Binding of gonadotropin releasing hormone agonist to rat ovarian granulosa cells

We have previously shown that gonadotropin releasing hormone (GnRH) and its agonists inhibit ovarian functions by a direct action on ovarian granulosa cells $\text{in vitro}$. A labeled GnRH agonist, [des-Gly¹⁰, D-Ser (TBu)⁶, Pro⁹-NHEt]GnRH, was used here to examine the possibility that these inhibitory actions of GnRH were mediated through specific receptors which recognize GnRH. Ovarian membrane fractions obtained from immature, hypophysectomized diethylstilbesterol-treated rats were incubated with the ¹²⁵I-GnRH agonist and specific binding was determined by a filtration assay. Stereospecific, high affinity binding was detected in the ovarian membranes; the dissociation constant for the labeled GnRH agonist was determined to be 0.84 ± 0.33 × 10^?10 M and the binding capacity was calculated to be 12.9 fmol/mg protein, or 0.142 fmol/μg DNA. The binding affinity for the GnRH decapeptide was 3.3 times lower than that of the GnRH agonist whereas two GnRH partial peptides did not compete for the ¹²⁵I-agonist binding. After sequential treatment with FSH, LH and prolactin to the hypophysectomized female rats, the ovarian GnRH binding capacity increased per ovary, but decreased per mg ovarian protein.Furthermore, ovarian granulosa cells were isolated and their binding capacity was determined to be 25.2 fmol/mg protein, or 0.133 fmol/μg DNA, suggesting that the granulosa cells contain GnRH binding sites. Thus, this report demonstrates the presence of stereospecific, high affinity GnRH binding sites in the rat ovarian granulosa cells.     

Biphasic action of retinoids on gonadotropin receptor induction in rat granulosa cells in vitro

Vitamin A (retinol) has been held to be uniquely essential for normal vision and reproduction, all other functions being served by its metabolite retinoic acid. The inability of retinoic acid to maintain adequate serum progesterone is implicated as the cause of fetal resorption. The availability of lipoproteins is a major limiting factor in progesterone production and the ovarian expression of lipoprotein receptors is dependent on the action of luteinizing hormone (LH). Therefore, we investigated the effects of retinol and retinoic acid on LH receptor induction by ovarian cells in an attempt to determine the basis for the reported differences in the gonadal action of these two retinoids. Our results indicate that retinoic acid (10(-10) M) and retinol (10(-8) M) each synergistically enhance the ability of follicle stimulating hormone (FSH) to induce LH-receptors and to stimulate the formation of cyclic adenosine 3',5'-monophosphate (cAMP) and progesterone. However, at higher concentrations, both retinoids inhibited these effects of FSH. For every measured effect, retinoic acid was more potent than retinol. Since retinol is metabolized to retinoic acid in other tissues, these results suggest that retinoic acid may be the mediator of the action of retinol on the ovary and that retinol's unique effect on reproduction needs to be investigated further.     

The effect of luteinizing hormone releasing hormone and anti-luteinizing hormone releasing hormone antibodies on chorionic gonadotropin and progesterone secretion by human placental villiin vitro

Gonadotropin releasing hormone has been located and found to be secreted by the human placenta in culture. Addition of the releasing hormone upto 1μg concentration in the placental cultures brings about stimulation of chorionic gonadotropin and progesterone secretion. Higher amounts of the decapeptide has an inhibitory influence on both the gonadotropin and the steroid production. The action of the releasing hormone on the placenta could be blocked by the anti-luteinizing hormone releasing hormone monoclonal antibodies indicating a possible site of action of the antibodies for control of fertility     

Effects of prolactin on progestin secretion by human granulosa cells in culture

Concentrations of human prolactin (hPrl) greater than or equal to 600 ng/ml produced inhibition of progestin production in cultures of granulosa cells pooled from follicles of women stimulated with clomiphene citrate-human chorionic gonadotropin (hCG). However, cells collected from follicles of human menopausal gonadotropin (HMG)-hCG-treated patients did not demonstrate a significant reduction in progestin secretion in response to hPrl. We conclude that high concentrations of hPrl can result in inhibition of steroidogenesis, but the expression of the inhibitory effects of Prl depends upon the hormonal treatments used to stimulate follicular growth.     

