-P production. Increasing concentrations of TPA or the permeable analog of diacylglycerol 1-oleoyl-2-acetylglycerol (OAG) stimulated luteinizing hormone (LH) release from cultured pituitary cells with ED50 values of 5 x 10(-9) M and 10 micrograms/ml, respectively. No consistent inhibition or additivity of LH release was observed when increasing doses of TPA or OAG were added with a submaximal dose of GnRH. These results suggest that protein C kinase might mediate the known homologous up-regulation of GnRH receptors during the reproductive cycle. Protein C kinase is positively involved in mediating the process of gonadotropin secretion. Unlike many other systems, activation of protein C kinase in pituitary gonadotrophs is not involved in negative feed-back regulation of stimulus-secretion-coupling mechanisms in GnRH-stimulated gonadotrophs.     

Structural modifications of non-mammalian gonadotropin-releasing hormone (GnRH) isoforms: design of novel GnRH analogues

Three natural forms of vertebrate gonadotropin-releasing hormone (GnRH) provided the structural basis upon which to design new GnRH agonists: [His⁵,Trp⁷,Leu⁸]-GnRH, dogfish (df) GnRH; [His⁵,Asn⁸]-GnRH, catfish (cf) GnRH; and [His⁵,Trp⁷,Tyr⁸]-GnRH, chicken (c) GnRH-II. The synthetic peptides incorporated the position 6 dextro ( )-isomers -arginine ( -Arg) or -naphthylalanine ( -Nal) in combination with an ethylamide substitution of position 10. The in vitro potencies for LH and FSH release of these analogues were assessed using static cultures of rat anterior pituitary cells. Efficacious peptides were examined for their gonadotropin-II and growth hormone releasing abilities from perifused goldfish pituitary fragments. Rat LH and FSH release was measured using homologous radioimmunoassays, whereas goldfish growth hormone and gonadotropin-II release were determined using heterologous carp hormone radioimmunoassays. The receptor binding of the most potent analogues was determined in bovine pituitary membrane preparations. Substitution of -Nal⁶ into [His⁵,Asn⁸]-GnRH increased the potency over 2200-fold compared with the native ligand (cfGnRH) in cultured rat pituitary cells. This was equivalent to a 55-fold greater potency than that of the native mammal (m) GnRH peptide. Substitution of -Nal⁶ or -Arg⁶ into dfGnRH or cGnRH-II resulted in potencies that were related to the overall hydrophobicity of the analogues. The [ -Nal⁶,Pro⁹NEt]-cfGnRH bound to the bovine membrane preparation with an affinity statistically similar to that of [ -Nal⁶,Pro⁹NEt]-mGnRH (k_d = 0.40 ± 0.04 and 0.55 ± 0.10 nM, respectively) in cultured rat pituitary cells. All analogues tested released the same ratio of FSH to LH. In goldfish, the analogues did not possess superagonistic activity but instead desensitized the pituitary fragments at lower analogue doses than that of the sGnRH standard suggesting differences in receptor affinity or signal transduction.     

Receptor-binding properties of gonadotropin-releasing hormone derivatives. Prolonged receptor occupancy and cell-surface localization of a potent antagonist analog

The receptor-binding properties and in vitro biological effects of a highly active gonadotropin-releasing hormone (GnRH) antagonist, [N-acetyl-D-p-chloro-Phe1,2D-Trp3,D-Lys6,D-Ala10]GnRH, were compared with those of the GnRH superagonist analog, [D-Ala6] des-Gly10-GnRH-N-ethylamide. In rat pituitary particles and isolated pituitary cells, the 125I-labeled GnRH antagonist showed saturable high-affinity binding (Ka v 8.4 +/- 1.4 X 10(9) M-1) to the same receptor sites which bound the GnRH agonist. The rate of dissociation of the receptor-bound antagonist from pituitary particles and cells was extremely slow in comparison with that of the agonist ligand. Also, dissociation of the antagonist analog was incomplete, with a residual fraction of tightly bound ligand that was proportional to the duration of preincubation. The [D-Lys6]GnRH antagonist prevented GnRH-induced luteinizing hormone release during static incubation and superfusion of cultured pituitary cells, but in contrast to the agonist did not cause desensitization of the gonadotroph. Although the antagonist caused a prolonged reduction in available GnRH receptor sites, this was attributable to persistent occupancy by the slowly dissociating ligand rather than to receptor loss. Autoradiographic analysis of [D-Lys6]GnRH-antagonist uptake by cultured pituitary cells revealed that the peptide remained bound at the cell membrane for up to 2 h, in contrast with the rapid endocytosis of GnRH agonists. The slow dissociation of receptor-bound antagonist was consistent with its ability to cause sustained blockade of GnRH actions, and its prolonged cell-surface location suggests that receptor activation is necessary to initiate the rapid internalization of hormone-receptor complexes that is a feature of the agonist-stimulated gonadotroph.     

