Response of superfused goldfish pituitary fragments to mammalian and salmon gonadotropin-releasing hormones

Salmon and mammalian gonadotropin-releasing hormones (sGnRH, mGnRH) were tested for their ability to stimulate $\text{in vitro}$ gonadotropin (GtH) release from superfused goldfish pituitary fragments. A two minute exposure to either peptide was sufficient to stimulate a dose-dependent increase in GtH release which reached maximum levels in 15 minutes and returned to baseline within one hour. Both peptides were approximately equipotent in stimulating GtH release, as was a superactive analog of mGnRH. These results demonstrate that sGnRH is capable of directly stimulating GtH release from teleost pituitary tissue, and that structural differences between the three peptides tested do not result in significant differences in $\text{in vitro}$ bioactivity.     

Effects of a gonadotropin-releasing hormone antagonist on gonadotropin levels in Masu salmon and Sockeye salmon

The salmon gonadotropin-releasing hormone (sGnRH) is considered to be involved in gonadal maturation via gonadotropin (GTH) secretion in salmonid fishes. However, there is no direct evidence for endogenous sGnRH-stimulated GTH secretion in salmonids. In this study, to clarify whether endogenous sGnRH stimulates GTH secretion, we examined the effects of the mammalian GnRH (mGnRH) antagonist [Ac-Delta(3)-Pro(1), 4FD-Phe(2), D-Trp(3,6)]-mGnRH on luteinizing hormone (LH) levels in 0-year-old masu salmon Oncorhynchus masou and sockeye salmon Oncorhynchus nerka. First, the effects of the GnRH antagonist on LH release were examined in 0-year-old precocious male masu salmon. GnRH antagonist treatment for 3 hr significantly inhibited an increase in plasma LH levels that was artificially induced by exogenous sGnRH administration, indicating that the GnRH antagonist is effective in inhibiting LH release from the pituitary. Subsequently, we examined the effect of the GnRH antagonist on LH synthesis in 0-year-old immature sockeye salmon that were pretreated with exogenous testosterone for 42 days to increase the pituitary LH contents; the testosterone treatment did not affect the plasma LH levels. GnRH antagonist treatment slightly but significantly inhibited an increase in the testosterone-stimulated pituitary LH content levels. However, no significant differences in the plasma LH levels were observed between the GnRH antagonist-treated and control groups. These results suggest that endogenous sGnRH is involved in LH secretion in salmonid fishes.     

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)     

Effects of factors from ovarian follicular fluid and Sertoli cell culture medium on in-vivo and in-vitro release of pituitary gonadotrophins in the rat: an evaluation of systems for the assay of inhibin.

Inhibin-like activity is present both in testicular and ovarian fluids. Various methods can be used for the detection of this activity. Indirect methods, using organ weights as an endpoint, lack the specificity required for reliable estimation of inhibin-like activity. With in-vivo bioassay systems, using estimation of circulating concentrations of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) in intact or gonadectomized, immature or adult, male or female rats, a suppression of FSH concentrations only is usually observed after injection of inhibin-like material. The largest suppression of FSH concentrations can be obtained in short-term gonadectomized adult female or 35-day-old male rats. Addition of inhibin-like activity to cultured pituitary cells specifically suppresses the spontaneous release of FSH from the cells. After stimulation of cultured pituitary cells with LH-releasing hormone (LH-RH), the release of both FSH and LH are suppressed when inhibin-like activity is present. From dialysis experiments it appears that the molecular weight of the inhibin-like material in follicular fluid is greater than 10 000. However, acid ethanol extracts of this fluid contain a factor with a molecular weight smaller than 10 000, which does not suppress the spontaneous release of FSH from cultured pituitary cells, but diminishes the LH-RH-stimulated release of both LH and FSH. Furthermore, both follicular fluid and Sertoli cell culture medium can stimulate the release of FSH and LH from pituitary cells when these are cultured without addition of fetal calf serum. These results suggest that gonadal fluids contain several non-steroidal factors which can influence the release of gonadotrophins from pituitary cells.     