Hormonal regulation of tissue-type plasminogen activator messenger ribonucleic acid levels in rat granulosa cells: mechanisms of induction by follicle-stimulating hormone and gonadotropin releasing hormone

FSH and GnRH both stimulate rat granulosa cells to produce tissue-type plasminogen activator (tPA). We have studied the molecular mechanisms involved in the action of these hormones by measuring tPA mRNA levels in primary cultures of rat granulosa cells. When granulosa cells were cultured in the presence of FSH or GnRH the level of tPA mRNA was increased 20- and 12-fold, respectively. The induction of tPA mRNA by FSH and GnRH was additive and the kinetics of induction differed. The effect of FSH could be mimicked by bromo-cAMP or forskolin, and was drastically enhanced by cotreatment with the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine. These findings are consistent with the notion that FSH mediates its effect through the protein kinase A pathway. GnRH is believed to augment phospholipid turnover in granulosa cells, leading to the activation of the protein kinase C pathway. Like GnRH, the protein kinase C activator phorbol myristate acetate also induced tPA mRNA in granulosa cells. In the presence of the protein synthesis inhibitor, cycloheximide, FSH-stimulated tPA message levels were enhanced by 30-fold, revealing superinduction of tPA mRNA levels by this pathway. In contrast the induction of tPA mRNA by GnRH was inhibited by cycloheximide indicating that the synthesis of an intermediate protein is required for the GnRH effect. Our data suggest that FSH and GnRH increase the tPA mRNA levels by two distinct pathways in cultured granulosa cells, providing a model system for studying the hormonal regulation of tPA gene expression.     

Direct inhibitory effect of gonadotropin releasing hormone in the uterus of rat

Estradiol induced increase in ornithine decarboxylase (ODC) and glucosamine-6-phosphate synthase activities of rat uterus were inhibited by simultaneous treatment with gonadotropin releasing hormone (GnRH) or its agonists. The direct inhibitory effect of GnRH analogs was found to be dose dependent. It was observed that a higher dose of GnRH analog was needed to cause inhibition of glucosamine-6-phosphate synthase when compared to ODC activity. The inhibitory effect of GnRH was not observed if its injection was delayed following estradiol treatment. These results show that the extra-pituitary inhibitory effects of GnRH involves enzymes associated with cell proliferation.     

Splenic macrophages enhance prolactin-induced progestin secretion from mature rat granulosa cells in vitro.

The effect of splenic macrophages on in vitro progestin secretion (the sum of the progesterone and 4-pregnen-20 alpha-ol-3-one concentrations in the medium) from mature rat granulosa cells was examined by means of co-culture techniques. When splenic macrophages (3.0 x 10(5) cells/ml) obtained from adult female rats on the evening of proestrus (1800 h) were added to granulosa cells (1.5 x 10(5) cells/ml) and co-cultured for 96 h in the absence of prolactin (PRL), progestin secretion from granulosa cells did not change. However, co-culture of granulosa cells with the macrophages in the presence of PRL (2 micrograms/ml) significantly enhanced progestin secretion after 48 h of culture. This stimulatory effect on progestin secretion was observed only when the number of macrophages added was more than twice the number of granulosa cells. On the other hand, splenic macrophages obtained on the evening of diestrus had no effect on progestin secretion from granulosa cells even in the presence of PRL. These results suggest that splenic macrophages can enhance PRL action so as to stimulate progestin secretion from granulosa cells and that this function of splenic macrophages varies during the estrous cycle.     

Effect of gonadotropin releasing hormone on ventral prostate of rat

Testosterone induced increase in ornithine decarboxylase (ODC) activity was inhibited by simultaneous treatment with gonadotropin releasing hormone (GnRH) and its analogue in the ventral prostate of rat. Inhibition of 3H-uridine, 3H-phenylalanine and 3H-leucine incorporation into TCA precipitable material was also inhibited by GnRH in the dihydrotestosterone (DHT) treated animals. These studies further confirm that GnRH acts directly on ventral prostate and causes inhibitory effects.     

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.     

Effect on an antagonistic analog of gonadotropin releasing hormone upon ovarian granulosa cell function.

