GnRH相关肽在大鼠垂体前叶的细胞学定位

本研究应用特异性抗GnRH相关肽(GAP)N端11个氨基酸的抗血清和六种垂体前叶激素的抗血清,通过免疫组织化学双重染色技术观察GAP在大鼠垂体前叶细胞的定位。结果发现,GAP样免疫反应性物质存在于LH细胞和FSH细胞,而未见于GH、PRL、TSH和ACTH细胞。本文首次证明GAP存在于正常大鼠垂体促性腺激素细胞,为GAP调节LH和FSH的分泌提供了形态学证据;也支持GAP的功能序列在其分子的N端,或GAP进一步裂解出N端片段而发挥作用。     

Multiple hormone storage by cells of the human pituitary

While immunostaining serial semi-thin sections of acrylic resin-embedded normal human pituitary using antisera to human pituitary hormones, it became clear that several cells were stained by more than one antiserum. The tissue had been surgically excised from a patient with a prolactinoma. The tumor, which was immunoreactive only with antiprolactin antiserum, was distinctly different from the pieces of tissue under study which had normal pituitary architecture and demonstrated immunoreactivity with antisera against all six of the common pituitary hormones. A major immunoelectron microscopic investigation, using immunocolloidal gold and immunoperoxidase methods, revealed cells in which follicle-stimulating hormone (FSH), luteinizing hormone (LH), and prolactin (PRL) were co-localized to the same electron-dense granules. Some similar cells also possessed electron-lucent granules immunoreactive only for anti-PRL antiserum. Adrenocorticotrophic hormone (ACTH) and PRL were also found in the same cell but were very largely localized to separate, morphologically different populations of electron-dense and -lucent storage granules. By employing double immunolabeling, a few granules in the ACTH/PRL cells were shown to be immunoreactive to both anti-ACTH and anti-PRL antisera. The possibility that the multipotential stem cells is discussed.     

Immunohistochemical identification of cells in the pars distalis of the pituitary of the lizard Anolis carolinensis

Immunocharacteristics of the pars distalis cells of the pituitary of the male lizard A. carolinensis are determined by employing the immunoperoxidase technique with antisera to mammalian pituitary hormones. On the basis of their immunoreactivity, 5 different cell types with characteristic anatomical distribution are recognized. ACTH cells are found in the rostral half of the pars distalis, and PRL cells in the rostral two thirds of the pars distalis. GH and TSH cells are located in the caudal half of the pars distalis. GTH cells are distributed throughout the gland. When consecutive sections are stained with antiserum to ovine FSH or its beta-subunit and to ovine LH, the same cells show immunoreactivity to all the three antisera. None of the GTH cells show positive immunoreactivity to ovine beta-LH antiserum. The results suggest the existence of one gonadotropic cell type in the pituitary of this lizard.     

Immunohistochemical identification of cells in the pars distalis of the pituitary of the lizard anolis carolinensis

Summary Immunocharacteristics of the pars distalis cells of the pituitary of the male lizard A. carolinensis are determined by employing the immunoperoxidase technique with antisera to mammalian pituitary hormones. On the basis of their immunoreactivity, 5 different cell types with characteristic anatomical distribution are recognized. ACTH cells are found in the rostral half of the pars distalis, and PRL cells in the rostral two thirds of the pars distalis. GH and TSH cells are located in the caudal half of the pars distalis. GTH cells are distributed throughout the gland. When consecutive sections are stained with antiserum to ovine FSH or its -subunit and to ovine LH, the same cells show immunoreactivity to all the three antisera. None of the GTH cells show positive immunoreactivity to ovine -LH antiserum. The results suggest the existence of one gonadotropic cell type in the pituitary of this lizard.Supported by U.S. Council for International Exchange of Scholars (to D.R.N.) and PHS Grant NS09914     

Pituitary glycoprotein hormone oligosaccharides: structure, synthesis and function of the asparagine-linked oligosaccharides on lutropin, follitropin and thyrotropin