促性腺激素释放激素及多巴胺对斜带石斑鱼生长激素分泌及其mRNA表达的调控

研究斜带石斑鱼生长激素分泌及其mRNA表达的调控规律对于性别分化的控制、临床药物的选择,以及石斑鱼的增养殖等均具有重要的理论意义和实践意义。本文应用静态孵育系统,采用放射免疫测定法和化学发光液相杂交实验,研究GnRH和DA对斜带石斑鱼GH分泌、GHmRNA合成的调控作用。100nmol／LsGnRH作用斜带石斑鱼脑垂体碎片1也4h,明显促进GH的释放和GHmRNA的合成,并具有时间依存性;10nmol／L～1μmol／LsGnRH作用1h能明显促进斜带石斑鱼脑垂体释放GH,促进GHmRNA的合成,表现出明显的剂量效应。100nmol／L、1μmol／LmGnRH作用1h以一定的剂量依存方式促进GH的释放、促进GHmRNA的合成,但mGnRH的效应比相应剂量的sGnRH的作用弱。APO为DA受体的非选择性激动剂,不同剂量APO对斜带石斑鱼脑垂体碎片的作用结果显示,10nmol／L-1μmol／L APO以剂量依存方式促进斜带石斑鱼脑垂体碎片释放GH、促进GHmRNA的合成：1μmol／LAPO作用12h以上明显促进GH的释放和GHmRNA的合成,并随时间的延长而增加。与sGnRH对斜带石斑鱼GH释放、GHmRNA合成的作用相比,APO的作用较弱。本文研究结果证实GnRH和DA能促进斜带石斑鱼脑垂体GH释放和GHmRNA合成。     

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.     

Relative potency of the forms of GnRH and their analogs on LH release in sea bass

The in vivo and in vitro potency of native and modified forms of gonadotropin releasing hormone (GnRH) to release luteotropic hormone (LH) was studied in sea bass Dicentrarchus labrax in particular the hypothalamic fish‐specific sea bream GnRH form (sbGnRH) and the general mesoencephalic form chicken GnRH‐II (cGnRH‐II). The potencies of the natives and their analogs (GnRHas) were referred to that of [D‐Ala⁶, Pro⁹Net]‐mGnRHa (LHRHa) at equivalent doses. Analogs of the native peptides [D‐Arg⁶, Pro⁹Net]‐cGnRH‐II, [D‐Ala⁶, Pro⁹Net]‐cGnRH‐II, [D‐Trp⁶, Pro⁹Net]‐sbGnRH and [D‐Ala⁶, Pro⁹Net]‐sbGnRH were effective in inducing in vivo LH release (at 15 µg kg^?1 body mass), exhibiting longer lasting activity than their corresponding native forms. Injection of sbGnRH and cGnRH‐II provoked a small but significant peak of circulating LH at 1·5 h after treatment (a.t.) decreasing down to basal levels at 4 h a.t. [D‐Arg⁶, Pro⁹Net]‐cGnRH‐II, [D‐Ala⁶, Pro⁹Net]‐cGnRH‐II and [D‐Ala⁶, Pro⁹Net]‐mGnRHa evoked a higher and a more sustained elevation of LH, peaking at 12 h a.t. and returning to basal levels between 48 and 72 h a.t. [D‐Trp⁶, Pro⁹Net]‐sbGnRH and [D‐Ala⁶, Pro⁹Net]‐sbGnRH also induced a significant surge of LH in plasma at 4 h a.t. turning to the basal levels at 24 h a.t. These rises, however, were of less amplitude and duration than the observed after treatment with cGnRH‐II analogs and [D‐Ala⁶, Pro⁹Net]‐mGnRHa. The in vitro stimulation of dispersed pituitary cells with the different native and modified forms of GnRH resulted in a dose‐dependent increase in the quantity of LH released at 24 h a.t. [D‐Arg⁶, Pro⁹Net]‐cGnRH‐II and [D‐Ala⁶, Pro⁹Net]‐cGnRH‐II induced the highest response of LH in vitro release followed by salmon GnRH (sGnRH), [D‐Ala⁶, Pro⁹Net]‐mGnRHa and [D‐Trp⁶, Pro⁹Net]‐sbGnRH. The lowest activity was exhibited by sbGnRH. Collectively, the in vitro biological activity (compared by their EC₅₀) can be ordered as follows: [D‐Arg⁶, Pro⁹Net]‐cGnRH‐II > [D‐Ala⁶, Pro⁹Net]‐cGnRH‐II > sGnRH > [D‐Ala⁶, Pro⁹Net]‐mGnRHa > [D‐Trp⁶, Pro⁹Net]‐sbGnRH > [D‐Ala⁶, Pro⁹Net]‐sbGnRH > cGnRH‐II > sbGnRH.     