Design and synthesis of potent tyr(OMe)5-gonadotropin-releasing hormone (GnRH) analogues with modifications at positions 6, 9 and 10

We have recently reported the synthesis and the conformational properties of some Gonadotropin-releasing hormone (GnRH) analogues in which the tyrosine residue at position 5 is substituted with tyrosine-O-methyl (Keramida et al., Let. Pept. Sci., 3 (1996) 257/Matsoukas et al., Eur. J. Med. Chem., 32 (1997) 927). The analogue [Tyr-(OMe)⁵]-GnRH was found to exert a lower degree of desensitization than the native GnRH peptides in terms of pituitary gonadotropin (GTH) release in goldfish. Compared to GnRH, however, [Tyr-(OMe)⁵]-GnRH exerted a lower GTH-release potency in cultured goldfish pituitary fragments, and was bound with a lower binding affinity to the rat pituitary GnRH receptors. In order to increase the potency of [Tyr-(OMe)⁵]-GnRH, we have synthesized a group of GnRH peptides containing Tyr-(OMe)⁵ in combination with other substitutions at positions 6, 9 and 10 and we have estimated their binding affinity for the rat pituitary receptors and gonadotropin (GTH) release potency in the goldfish pituitary. A selected number of these analogues was also tested for their ability to induce ovulation in seabass. The important structural modifications that increased the binding and gonadotropic activity of [Tyr(OMe)⁵]-GnRH in vitro and in vivo were found to include the replacement of the proline at position 9 with azetidine, glycine amide terminus with an alkyl amide group and Gly⁶ residue with hydrophilic D-amino acids such as D-Arg⁶. Overall, the findings provide SAR information on a group of novel GnRH peptides that can be also used to induce ovulation in teleosts.     

Differential actions of GnRH and rat hypothalamic extracts in release of hypophysial FSH and LH in vitro.

A study was made of the separate patterns of luteinizing hormone (LH) and follicle stimulating hormone (FSH) release from isolated rat pituitary tissue evoked by synthetic gonadotropin releasing hormone (GnRH) or female hypothalamic extracts (HE), respectively, in a continuous perifusion system. Under defined conditions, gonadotropin release from hemipituitaries was relatively stable and reproducible. Absolute levels of LH and FSH release evoked by HE in terms of their GnRH content were always greater than those following exposure to synthetic GnRH at varying doses. Synthetic GnRH released more FSH than LH. In contrast, the HE released slightly higher levels of LH than FSH. The data suggest that the female rat hypothalamus contains substances other than GnRH, capable of releasing both LH and FSH. It is possible that such unidentified components can modify the hypophysial action of GnRH, resulting in particular circumstances in a differential release of LH and FSH.     

Pituitary gonadotropin-releasing hormone receptor content in rats with polycystic ovaries

A single injection of estradiol valerate (EV) induces, after a lag period of 4-6 wk, a chronic anovulatory polycystic ovarian (PCO) condition in adult rats. This condition is associated with a selective compromise of luteinizing hormone (LH) release and/or synthesis reflected in low basal serum LH concentrations, decreased pituitary content of LH, and decreased gonadotropin-releasing hormone (GnRH)-stimulated LH secretion. The present study was undertaken to determine to what extent the aberrant LH release in rats with PCO could be related to alterations in pituitary content of GnRH receptors. Pituitary GnRH-receptor content was assessed by the evaluation of saturation binding of a GnRH analog, [125I]-D-Ala6-des-Gly10-GnRH, to pituitary membrane preparations. The receptor content of pituitaries from rats with PCO was compared to that obtained from intact animals at estrus and diestrus. Receptor levels in ovariectomized normal rats and rats with PCO were also assessed. The pituitary GnRH receptor content in PCO rats was similar to that observed in normal controls at estrus and was significantly lower than that for rats at diestrus. Although a twofold increase in pituitary GnRH receptor content was observed at 28 days following the castration of control rats, GnRH receptor content in the pituitaries of PCO rats, at 28 days following ovariectomy, remained unchanged. Although, castration-induced elevations in mean serum LH and follicle-stimulating hormone (FSH) concentrations were observed in both the PCO and control animals, the rise in both gonadotropins was significantly attenuated in the PCO-castrates when compared to the ovariectomized controls. Since GnRH is a major factor in the regulation of pituitary GnRH receptor content, these findings suggest that hypothalamic GnRH release is impaired in rats with PCO and that this impairment is independent of any influences from the polycystic ovaries.     

