Annette Bérault

EVIDENCE THAT GONADOTROPIN-RELEASING HORMONE STIMULATES GENE EXPRESSION AND LEVELS OF ACTIVE NITRIC OXIDE SYNTHASE TYPE I IN PITUITARY GONADOTROPHS, A PROCESS ALTERED BY DESENSITIZATION AND, INDIRECTLY, BY GONADAL STEROIDS

To determine the site and mechanism of action of gonadal steroids on pituitary nitric oxide synthase type I (NOS I), present in both gonadotrophs and folliculo-stellate cells, the effects of castration and steroids were examined in male rats, in the presence of a GnRH antagonist (Antarelix). Western analysis showed a rapid and substantial increase with time, after orchidectomy, of NOS I protein, the concentration doubling in 24 h and reaching a maximal 4- to 5-fold increase after 3–7 days, followed by a progressive decline after 2 weeks. Testosterone or estradiol replacement, or administration of GnRH antagonist, totally abolished the effects of castration, demonstrating a mediation of the steroid effects via GnRH. In noncastrated rats, steroids and the GnRH antagonist also caused a reduction in the levels of NOS I (by 50–60%), consistent with inhibition of endogenous GnRH stimulation. In marked contrast, administration of a potent GnRH agonist (Triptorelin) to intact rats increased the levels of NOS I. A...

Binding of gonadotropin-releasing hormone (LH-RH) to the pituitary plasma membranes and the problem of adenylate cyclase stimulation

Specific binding studies of tritium-labeled LH-RH to sheep anterior pituitary membranes at 37 degrees C showed a maximum of binding capacity of 110 +/- 20 mol/mg protein with an association rate constant of 2 +/- 1 X 10(5) M-1 S-1 and a dissociation rate constant of 0.7 +/- 0.4 X 10(-2) S-1. The Scatchard plot data showed a single type of binding site with Kass = 1.1 +/- 0.4 X 10(8) M-1 in good agreement with the kinetic studies. Various doses of LH-RH in the presence or absence of Ca2+, were unable to stimulate adenylate cyclase either in the rat anterior pituitary homogenates, or in the purified sheep anterior pituitary plasma membranes. To explain these results, it may be argued that the proportion of gonadotrophs in the pituitary gland is too small to show a significant increase in the LH-RH-induced adenylate cyclase activity. Another possibility is the disconnection of the hormonal receptor from the site of activation of adenylate cyclase during the preparation of plasma membranes. Finally, cAMP may not be involved in LH release by LH-RH.

GnRH-dependent up-regulation of nitric oxide synthase I level in pituitary gonadotrophs mediates cGMP elevation during rat proestrus

We have recently provided evidence that the concentration and activity of the enzyme nitric oxide synthase type I (NOS I) was stimulated in gonadotrophs by GnRH, suggesting a role for the NOS I/NO pathway in the GnRH control of cell functions. To further establish the GnRH regulation of pituitary NOS I under physiological circumstances, we have examined the expression of NOS I during the 4-day estrus cycle in rats. Western blot analysis demonstrated that NOS I was present in the anterior pituitary at low levels during diestrus I (DI) and diestrus II, then was subject to a significant increase on the afternoon of proestrus to reach a maximal 3-fold increase between 19:00 and 20:00 h, after which NOS I decreased to return, during estrus, to levels within the range detected in diestrus. No such variation was apparent in the posterior pituitary lobe. NADPH-diaphorase histochemistry combined with immuno-identification of the cells revealed that active NOS I was expressed in both the gonadotrophs and the folliculo-stellate cells throughout the whole cycle but only the gonadotrophs showed an up-regulation during proestrus. A high temporal correlation was observed in the profiles of NOS I, pituitary cGMP and serum luteinizing hormone (LH) suggesting an implication of GnRH. Consistently, the administration of a potent GnRH antagonist to rats totally abolished the rise in pituitary NOS I and cGMP, in addition to suppressing, as expected, the surge in the secretion of LH. A role of NOS I as a mediator in the GnRH-induced augmentation in cGMP was further established in vitro by incubating anterior pituitaries in the presence of the NOS inhibitor, L-NMMA (1 mM). Altogether, these data demonstrate that the level and activity of NOS I is up-regulated in gonadotrophs during proestrus, in a manner consistent with a major implication of GnRH over a period during which its release from the hypothalamus, as well as gonadotroph responsiveness, are at maximum. This effect is accompanied by a NOS/NO-mediated rise in cGMP. In the absence of obvious effect on gonadotropin release, the roles of NO and cGMP in the regulation of gonadotroph functions, especially during proestrus, remain to be established.