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.     

Sex steroids and the control of LHRH secretion

Gonadal steroids are important hormonal signals that regulate the activity of LHRH synthesizing and releasing neurons. Aside from a direct effect through the feedback mechanisms exerted at hypothalamic and/or anterior pituitary level, gonadal steroids may modify the rhythmic LHRH release by modulating other systems affecting LHRH neurons. 1. In ovariectomized E2-treated female rats, progesterone is able to evoke LHRH release from the perifused hypothalamus without affecting LH and FSH release. 2. Excitatory amino acids (EAA) and their related analogs (NMDA and kainate) are known to stimulate LH release in young rats. When tested in a perifusion system on hypothalamic and anterior pituitary tissues, they differentially stimulate the release of LHRH (NMDA) and of LH (KA); their effect on both structures is markedly reduced following orchidectomy. It appears that gonadal steroids might exert a facilitatory action on the neurosecretory activity of LHRH neurons as well as a modulatory influence on the effect of EAA.     

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.     

Stimulatory effects of insulin-like growth factor 1 on expression of gonadotropin subunit genes and release of follicle-stimulating hormone and luteinizing hormone in masu salmon pituitary cells early in gametogenesis

Insulin-like growth factor-I (IGF-I) has been shown to be involved in pubertal activation of gonadotropin (GTH) secretion. The aim of this study was to determine if IGF-I directly stimulates synthesis and release of GTH at an early stage of gametogenesis. The effects of IGF-I on expression of genes encoding glycoprotein alpha (GPalpha), follicle-stimulating hormone (FSH) beta, and luteinizing hormone (LH) beta subunits and release of FSH and LH were examined using primary pituitary cells of masu salmon at three reproductive stages: early gametogenesis, maturing stage, and spawning. IGF-I alone or IGF-I + salmon GnRH (sGnRH) were added to the primary pituitary cell cultures. Amounts of GPalpha, FSHbeta, and LHbeta mRNAs were determined by real-time PCR. Plasma and medium levels of FSH and LH were determined by RIA. In males, IGF-I increased the amounts of all three subunit mRNAs early in gametogenesis in a dose-dependent manner, but not in the later stages. In females, IGF-I stimulated release of FSH and LH early in gametogenesis, whereas no stimulatory effects on the subunit mRNA levels were observed at any stage. IGF-I + sGnRH stimulated release of FSH and LH at all stages in both sexes, but had different effects on the subunit mRNA levels depending on subunit and stage. The present results suggest that IGF-I itself directly stimulates synthesis and release of GTH early in gametogenesis in masu salmon, possibly acting as a metabolic signal that triggers the onset of puberty.     

Human follicular gonadotropin releasing peptide analogs. Evaluation of biological (in vitro) and immunological activity

Human follicular gonadotropin releasing peptide (hF-GRP) has been shown to stimulate pituitary LH and FSH secretion in vitro. Six hF-GRP analogs have been synthesized and evaluated for gonadotropin releasing activity in a rat anterior pituitary primary cell culture system. A tyrosine analog of hF-GRP, [Tyr4]-hF-GRP, retained comparable biological activity in releasing gonadotropins. However, acetylation of hF-GRP in Ac-hF-GRP greatly reduced the in vitro activity. The shorter segments of hF-GRP, hF-GRP-(5-14), and hF-GRP-(10-14), were tested for LH and FSH releasing activity, and it was found that the decapeptide retained moderate activity while the activity of the pentapeptide was markedly lower than hF-GRP. The baboon alpha 1 antitrypsin-(27-40) peptide, b-alpha 1 AT-(27-40), is relatively less potent in releasing LH than hF-GRP. Interestingly, the baboon peptide is more potent (2.5-fold) in releasing FSH under identical conditions. The effect of hF-GRP in releasing LH and FSH was not affected by the presence of LHRH antagonists in cell culture systems. When these peptides were tested for immunological activity in a hF-GRP radioimmunoassay, it was found that hF-GRP and [Tyr4]-hF-GRP have comparable activities. The C-terminal decapeptide of hF-GRP is more active (1.5-fold) in the RIA, and the C-terminal pentapeptide had only one third of the immunoreactivity. The b-alpha 1-AT-(27-40) failed to cross-react in the RIA even at a concentration of 20 micrograms per tube.     