We have recently demonstrated that gonadotropin releasing hormone (GnRH) acts directly on ovarian granulosa cells to inhibit the follicle stimulating hormone (FSH)-induced increase in granulosa cell steroidogenesis $\text{in}$$\text{vitro}$. A GnRH antagonist, [D-pGlu¹, D-Phe², D-Trp^3,6] GnRH (A), which is known to antagonize GnRH-stimulated gonadotropin release by cultured pituitary cells, was tested in the granulosa cell system. GnRH (10^?8M) inhibited estrogen and progesterone production by FSH-treated granulosa cells $\text{in}$$\text{vitro}$, whereas the antagonist A (10^?6M) did not affect FSH stimulation of steroidogenesis. Antagonist A, when added together with GnRH and FSH, blocked the GnRH inhibition of FSH-induced steroidogenesis. Estrogen and progesterone production by granulosa cells was increased by 50% at a molar ratio (IDR₅₀) of $\text{20}\text{1}\text{and}\text{12}\text{1}$ ([antagonist]/[GnRH]), respectively. At 10^?6M, antagonist A completely prevented the GnRH (10^?8M) inhibition. A similar effect of antagonist A was seen in FSH-induced increase of luteinizing hormone (LH) receptor content. FSH treatment for 2 days $\text{in}$$\text{vitro}$ induced an 8-fold increase in LH receptor content in cultured granulosa cells; concomitant treatment with 10^?8M GnRH completely inhibited the FSH effect. Antagonist A (10^?6M), by itself, had no effect on the FSH action. However, when added together with FSH and GnRH, antagonist A completely abolished the inhibitory effect of GnRH. These results demonstrate that the direct inhibitory effect of GnRH on granulosa cell function can be prevented by a GnRH antagonist and that the GnRH action at the ovarian level may require stringent stereospecific interactions of these peptides with putative GnRH recognition sites.     

Cholinergic inhibition of follicle-stimulating hormone-induced progestin production by cultured rat granulosa cells

The influence of cholinomimetics on follicle-stimulating hormone (FSH)-induced progestin production was studied in a primary culture of rat granulosa cells. Cells were cultured for 2 days with FSH and delta 4-androstenedione in the presence or absence of increasing concentrations of cholinergic agonists. Although ineffective as stimulators of steroidogenesis by themselves, the three nicotinic receptor-selective agonists lobeline, dimethylphenylpiperazinium iodide (DMPP), and phenyltrimethylammonium iodide (PTMA) inhibited FSH-induced progesterone and 20 alpha-hydroxypregn-4-en-3-one production in dose-dependent fashions. The rank order of inhibitory potencies was lobeline greater than DMPP greater than PTMA with IC50 values of 2 X 10(-6) M, 3 X 10(-5) M, and 3 X 10(-4) M, respectively. In contrast, the muscarinic receptor-selective agonists muscarine and bethanechol failed to inhibit steroid production. The inhibitory effect of lobeline on the time course of FSH-induced induced steroid production indicated an immediate inhibitory action; however, this inhibition was readily reversed upon removal of the drug. Further studies demonstrated that the FSH-stimulated increase in intracellular cAMP levels, as well as progesterone production induced by cholera toxin and forskolin (agents that stimulate cAMP production) and by dibutyryl cAMP (a cAMP analog), were also suppressed by lobeline. The present observations indicate that nicotinic, but not muscarinic, cholinergic agonists inhibit progesterone biosynthesis in cultured granulosa cells and suggest that endogenous acetylcholine may play a modulatory role in ovarian steroidogenesis.     

The induction of divergent gonadotropin secretion in vitro by variations in luteinizing hormone releasing hormone pulse regimen

The effects of luteinizing hormone releasing hormone (LHRH) pulse amplitude, duration, and frequency on divergent gonadotropin secretion were examined using superfused anterior pituitary cells from selected stages of the rat estrous cycle. Cells were stimulated with one of five LHRH regimens. With low-amplitude LHRH pulses (regimen 1) in the presence of potentially estrogenic phenol red, LH response in pituitary cells from proestrus 1900, estrus 0800, and diestrus 1,0800 were all significantly larger (P less than 0.05) than the other stages tested. In the absence of phenol red, responsiveness at proestrus 1900 was significantly larger than proestrus 0800, proestrus 1500, and estrus 0800 (P less than 0.01, 0.05, and 0.05, respectively); other cycle stages tested were smaller. No significant differences were observed between cycle stages for follicle-stimulating hormone (FSH) secretion in the presence or absence of phenol red. Because pituitary cells at proestrus 1900 were the most responsive to low-amplitude 4 ng LHRH pulses, they were also used to study the effects of LHRH pulses of increased amplitude or duration and decreased frequency. Increasing the amplitude (regimen 2) or the duration (regimens 3 to 5) increased FSH secretion; this effect was greatest with regimens 3 and 5. When regimens 3 and 5 were studied in pituitary cells obtained at proestrus 1500, FSH was significantly increased by both regimes, but most by regimen 5; furthermore, LH release was significantly reduced. When regimens 3 and 5 were studied in pituitary cells obtained at estrus 0800, FSH release was elevated most significantly by regimen 5. Thus, variations in LHRH pulse regimen were found to be capable of inducing significant divergence in FSH release from superfused anterior pituitary cells derived from specific stages of the estrous cycle.     