Gonadotropes in a novel rat pituitary tumor cell line, RC-4B/C. Establishment and partial characterization of the cell line.

SummaryAn epithelial cell line (RC-4B/C) was established from a pituitary adenoma obtained from a 3-yr-old (ACI/fMai × F344/fMai)F1 male rat. Before Year 5 in vitro, RC-4B/C cells could not be viably recovered from cryogenic storage. Recovery of viable cells from cryogenic storage in Year 5 was associated with a more transformed phenotype, including the appearance of endogenous C-type rat retroviral particles. The ultrastructural appearance of the cells was similar to that of differentiated anterior pituitary cell; the cultured cells contained numerous, electron dense, secretory granules, Golgi complexes, and extended arrays of rough endoplasmic reticulum. Immunocytochemical study showed that all cell types present in the rat anterior pituitary gland were present in the cell line. The percentage of luteinizing hormone beta (LHβ) cells in the cell line was higher (19.9%) and that of growth hormone cells was lower (12.2%) than in normal male rat pituitary, whereas the cell line contained a comparable percentage of follicle stimulating hormone beta (FSHβ), prolactin (PRL), ACTH, and thyrotropin beta cells. Radioimmunoassay data demonstrated the PRL content of the cells was comparable to that of normal male rat pituitary gland, whereas the content of LH and FSH was 70- and 800-fold lower, respectively. Assay of specific receptor sites for gonadotropin releasing hormone (GnRH) using Scatchard plots of the data established the RC-4B/C cells contained GnRH receptor sites of the same affinity as in the pituitary gland, but of twofold lower capacity. These data suggest the RC-4B/C cell line warrants further study as a model for the induction and maintenance of the gonadotropic function of the pituitary gland.

Rat gonadotropin-releasing hormone receptor expressed in insect cells induces activation of adenylyl cyclase

Increasing evidence exist that multiple G proteins mediate the effects of gonadotropin-releasing hormone (GnRH) on the synthesis and release of pituitary gonadotropins. In the present study, we have expressed the rat GnRH receptor (GnRH-R) in insect cells, by infection with a recombinant baculovirus. Under the conditions used, insect cells expressed, 48 h post-infection, a maximum of 7800 +/- 650 receptors/cell which bound GnRH agonist [D-Trp6]GnRH with a Kd = 0.52 +/- 0.06 nM indicating characteristics similar to those of the natural receptor. No binding was observed in non-infected cells or cells infected with wild-type baculovirus. In presence of GnRH, GnRH-R expressing cells elicited a time- and dose-dependent production of inositol trisphosphate, with a maximum level reached within 30 min and an EC50 = 5 nM. These recombinant insect cells also produced cAMP in response to GnRH. However, in contrast to other heterologous systems, or rat pituitary gonadotropes wherein GnRH induced a weak and delayed elevation of cAMP, in insect cells the rise of cAMP was comparatively rapid, attaining a maximum level after 2 h, and the EC50 was 5 nM. Finally, a clear activation of adenylyl cyclase (AC) in response to GnRH was shown for the first time by measuring the conversion of [alpha-32P]ATP into labeled cAMP, using membrane preparations from GnRH-R expressing insect cells. These data demonstrate that rat GnRH-R has the potential for dual coupling to both phosphoinositidase C and AC and suggest a major influence of the host cell for this coupling and/or its expression, probably in relation with the G protein repertoire and preference. This notion could be extended to several target cells other than pituitary gonadotropes that normally express the GnRH-R in mammals, including hippocampal, Leydig, granulosa, placental and GnRH-secreting hypothalamic cells.

Bihormonal Cells Producing Gonadotropins and Prolactin in a Rat Pituitary Tumor Cell Line (RC-4B/C)

Using single hormone-staining immunocytochemical methods, we have recently characterized a novel cell line, RC-4B/C, established from an aged male rat pituitary adenoma. This cell line contained all known anterior pituitary cell types including gonadotropes. Gonadotropin-releasing hormone receptors were also present. A recent re-examination of the cell types using single hormone stains showed that the cell line underwent an alteration in the percentage of different cell types as compared to the data obtained 2 years ago. The proportion of follicle-stimulating hormone-beta (FSH beta), luteinizing hormone-beta (LH beta), prolactin (PRL), and adrenocorticotropic hormone cells increased significantly (p less than or equal to 0.001), while the proportion of growth hormone (GH), and thyrotropin-beta cells did not change. Dual staining of the monolayers showed that the cell line contained many bihormonal cells producing FSH beta + LH beta, FSH beta + PRL and LH beta + PRL. The proportion of bihormonal FSH beta + LH beta and FSH beta + PRL cells was preponderant over monohormonal cells, while the proportion of bihormonal LH beta + PRL cells was in the same range as that of monohormonal cells. Preliminary data with dual labeling also revealed the presence of GH and PRL in the same cell, but complete absence of a combination such as FSH beta + GH. No search for the presence of other bihormonal or multihormonal cells was performed. In short, our data show that the majority of the cells in the cell line RC-4B/C contain FSH beta, LH beta and PRL and that among these cells many bihormonal cells are present.