Stimulatory effect of Sertoli cell culture medium on the FSH release by pituitary halves in vitro

The influence of the medium collected from cultured rat Sertoli cells on the spontaneous and LHRH-stimulated release of gonadotropins by incubated rat pituitary halves was examined. The homogeneity of the cultured population of Sertoli cells taken from 20-day-old rats ranged up to 98%. The cells in culture responded to FSH stimulation with characteristic morphological changes and with increased secretion of estradiol-17 beta. The hemi-pituitaries obtained from sexually mature male rats were incubated for 5 hours in the presence of Sertoli cell culture medium (SCCM) or its fractions obtained by use of ultrafiltration. The SCCM fraction deprived of MW less than 10 kD compounds exhibited a typical inhibin-like activity, whereas crude SCCM as well as its low-molecular-weight fraction stimulated the basal FSH release to about 150% and 175% of the control values, respectively. These fractions exerted an inhibitory effect on the LHRH-stimulated secretion of both LH and FSH. It is concluded that Sertoli cells cultured in chemically defined medium release, apart from inhibin, a non-steroidal, heat-labile substance of MW less than 10 kD which stimulates the basal secretion of FSH and LH and inhibits the LHRH-stimulated secretion of both gonadotropins from incubated rat hemi-pituitaries.     

Rapid and profound suppression of messenger ribonucleic acid encoding follicle-stimulating hormone beta by inhibin from primate Sertoli cells

We showed previously that inhibin, partially purified from cynomolgus monkey Sertoli cell culture medium (primate Sertoli cell inhibin referred to as pSCI), selectively suppressed basal FSH secretion from dispersed rat pituitary cells and decreased total cellular FSH, but not LH content, suggesting a decrease in FSH biosynthesis. In order to investigate the mechanism of action of inhibin at the molecular level, we have now examined the effects of pSCI on steady state levels of the subunit mRNAs encoding LH and FSH and correlated these with release and intracellular content of LH, FSH, and glycoprotein alpha-subunit. Dispersed pituitary cells from 7- to 8-week-old adult male rats were cultured in the presence of pSCI or control medium for 2-72 h. FSH secretion was reduced significantly by 6 h (P less than 0.05) and reached a nadir (38% of control) by 48 h. LH secretion was unchanged, while release of the alpha-subunit was decreased to 89% of control at 72 h (P less than 0.05). Also by 72 h, cell content of both FSH (73% of control) and alpha-subunit (81% of control) were significantly suppressed (P less than 0.001, P less than 0.01), while LH was slightly affected. Total RNA was extracted from the pituitary cell cultures, electrophoresed in 1.2% agarose-formaldehyde gels, transferred to nylon membranes, and hybridized with 32P-labeled cDNA probes for the rat alpha-, LH beta-, and FSH beta-subunits.(ABSTRACT TRUNCATED AT 250 WORDS)     

Stimulation of gonadotropin release by arachidonic acid and its lipoxygenase metabolites in superfused pituitary cells

Luteinizing hormone and follicle stimulating hormone secretion was stimulated by 4 min pulses of arachidonic acid (3 X 10(-5) to 10(-4)M) in superfused rat pituitary cells. The effect of its lipoxygenase metabolites, 5-hydroxy-6,8,11,14-eicosatetranoic acid (5-HETE) and 15-hydroxy-5,8,10,14-eicosatetranoic acid (15-HETE) was more potent on hormone release when added in the same dose. Using 3 X 10(-5)M 5-HETE, its releasing activity on gonadotropins was comparable to that of GnRH (10(-9)M). 15-HETE (3 X 10(-5)M) was even more potent on LH and FSH secretion than 5-HETE. The secretory profile induced by 5-HETE and 15-HETE was also similar to that shown for GnRH, resulting in a rapid increase and a more prolonged decline of the hormone release. The addition of these fatty acids to superfused pituitary cells did not alter the response of the cells to their physiological ligand. These findings give further support to the proposal that metabolites of arachidonic acid may be involved in receptor-mediated mechanisms of gonadotropin release in pituitary cells.     