Luteinizing hormone (LH), follicle-stimulating hormone (FSH) and thyroid-stimulating hormone (TSH) from pituitary and chorionic gonadotropin (CG) from placenta are a family of closely related glycoproteins. Each hormone is a heterodimer, consisting of an alpha- and a beta-subunit. Within an animal species, the alpha-subunits of all four glyco-protein hormones have an identical amino acid sequence, whereas each beta-subunit is distinct and confers hormone-specific features to the heterodimer. LH and FSH are synthesized within the same cell, the gonadotroph of the anterior pituitary, but are predominantly stored in separate secretory granules. We have characterized the asparagine-linked oligosaccharides on bovine, ovine and human LH, FSH and TSH. The various pituitary hormones were found to contain unique sulfated oligosaccharides with the terminal sequence SO4-4GalNAc beta 1----4GlcNAc beta 1----2Man alpha, sialylated oligosaccharides with the terminal sequence SA alpha Gal beta GlcNAc beta Man alpha, or both sulfated and sialylated structures. Despite synthesis of LH and FSH in the same pituitary cell, sulfated oligosaccharides predominate on LH while sialylated oligosaccharides predominate on FSH for all three animal species. We have examined the reactions leading to synthesis of the sulfated oligosaccharides to determine which steps are hormone specific. The sulfotransferase is oligosaccharide specific, requiring only the sequence GalNAc beta 1----4GlcNAc beta 1----2Man alpha. In contrast, the GalNAc-transferase appears to be protein specific, accounting for the preferential addition of GalNAc to LH, TSH, and free (uncombined) alpha-subunits compared with FSH and other pituitary glycoproteins. The predominance of sulfated oligosaccharide structures on LH may account for sorting of LH and FSH into separate secretory granules. Differences in sulfation and sialylation of LH, FSH and TSH may also play a role in the regulation of hormone bioactivity.     

Cross-reactivity between human and fish pituitary hormones as demonstrated by immunocytochemistry

Summary In this communication we describe the immunocytochemical cross-reactivity between antisera to various human pituitary hormones and specific hormone producing cell types in the pituitary gland of sexually mature male platyfish (Xiphophorus maculatus). Antisera to human pituitary hormones cross-reacted either with cells known to produce corresponding hormones (or hormone subunits) in the platyfish (e.g., ACTH, prolactin, TSH , LH , FSH , TSH ) or with no pituitary cells at all (e.g., LH , FSH ). The one exception was antiserum to human growth hormone which cross-reacted with MSH and ACTH producing cells. The platyfish pituitary is proposed as a test system for immunocytochemically screening antisera for purity and specificity in order to determine their applicability in particular studies.     

Immunocytochemical evidence for production of luteinizing hormone and follicle-stimulating hormone in separate cells in the bovine.

In all mammalian females, follicular growth and maturation are essentially dependent on the pituitary gonadotropins, FSH and LH. These glycoprotein hormones have many similarities, but their action, based on high affinity binding to specific membrane receptors, are quite different. The purpose of this study was to perform a sensitive localization of FSH and LH in secretory granules of gonadotrophs using highly specific antisera. This morphological study included light microscopy (PAP) and electron microscopy (immunogold single and double labeling) procedures. Histologically, approximatively 11.5% of cells were positive for LH, whereas only 5.4% of cells were positive for FSH. With the electron microscope, single labeling allowed identification of morphologically distinct LH-containing cells and FSH-containing cells. Double immunostaining confirmed that no cells contained both hormones. The finding that FSH and LH are produced in separate pituitary cells is in agreement with recent studies that have suggested a specific role and regulatory process for gonadotropins in the bovine species.     