Effect of number of receptors for gonadotropin-releasing hormone on the release of luteinizing hormone

The relationship between number of receptors for gonadotropin-releasing hormone (GnRH) and the ability of the anterior pituitary gland to release luteinizing hormone (LH) was examined in ovariectomized ewes. A GnRH antagonist was used to regulate the number of available receptors. The dose of GnRH antagonist required to saturate approximately 50 and 90% of GnRH receptors in ovariectomized ewes was determined. Thirty min after intracarotid infusion of GnRH antagonist, ewes were killed and the number of unsaturated (i.e., those available for binding) pituitary GnRH receptors was quantified. Infusion of 10 and 150 micrograms GnRH antagonist over a 5-min period reduced binding of the labeled ligand to approximately 50 and 12% of controls, respectively. The effect of reducing the number of GnRH receptors on release of LH after varying doses of the GnRH agonist, D-Ala6-GnRH-Pro9-ethylamide (D-Ala6-GnRH) was then evaluated. One of four doses of D-Ala6-GnRH (0.125, 2.5, 50 and 400 micrograms) was given i.v. to 48 ovariectomized ewes whose GnRH receptors had not been changed or were reduced to approximately 50 or 12% of control ewes. In ewes with a 50% reduction in GnRH receptors, total release of LH (area under response curve) was lower than that obtained for controls (P less than 0.01) at the 0.125-micrograms dose of D-Ala (6.1 +/- 0.7 cm2 vs. 13.5 +/- 0.7 cm2) but was not different at the 2.5-, 50- or 400-micrograms doses of D-Ala6-GnRH.(ABSTRACT TRUNCATED AT 250 WORDS)     

Homologous desensitization of gonadotropin-releasing hormone (GnRH) receptors in the goldfish pituitary: effects of native GnRH peptides and a synthetic GnRH antagonist.

Gonadotropin-releasing hormone (GnRH) stimulates release of gonadotropin hormone (GTH) through interaction with high affinity receptors in the goldfish pituitary. In the present study, we investigated desensitization of two native GnRH peptides, [Trp7, Leu8]-GnRH (sGnRH) and [His5, Trp7, Tyr8]-GnRH (cGnRH-II), using superfused fragments of goldfish pituitary in vitro. Pulsatile treatment with either sGnRH or cGnRH-II (2-min pulses given every 60 min) resulted in dose-dependent secretion of GTH from the goldfish pituitary; cGnRH-II had a greater GTH release potency and displayed a greater receptor binding affinity than sGnRH. Both sGnRH and cGnRH-II-induced GTH release were partially inhibited by concomitant treatment with either [D-Phe2, Pro3, D-Phe6]-GnRH or [D-pGlu1, D-Phe2, D-Trp3.6]-GnRH. These antagonists had greater receptor binding affinities than the native peptides, with no stimulatory action on GTH release in the absence of the GnRH agonists. Continuous treatment with either sGnRH or cGnRH-II (10(-7) M), rapidly desensitized pituitary GTH release in a biphasic fashion; initially there was a rapid increase in GTH release of approximately 10-20-fold (phase 1), followed by a sharp decline in GTH release, reaching a stable concentration 2-3-fold above the basal level (phase 2). Further stimulation of the pituitaries with sGnRH or cGnRH-II (10(-7) M) (second treatment) after 60 min recovery resulted in a significantly lower sGnRH or cGnRH-II-induced GTH release compared to that observed during the initial treatment period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Design and Synthesis of Potent Tyr(OMe)5-Gonadotropin-Releasing Hormone (GnRH) Analogues with Modifications at Positions 6, 9 and 10