Estrogen regulation of progestin biosynthetic enzymes in cultured rat granulosa cells

The mechanism by which estrogens enhance gonadotropin-stimulated ovarian progestin production was investigated by studying the modulation of pregnenolone biosynthesis as well as the activities of 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) in cultured rat granulosa cells. Cells from immature hypophysectomized, estrogen-treated rats were cultured for 3 days with follicle-stimulating hormone (FSH) and/or estrogens. Pregnenolone production was measured in the presence of cyanoketone which inhibits 3 beta-HSD activity. Activities of 3 beta-HSD and 20 alpha-HSD were determined in cell homogenates by direct enzyme assays. Some cells were also primed with FSH to induce luteinizing hormone (LH) receptors for studies on the effects of estrogens on LH-modulated parameters. Pregnenolone production by cultured granulosa cells was stimulated by FSH, while treatment with diethylstilbestrol (DES) or estradiol further enhanced the gonadotropin action. Treatment with FSH increased 3 beta-HSD activity. Similarly, concomitant treatment with DES further enhanced 3 beta-HSD activity in a dose-dependent manner with an apparent ED50 of 10(-8) M. Also, treatment with estrogens alone increased 3 beta-HSD activity. The increases in enzyme activity induced by estrogen alone or in combination with FSH were not associated with changes in the apparent Km values. FSH also stimulated 20 alpha-HSD activity by 2-fold in these cells, while concomitant treatment with DES did not affect the FSH action. In FSH-primed cells, LH stimulated pregnenolone production while the LH action was enhanced by concomitant treatment with the estrogens. Likewise, LH stimulated the activity of 3 beta-HSD, while concomitant DES treatment further augmented LH action. LH did not stimulate 20 alpha-HSD activity when added alone or in combination with DES. Thus, the estrogen enhancement of the gonadotropin-stimulated progesterone production in cultured rat granulosa cells is associated with increases in pregnenolone biosynthesis and the activity of the 3 beta-HSD enzyme, without affecting the 20 alpha-HSD activity.     

Conformation of gonadotropin releasing hormone.

The conformation of the gonadotropin releasing hormone (Gn-RH), whose primary sequence is pGlu-His-Trp-Ser-Tyr-Gly-Leu-Arg-Pro-GlyNH2, and of several of its structural analogues has been studied by circular dichroism, optical rotatory dispersion, and fluorescence spectroscopy. The effects of pH, guanidine, and temperature on fluorescence emission have also been examined. Titration data demonstrate that the histidine and tyrosine residues are free of any mutual interactions. The similarity of emission spectra in water and in guanidine hydrochloride solutions precludes significant interactions between the fluorescent groups and other residues. Neither the temperature nor the pH profiles of the emission intensities of either tyrosine or tryptophan reveal any fixed secondary structure in Gn-RH. Both the extent of alkaline quenching and the distance of 10-11 A calculated from F?rster energy transfer theory are in accord with a randomly coiled structure with only one residue between tyrosine and tryptophan. Furthermore, the circular dichroism spectrum and optical rotatory dispersion do not exhibit any contributions from peptide bonds in an ordered structure, although there is a perturbation of the peptide absorption region due to overlapping bands from side-chain chromophores. Gn-RH, therefore, appears to behave as a random coil polypeptide in water devoid of any intrachain residue interactions. This nonordered structure in Gn-RH and the lack of any significant differences in the physical-chemical properties of the hormone analogues indicate that a predetermined solution conformation is not required for biological activity. In contrast to its behavior in water, Gn-RH in trifluoroethanol exhibits a conformational transition, with the formation of a beta structure. Differences in conformational changes exhibited by several analogues in trifluoroethanol may be relevant to their relative biological activities at the receptor site.     