Detection of gonadotrophic hormones on isolated granulosa cells of the domestic hen, Gallus domesticus, by an immunohistochemical method

Two immunohistochemical methods were used to detect the presence of luteinizing hormone (LH) on the cells of chicken granulosa. Using a peroxidase-labelled anti-rabbit serum together with anti-chicken LH serum raised in rabbits, a strong positive response was obtained with granulosa cells from small and large pre-ovulatory follicles obtained from the mid-cycle. Similarly, by using an available antiserum to human follicle stimulating hormone (FSH), a slightly weaker response was obtained with cells from both large and small follicles. After incubating cells with ovine LH, ovine FSH and ovine prolactin, there was no detectable difference with the method used in reaction with their respective antisera to cells which had received no incubation, implying that chicken gonadotrophins were displaced only partially from their receptors by mammalian gonadotrophic hormones. Pre-incubation of the cells with human chorionic gonadotrophin gave negative results with anti-hCG serum. Using a fluorescent-labelled antibody method, similar results were obtained except that the distribution of the receptors on the granulosa cell for LH or FSH appeared to be different. With the LH, the fluorescence formed a halo around the cell in contrast to the overall fluorescence with FSH.     

Asparagine-linked oligosaccharides on lutropin, follitropin, and thyrotropin. II. Distributions of sulfated and sialylated oligosaccharides on bovine, ovine, and human pituitary glycoprotein hormones

The asparagine-linked oligosaccharides on the pituitary glycoprotein hormones lutropin (LH), follitropin (FSH), and thyrotropin (TSH) consist of a heterogeneous array of neutral, sulfated, sialylated, and sulfated/sialylated structures. In the accompanying paper (Green, E.D., and Baenziger, J.U. (1987) J. Biol. Chem. 262, 25-35), we elucidated the structures of the anionic asparagine-linked oligosaccharides found on the bovine, ovine, and human pituitary glycoprotein hormones. In this study, we determined the relative quantities of the various asparagine-linked oligosaccharides on LH, FSH, and TSH from these three animal species. The proportions of sulfated versus sialylated oligosaccharides varied markedly among the different hormones. Both hormone- and animal species-specific differences in the types and distributions of sulfated, sialylated, and sulfated/sialylated structures were evident. In particular, LH and FSH, which are synthesized in the same pituitary cell and bear alpha-subunits with the identical amino acid sequence, contained significantly different distributions of sulfated and sialylated oligosaccharides. For all three animal species, the ratio of sialylated to sulfated oligosaccharides differed by greater than 10-fold for LH and FSH, with sulfated structures dominating on LH and sialylated structures on FSH. Sialylated oligosaccharides were also heterogeneous with respect to sialic acid linkage (alpha 2,3 versus alpha 2,6). In addition to differences in the proportion of sulfated and sialylated structures on LH and FSH, there were site-specific variations in the amount of mono- and disulfated oligosaccharides at different glycosylation sites on LH alpha-beta dimers. The differences in oligosaccharide structures among the various pituitary glycoprotein hormones as well as among the various glycosylation sites within a single hormone support the hypothesis that glycosylation may serve important functional roles in the expression and/or regulation of hormone bioactivity.     

Effects of gonadectomy on polymorphism in stored and circulating gonadotropins in the bullfrog, Rana catesbeiana. II. Gel filtration chromatography

Marked polymorphism was revealed in both stored and circulating forms of immunoreactive follicle-stimulating hormone (FSH) and luteinizing hormone (LH) in the bullfrog, Rana catesbeiana, by exclusion chromatography on columns of Sephracyrl-S200. FSH behaved as a more homogeneous and larger molecule than LH from the same pituitary or plasma, but the properties of both hormones in the plasma were markedly affected by gonadectomy. Chromatographic profiles of FSH stored in the pituitaries were similar in intact and gonadectomized frogs, but pituitary LH in the latter was comprised of a larger proportion of early eluting activity. Previously purified preparations of bullfrog FSH and LH were more homogeneous than these extracts. Differences between pituitary hormones in intact and gonadectomized frogs were small compared with those between circulating hormones. Plasma FSH and lH from gonadectomized frogs behaved as more homogeneous and larger molecules than those from intact frogs in which plasma gonadotropins were elevated normally or by injections with gonadotropin releasing hormone (GnRH). Some differences in circulating hormones were also observed between a normal male and female and both differed from gonadectomized an GnRH-treated intact frogs. Chromatographs of plasma gonadotropins in GnRH-treated animals generally resembled those of the hormones stored in the pituitary, whereas plasma FSH and LH in gonadectomized frogs appeared more homogeneous and larger than the pituitary-stored forms. Those pronounced differences in chromatographic properties of gonadotropins in intact and gonadectomized frogs correlate with previously observed effects of gonadectomy on clearance profiles of circulating FSH and LH.     