Testosterone inhibits the basal and gonadotropin-releasing hormone-stimulated synthesis and release of newly synthesized α- and lutropin (LH) β-subunit but not release of stored LH in cultured rat pituitary cells

To further explore the mechanism of steroid feedback in male, the effects of testosterone (T) and gonadotropin-releasing hormone (GnRH) on the rates of alpha- and lutropin (LH)beta-chain synthesis, neosynthesized subunits and radioimmunoassayable LH release into the medium were studied in the cultures of anterior pituitary cells from orchiectomized and intact rats. Polypeptides were [35S]methionine-labeled, immunoprecipitated separately in the medium and cells, then after SDS-PAGE precisely quantified. The total (medium + cells) radioactivity incorporated in the absence of GnRH into alpha- and LH beta-subunit was increased in orchiectomized rat cells vs. intact rat cells. GnRH stimulated the synthesis of both subunits, whether cells were from normal or castrated rat. T suppressed basal and GnRH-enhanced synthesis of both subunits in castrated rat cells. The values became closed to those observed in the normal rat cells. Also release of neosynthesized subunits from castrated rat cells into the culture medium was inhibited by T. In contrast, T did not change the basal and GnRH-induced radioimmunoassayed LH release. These results show that T can inhibit directly, at the pituitary level, alpha- and LH beta-subunit synthesis and neosynthesized but not stored LH release. They could explain, at least in part, no correlation between modifications of GnRH and LH secretion observed in vivo in response to T replacement.

Solubilization and partial purification of the high-affinity gonadoliberin receptor from the bovine pituitary gland

The high-affinity gonadoliberin (GnRH) receptor contained in a membrane preparation from frozen bovine anterior pituitary glands has been solubilized in Triton X-100 and the binding properties of the solubilized product have been examined. The radioreceptor-binding assay, using the GnRH agonist [D-Ser(t-Bu)6] des-Gly10GnRH N-ethylamide (GnRH-A) as radioligand, demonstrated that the kinetics of association and dissociation, the binding constants, as well as the specificity of receptor were not altered in the solubilized receptor preparations. Affinity chromatography on a concanavalin A-Sepharose column, with elution of adsorbed material using a solution of alpha-methyl-D-mannoside, allowed a 33-fold purification of the receptor. The Ka of the receptor thus purified was of the same order as that of the starting material, although slightly higher values were found. Only about one-half of the total receptor activity applied to the column was retained in spite of several recyclings. The other half was found in the nonadsorbed fraction. It is postulated that the detergent-solubilized fraction contains two forms of the GnRH receptor. The nonadsorbed fraction probably contains a partially or totally deglycosylated form. It is possible that the detergent-solubilization process somewhat alters the physicochemical properties of a part of the GnRH receptor molecules. Electrophoretic analysis of the purified receptor preparations, with a subsequent GnRH-binding assay, suggests that the apparent molecular mass of the high-affinity GnRH receptor, or of its monomeric form, is approximately 60,000 Da.

A simplified method for the preparation of plasma membranes from ovine anterior pituitary glands

The plasma membranes of many tissues are considered as the site at which the hormone initiates its action. It has thus been suggested that the anterior pituitary plasma membranes contain the receptor sites for the hypothalamic releasing hormones [l-3]. Several methods for the isolation of plasma membranes from intact tissues have been described [4, 5] . Most of them concern rat liver [6-lo] . These methods, when applied to the isolation of the plasma membranes from anterior pituitary tissue, gave poor results because the density of the pituitary plasma membranes appears to be different from that of rat liver. To our knowledge, no specific method has been proposed for the purification of the pituitary plasma membranes. Besides morphological studies, many authors consider the determination of ‘marker enzyme’ activity as very important for the characterization of plasma membrane preparations. In order to follow progress in the purification of our material, we assessed the specific activity of the three most characteristic enzyme markers of the plasma membranes: 5’-nucleotidase, (Na+K+Mg2+)-ATPase and adenylate-3’,5’cyclase [8, 111. In the present paper, a simple and rapid method is described for the preparation of a fraction enriched in plasma membranes from ovine anterior pituitary glands.