Inhibition of polyadenylation of mRNA by gonadotropin releasing hormone

The mechanism of extra pituitary inhibitory action of gonadotropin releasing hormone (GnRH) was investigated. Simultaneous injection of GnRH caused dose dependent inhibition of dihydrotestosterone (DHT) induced poly(A) polymerase in the ventral prostate of rat. In addition injection of GnRH to DHT treated animals caused reduced incorporation of 3H-uridine into poly(A)+ mRNA. Since poly(A) segment is known to help in translation of mRNA, it is possible that the inhibitory effect of GnRH is due to the inhibition of polyadenylation of mRNA.     

Regulation of ovarian progestin production by epidermal growth factor in cultured rat granulosa cells

The modulation of ovarian steroidogenesis by epidermal growth factor (EGF) was investigated in cultured rat granulosa cells. Granulosa cells, obtained from ovaries of immature, hypophysectomized, estrogen-treated rats, were incubated for 2 days with EGF, follicle-stimulating hormone (FSH), or EGF plus FSH. Treatment with EGF did not affect estrogen production, but stimulated progestin (i.e. progesterone and 20 alpha-hydroxy-pregn-4-en-3-one) production in a dose-dependent manner. Stimulation of progestin production by EGF appears to be the result of an increase in pregnenolone biosynthesis as well as increases in the activities of 20 alpha-hydroxysteroid dehydrogenase and 3 beta-hydroxysteroid dehydrogenase/isomerase. Treatment with FSH increased both estrogen and progestin production by cultured granulosa cells. When cells were treated concomitantly with EGF, FSH-stimulated estrogen production was inhibited, while progestin production was further enhanced. The EGF enhancement of FSH-stimulated progestin production appears to be the result of synergistic increases in pregnenolone biosynthesis and 20 alpha-hydroxysteroid dehydrogenase activity, resulting in substantial increases in 20 alpha-hydroxypregn-4-en-3-one but not progesterone production. The effects of EGF were shown to be time-dependent. The concept of a direct action of EGF on rat granulosa cells is reinforced by the demonstration of high affinity (Kd approximately 3 X 10(-10) M), low capacity (approximately 5,000 sites/cell) EGF binding sites in these cells. Thus, EGF interacts with specific granulosa cell receptors to stimulate progestin but to inhibit estrogen biosynthesis.     

Effect of a potent gonadotropin releasing hormone antagonist on pulsatile testosterone and gonadotropin secretion in the male nonhuman primate

A potent gonadotropin releasing hormone (GnRH) antagonist [Ac-delta 3Pro1, pFDPhe2, DTrp3,6]-GnRH was given to adult male monkeys to determine the acute effect on pulsatile testosterone and gonadotropin secretion. Blood was drawn at 30 min intervals over 54 h without anesthesia using a mobile vest and tether assembly to support an indwelling catheter. After a 6 h control period, 0.1, 1.0, 2.0, 4.0 mg GnRH antagonist/kg bw in 1 ml corn oil sc, was given to intact adult male monkeys. The highest dose of GnRH antagonist decreased circulating testosterone within 6 h and for approximately 24-36 h duration. These data demonstrate that this GnRH antagonist can reduce serum testosterone both acutely and for intervals greater than 24 h and that the effective dose in intact animals is several-fold (up to 20 times) greater than in castrate animals.     

Restoration of responsiveness to gonadotropin releasing hormone (GnRH) in calcium-depleted rat pituitary cells.

GnRH-stimulated, but not basal, luteinizing hormone (LH) release from cultured pituitary cells requires extra-cellular calcium. The present studies were designed to show whether cells which had lost responsiveness to GnRH in the absence of extracellular calcium (“Ca²⁺-depleted cells”) could regain responsiveness by readdition of calcium to the media. The addition of calcium-containing medium to cells which were preincubated (75 min) in calcium-free medium resulted in elevated basal LH release. Addition of GnRH to the media in the presence of calcium did not cause additional stimulation of LH release above the elevated basal level. Incubation of Ca²⁺-depleted cells in calcium-containing media for 2 h before measuring responsiveness depressed the basal level to near that seen in control cells and GnRH was able to stimulate LH release, but not to as high a level as in control cells (which were preincubated in 1 mM Ca²⁺-containing media). After incubation of calcium depleted cells in calcium-containing media for 3 h or 5 h, the basal and stimulated levels of LH response were statistically indistinguishable from those seen in control cells.