Subcellular localization of gonadotrophic hormones LH and FSH in frog adenohypophysis using double-staining immunocytochemistry

We applied double post-embedding immunocytochemical methods using specific antibodies against bullfrog (Rana catesbeiana) luteinizing hormone (LH) and follicle-stimulating hormone (FSH) with immunogold staining (5- and 20-nm particles) to determine the subcellular localization of both gonadotropins and to observe their immunostaining patterns in anterior pituitary of the frog Rana pipiens. Results showed that individual gonadotrophs may store either one or both gonadotropins in a given secretory granule and in large globules (lysosomes?). Most gonadotrophs (50-88%) contain both hormones; 12-50% contain only FSH, and only a few (0-7%) contain LH alone. Individual secretory granules, even in cells that contain both hormones, may contain only one or both gonadotropin molecules. Evaluation of the percentage of monohormonal and multihormonal secretory granules revealed that multihormonal secretory granules were the most numerous and that LH monohormonal secretory granules were the least numerous. These results indicate that cellular storage of gonadotropin in amphibian pituitary is similar to that described for mammals, where a single cell type containing both gonadotropins predominates. Variability in hormone content both of cells and of granules in all individuals is consistent with the hypothesis that frog pituitary possesses a single multipotential gonadotroph.     

Functional and morphological identification of FSH- and LH-producing cells in the pituitary gland

The identification of pituitary FSH and LH cells in states of pharmacological treatment influencing the pituitary FSH and LH production was performed by histological staining at the isoelectric points of these hormones in the cat. The intensity of the stained material in the hormone-producing cells was determined by a microphotometric technique. As a physiological control, the FSH and LH levels in blood were measured by a radioimmunoassay.     

Activin modulates differential effects of estradiol on synthesis and secretion of follicle-stimulating hormone in ovine pituitary cells

In several physiological paradigms, secretion of FSH and LH are not coordinately regulated. Because these hormones appear to be produced by a single cell type in the anterior pituitary gland, their discordant regulation must be related to differential intracellular responses to various stimuli. Estradiol-17beta (estradiol) has been shown to influence secretion of both FSH and LH and some of its effects are mediated directly on the gonadotrope. Changes in expression of intrapituitary factors such as activin and follistatin may mediate effects of estradiol and account for discordant patterns of FSH and LH. The aims of this study were 1) to determine if estradiol alters expression of genes encoding activin, follistatin, or both in ovine pituitary cells; and 2) to observe the effects of immunoneutralizing activin B in vitro on gonadotropin secretion. Pituitary cells from five ewes in the anestrous season were cultured for 24 h with estradiol (0.01 or 1.0 nM). Estradiol reduced basal secretion of FSH in a dose-dependent manner (P: < 0.001) and simultaneously increased basal secretion of LH (P: < 0.001). Decreased secretion of FSH in estradiol-treated cultures was accompanied by suppressed levels of FSHbeta subunit mRNA (P: < 0.001). Amounts of mRNA for activin beta(B) were reduced in a dose-dependent manner by estradiol (27% +/- 4.9% at 0.01 nM, P: < 0.02; and 46% +/- 3.9% at 1.0 nM, P: < 0.002). In contrast, mRNA for follistatin was not affected by treatment with estradiol. Treatment of pituitary cells with an antibody to activin B reduced secretion of FSH by 50% (P: < 0.01) without influencing secretion of LH. These data lead us to conclude that discordant secretion of gonadotropins can be induced by estradiol acting directly at the pituitary level. The inhibitory effect of estradiol on FSH secretion may be mediated indirectly through decreased pituitary expression of the activin gene.     