Effects of differential pulse frequencies of chicken gonadotrophin-releasing hormone-I (cGnRH-I) on laying hen gonadotrope responses in vitro

Abstract

The aim of this work was to determine the effects of cGnRH I pulse frequencies on FSH and LH release and the changes in features and number of cultured laying hen FSH-cells and LH-cells in vitro. Primary adenohypophyseal cell cultures taken from laying hens were stimulated by four 5 min pulses using 1 or 10 nM cGnRH, administered with interpulses between pulses at 15, 30 or 60 min. Pulse frequencies and dose dependent effects were examined in six separate experiments including two controls. After the last interpulse time, the supernatants were collected and stored at ?70° C until the performance of an indirect enzyme-linked immunosorbent assay (ELISA) using chicken LH and chicken FSH antisera at 1:1000 and 1:2000 dilutions, respectively. Supernatants were coated in duplicate on the inner surface of Immulon 2 plates and later blocked with the optimal solutions. They were incubated with each antiserum and subsequently with isotype-specific peroxidase-labeled anti-rabbit antibodies. Hydrogen peroxide/o-phenylenediamine was added as substrate/chromogen and the optical density (OD) was determined at 492 nm. The ABC immunocytochemical method was performed to characterize and re-count the gonadotropes employing anti-chicken FSH and anti-chicken LH as primary antibodies. The number of FSH-LH cells was obtained using stereological analysis and the data were statistically processed. The ODs obtained for each anti-hormone were compared with the control groups and with each other. Significant differences were found in number of aggregated-positive LH cells, which decreased with 1 nM cGnRH-I, 15 vs. 30 min pulses, increased with 30 vs. 60 min pulses, and also with 10 nM cGnRH-I, 30 vs. 60 min pulses. Aggregated positive FSH cells, however, did not show significant differences in percentage at any GnRH dose or pulse frequencies, but did show activity at low pulse frequencies of 15 and 30 min. The results suggest that LH cells varied in percentage in a dose dependent manner at higher pulse frequency (15 min) and were dose independent at low pulse frequency (60 min) and showed inactive features; while FSH cell numbers were unaffected showing features of activity at low pulse frequencies. High and moderate pulse frequencies of cGnRH-I (15-30 min) increased the FSH release in dose independent manner without changes in features or percentage of FSH cells. Low pulse frequency (60 min) of cGnRH-I increased LH release dose independently disminished LH cell percentage and showed changes in cells’ features. These results in avian cells showed differences in responses to GnRH pulse frequencies from those reported earlier in mammals.     

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)     

GnRH stimulates LH release directly via inositol phosphate and indirectly via cAMP in African catfish

In African catfish, two gonadotropin-releasing hormone (GnRH) peptides have been identified: chicken GnRH (cGnRH)-II and catfish GnRH (cfGnRH). The GnRH receptors on pituitary cells producing gonadotropic hormone signal through inositol phosphate (IP) elevation followed by increases in intracellular calcium concentration (?Ca(2+)(i)). In primary pituitary cell cultures of male African catfish, both cGnRH-II and cfGnRH dose dependently elevated IP accumulation, ?Ca(2+)(i), and the release of the luteinizing hormone (LH)-like gonadotropin. In all cases, cGnRH-II was more potent than cfGnRH. The GnRH-stimulated LH release was not associated with elevated cAMP levels, and forskolin-induced cAMP elevation had no effect on LH release. With the use of pituitary tissue fragments, however, cAMP was elevated by GnRH, and forskolin was able to stimulate LH secretion. Incubating these fragments with antibodies against cfGnRH abolished the forskolin-induced LH release but did not compromise the forskolin-induced cAMP elevation. This suggests that cfGnRH-containing nerve terminals are present in pituitary tissue fragments and release cfGnRH via cAMP signaling on GnRH stimulation, whereas the GnRH receptors on gonadotrophs use IP/?Ca(2+)(i) to stimulate the release of LH.