Summary We have recently reported the synthesis and the conformational properties of some Gonadotropin-releasing hormone (GnRH) analogues in which the tyrosine residue at position 5 is substituted with tyrosine-O-methyl (Keramida et al., Let. Pept. Sci., 3 (1996) 257/Matsoukas et al., Eur. J. Med. Chem., 32 (1997) 927). The analogue [Tyr-(OMe)⁵]-GnRH was found to exert a lower degree of desensitization than the native GnRH peptides in terms of pituitary gonadotropin (GTH) release in goldfish. Compared to GnRH, however, [Tyr-(OMe)⁵]-GnRH exerted a lower GTH-release potency in cultured goldfish pituitary fragments, and was bound with a lower binding affinity to the rat pituitary GnRH receptors. In order to increase the potency of [Tyr-(OMe)⁵]-GnRH, we have synthesized a group of GnRH peptides containing Tyr-(OMe)⁵ in combination with other substitutions at positions 6, 9 and 10 and we have estimated their binding affinity for the rat pituitary receptors and gonadotropin (GTH) release potency in the goldfish pituitary. A selected number of these analogues was also tested for their ability to induce ovulation in seabass. The important structural modifications that increased the binding and gonadotropic activity of [Tyr(OMe)⁵]-GnRH in vitro and in vivo were found to include the replacement of the proline at position 9 with azetidine, glycine amide terminus with an alkyl amide group and Gly⁶ residue with hydrophilicd-amino acids such asd-Arg⁶. Overall, the findings provide SAR information on a group of novel GnRH peptides that can be also used to induce ovulation in teleosts.     

Localization of biotinylated gonadotropin releasing hormone on pituitary monolayer cells with avidin-biotin-peroxidase complexes

The new avidin-biotin-peroxidase complex (ABC) technique was used to localize the [D-Lys6] analog of gonadotropin releasing hormone (GnRH), labeled with biotin, on pituitary monolayer cultures from female rats. Staining was diffuse, or in patches, on the surface of 10-17% of the cells 30 sec-3 min after the addition of 10(-10)-10(-12) M biotin-labeled GnRH. In parallel studies, double stains for gonadotropins showed label on 16.3 +/- 2% of the monolayers. Capping was evident by 3 min after exposure and the stain appeared in dense patches, vesicles, or granules 10-30 min after exposure. The stain was abolished by the addition of a 10- to 100-fold excess of unlabeled [D-Lys6] GnRH. Biotinylated GnRH released luteinizing hormone (LH) and follicle stimulating hormone (FSH) and was either equipotent or 10 times more potent than the unlabeled analog in multiple dose-response tests. The ED50 of the 4 hr release was 0.075 nM for LH and 0.02 nM for FSH. Competitive binding assays showed that the binding affinity of the biotinylated GnRH was within the range found for the unlabeled analog (0.7 nM-IC50). This report describes the localization of biotinylated GnRH on the surfaces of cells exposed to low concentrations of the analog with a technique that requires minimal manipulation of the cells, and is performed in less than one day.     

Regulation of gonadotropin release, GnRH receptors, and gonadotrope responsiveness: a role for GnRH receptor microaggregation

Gonadotropin-releasing hormone (GnRH) stimulates luteinizing hormone (LH) and follicle-stimulating hormone (FSH) release from pituitary gonadotrope cells. Additional receptor-mediated actions of the releasing hormone include homologous regulation of both the GnRH receptor and of cell responsiveness. While it is apparent that the release mechanism is Ca²⁺ mediated, it remains unclear how this receptor-mediated action is integrated with regulation of the receptor and with cell responsiveness. It is the purpose of this review to describe the requirements for gonadotropin release as well as for receptor and response regulation in order to prepare an integrated model for these actions of the releasing hormone.     

Evidence for calcium mediation of gonadotropin releasing hormone action in the pituitary

Despite the relatively long time since the isolation, characterization, and complete chemical synthesis of the gonadotropin releasing hormone (GnRH), very little information has become available which has elucidated the manner by which this hormone evokes gonadotropin release from the pituitary. Recently, a line of evidence has developed which suggests that calcium (Ca²⁺) may play a central role in GnRH stimulation of gonadotropin release from cultured rat pituitary cells.