Comparison of in vitro and in vivo effects of different species specific GnRH and their analogs

Mammalian, salmon and chicken gonadotropin-releasing hormones (mGnRH, sGnRH, cGnRH) and their analogs were synthesized and tested for their ability to stimulate in vitro LH and FSH release from cultured and superfused rat pituitary cells and also their in vivo effect were investigated on the artificial propagation of fishes. The LH and FSH releasing activity of sGnRH, cGnRH and their analogs were lower than the appropriate mammalian ones from cultured rat pituitary cells, but two of the cGnRH analogs showed increased LH and FSH secretory activity from superfused rat pituitary cells compared to the mGnRH. At the same time these two analogs are very potent to stimulate reproductive function of fishes and using these peptides we were able to fulfill the artificial propagation of fishes which could not be artificially propagated before.     

Application of dual pre-embedding stains for gonadotropins to pituitary cell monolayers with avidin-biotin (ABC) and peroxidase-antiperoxidase (PAP) complexes: light microscopic studies

Double stains for gonadotropins and gonadotropin-releasing hormone were developed for fixed whole pituitary cells from cycling female rats. Monolayer cells were stimulated with [D-Lys6]GnRH, fixed in 2.5% glutaraldehyde, and then stained for luteinizing hormone (LH) (1:50,000-12 h) or follicle stimulating hormone (FSH) (1:60,000-12 h) and the avidin-biotin-peroxidase complex technique (ABC) with a jet-black substrate (nickel intensified diaminobenzidine-DAB). This was followed by a stain for the other gonadotropin with either ABC or peroxidase-antiperoxidase complex (PAP) techniques and amber (DAB) or red (3-amino-9-ethyl-carbazole) substrates. Additional monolayers were stimulated with biotinylated [D-Lys6]GnRH and stained with the ABC technique and the black (nickel-DAB) substrate. These monolayers were then stained immunocytochemically for LH or FSH with either ABC or PAP methods and orange or red substrates. The controls showed that the omission of the second primary antiserum abolished the stain indicating that the second staining solutions did not react with components in the first group. The addition of the second peroxidase substrate in sequence after the first stain indicated that no residual peroxidase activity remained from the first stain. Our tests also showed that saponin was not needed to aid reagent or antibody penetration. The dual stains demonstrated that 50-60% of the gonadotropes stored LH and FSH together, often in separate regions of the same cell. Some cells contained only one hormone (20-22%). The dual stains for GnRH and gonadotropins demonstrated that 80-90% of the GnRH bound cells are gonadotropes. These techniques allow a study of storage sites for multiple hormones in or on whole cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Application of Dual Pre-Embedding Stains for Gonadotropins to Pituitary Cell Monolayers with Avidin-Biotin (ABC) and Peroxidase-Antiperoxidase (PAP) Complexes: Light Microscopic Studies

Double stains for gonadotropins and gonadotropin-releasing hormone were developed for fixed whole pituitary cells from cycling female rats. Monolayer cells were stimulated with [d-Lys⁶]GnRH, fixed in 2.5% glutaraldehyde, and then stained for luteinizing hormone (LH) (1:50,000-12 h) or follicle stimulating hormone (FSH) (1:60,000-12 h) and the avidin-biotin-peroxidase complex technique (ABC) with a jet-black substrate (nickel intensified diaminobenzidine—DAB). This was followed by a stain for the other gonadotropin with either ABC or peroxidase-antiperoxidase complex (PAP) techniques and amber (DAB) or red (3-amino-9-ethyl-carbazole) substrates. Additional monolayers were stimulated with biotinylated [d-Lys⁶]GnRH and stained with the ABC technique and the black (nickel-DAB) substrate. These monolayers were then stained immunocytochemically for LH or FSH with either ABC or PAP methods and orange or red substrates. The controls showed that the omission of the second primary antiserum abolished the stain indicating that the second staining solutions did not react with components in the first group. The addition of the second peroxidase substrate in sequence after the first stain indicated that no residual peroxidase activity remained from the first stain. Our tests also showed that saponin was not needed to aid reagent or antibody penetration. The dual stains demonstrated that 30-60% of the gonadotropes stored LH and FSH together, often in separate regions of the same cell. Some cells contained only one hormone (20-22%). The dual stains for GnRH and gonadotropins demonstrated that 80-90% of the GnRH bound cells are gonadotropes. These techniques allow a study of storage sites for multiple hormones in or on whole cells. The studies agree with and augment the results from the use of serial sections.     

Effects of estrogen, pituitary gonadotropins and prolactin on immunohistochemical localization of inhibin subunits in the ovary of hypophysectomized female rats.

Effects of estrogen, pituitary gonadotropins and prolactin on immunohistochemical localization of alpha- and beta A-subunits in the ovaries of hypophysectomized female rats were investigated. Hypophysectomy resulted in disappearance of immunoreactive inhibin subunits in the ovary. Administration of DES, FSH and LH to hypophysectomized rats provoked growth of follicles, and resulted in positive immunostaining for inhibin subunits in the granulosa cells. In contrast to follicle-stimulating hormone (FSH) and luteinizing hormone (LH), prolactin administration failed to demonstrate positive staining for inhibin subunits in the ovary. The present in vivo results suggest that several hormones which are known to stimulate granulosa cell growth and maturation, such as estrogen, FSH and LH, enhance inhibin subunit production by the ovary. The morphologic aspect of inhibin subunit production by the ovary in response to several hormones has been demonstrated in the present study.     

Bioassays of gonadotropins

Bioassays constitute a unique approach to determine the functional aspects of gonadotropins. Indeed, these highly complex glycoprotein hormones, including pituitary lutropin (LH) and follitropin (FSH), are heterogeneous in terms of both peptidic and carbohydrate moieties, and, as a consequence, the bioactivity of the different molecular forms often does not match their immunoreactivity. In this article, we review the different types of LH and FSH bioassays. Conventional methods for measuring FSH bioactivity are first described and include the in vivo Steelman and Pohley bioassay, the radioligand receptor assays (RRAs), the in vitro Sertoli cell bioassay, the in vitro granulosa cell bioassay, and the inhibin immunoassay. Recent methods based on cell lines transfected with cloned receptors, particularly the human FSH receptor, are then described. Methods for developing these assays are presented, and the advantages and disadvantages of the different bioassays are discussed.     

Partial purification and characterization of rhinoceros gonadotropins, growth hormone, and prolactin: comparison with the horse and sheep

The rhinoceros is an endangered species related to the horse family. Little is known of its reproductive endocrinology. The objectives of this study were to partially purify rhinoceros pituitary hormones, determine which assays could be used for their assessment, and to ascertain whether rhinoceros LH possesses the intrinsic FSH activity of equine LH. A single pituitary each from a White (1.3 g) and a Black (1.2 g) Rhinoceros was homogenized and extracted (pH 9.5), then subjected to pH and salt fractionation, and ion-exchange chromatography (DEAE and Sephadex SP-C50) to yield partially purified fractions of LH, FSH, growth hormone (GH), and prolactin (PRL). LH was readily measured by a rat Leydig cell assay (0.1-1% x equine LH) and an RIA using a monoclonal antibody to bovine LH (6-11% x equine LH). FSH activity detected in the LH by either an FSH RIA or a calf testis radioreceptor assay (RRA) was extremely low. No FSH activity could be detected in the White Rhinoceros pituitary "FSH" fraction, but was readily detected in the Black Rhinoceros fraction (RIA: 0.2% x equine FSH: RRA: 0.8% x equine FSH). The presence of GH and PRL was determined by SDS-PAGE and Western blots. Results showed a single immunoreactive GH band and multiple immunoreactive PRL bands. Adsorption with Concanavalin A-Sepharose indicated that some of the PRL bands are glycosylated.