Cytochemical characterization of pituitary target cells for biotinylated gonadotropin releasing hormone

Long extensions with varicosity-like structures in gonadotrope Lh cells facilitate clustering in medaka pituitary culture

Accumulating evidence indicates that some pituitary cell types are organized in complex networks in both mammals and fish. In this study, we have further investigated the previously described cellular extensions formed by the medaka (Oryzias latipes) luteinizing hormone gonadotropes (Lh cells). Extensions, several cell diameters long, with varicosity-like swellings, were common both in vitro and in vivo. Some extensions approached other Lh cells, while others were in close contact with blood vessels in vivo. Gnrh further stimulated extension development in vitro. Two types of extensions with different characteristics could be distinguished, and were classified as major or minor according to size, origin and cytoskeleton protein dependance. The varicosity-like swellings appeared on the major extensions and were dependent on both microtubules and actin filaments. Immunofluorescence revealed that Lhβ protein was mainly located in these swellings and at the extremity of the extensions. We then investigated whether these extensions contribute to network formation and clustering, by following their development in primary cultures. During the first two days in culture, the Lh cells grew long extensions that with time physically attached to other cells. Successively, tight cell clusters formed as cell somas that were connected via extensions migrated towards each other, while shortening their extensions. Laser photolysis of caged Ca2+ showed that Ca2+ signals originating in the soma propagated from the soma along the major extensions, being particularly visible in each swelling. Moreover, the Ca2+ signal could be transferred between densely clustered cells (sharing soma-soma border), but was not transferred via extensions to the connected cell. In summary, Lh gonadotropes in medaka display a complex cellular structure of hormone-containing extensions that are sensitive to Gnrh, and may be used for clustering and possibly hormone release, but do not seem to contribute to communication between cells themselves.

Selective deletion of leptin receptors in gonadotropes reveals activin and GnRH-binding sites as leptin targets in support of fertility

The adipokine, leptin (LEP), is a hormonal gateway, signaling energy stores to appetite-regulatory neurons, permitting reproduction when stores are sufficient. Dual-labeling for LEP receptors (LEPRs) and gonadotropins or GH revealed a 2-fold increase in LEPR during proestrus, some of which was seen in LH gonadotropes. We therefore investigated LEPR functions in gonadotropes with Cre-LoxP technology, deleting the signaling domain of the LEPR (Lepr-exon 17) with Cre-recombinase driven by the rat LH-β promoter (Lhβ-cre). Selectivity of the deletion was validated by organ genotyping and lack of LEPR and responses to LEP by mutant gonadotropes. The mutation had no impact on growth, body weight, the timing of puberty, or pregnancy. Mutant females took 36% longer to produce their first litter and had 50% fewer pups/litter. When the broad impact of the loss of gonadotrope LEPR on all pituitary hormones was studied, mutant diestrous females had reduced serum levels of LH (40%), FSH (70%), and GH (54%) and mRNA levels of Fshβ (59%) and inhibin/activin β A and β B (25%). Mutant males had reduced serum levels of GH (74%), TSH (31%), and prolactin (69%) and mRNA levels of Gh (31%), Ghrhr (30%), Fshβ (22%), and glycoprotein α-subunit (Cga) (22%). Serum levels of LEP and ACTH and mRNA levels of Gnrhr were unchanged. However, binding to GnRH receptors was reduced in LEPR-null LH or FSH gonadotropes by 82% or 89%, respectively, in females (P < .0001) and 27% or 53%, respectively, in males (P < .03). This correlated with reductions in GnRH receptor protein immunolabeling, suggesting that LEP's actions may be posttranscriptional. Collectively, these studies highlight the importance of LEP to gonadotropes with GnRH-binding sites and activin as potential targets. LEP may modulate population growth, adjusting the number of offspring to the availability of food supplies.

Gonadotrope plasticity at cellular and population levels

Hormone-secreting cells within the anterior pituitary gland may form organized and interdigitated networks that adapt to changing endocrine conditions in different physiological contexts. For gonadotropes, this might reflect a strategy to cope with acute changes throughout different female reproductive stages. The current study examined gonadotropes in female mice at characteristically different hormonal stages: prepubertal, postpubertal, and lactating. Gonadotrope plasticity was examined at the level of the whole population and single cells at different stages by imaging both fixed and live pituitary slices. The use of a model animal providing for the identification of selectively fluorescent gonadotropes allowed the particular advantage of defining cellular plasticity specifically for gonadotropes. In vivo analyses of gonadotropes relative to vasculature showed significantly different gonadotrope distributions across physiological states. Video microscopy studies using live slices ex vivo demonstrated pituitary cell plasticity in the form of movements and protrusions in response to GnRH. As positive feedback from rising estradiol levels is important for priming the anterior pituitary gland for the LH surge, experiments provide evidence of estradiol effects on GnRH signaling in gonadotropes. The experiments presented herein provide new insight into potential plasticity of gonadotropes within the anterior pituitary glands of female mice.

Fasting and glucose effects on pituitary leptin expression: is leptin a local signal for nutrient status?

Leptin, a potent anorexigenic hormone, is found in the anterior pituitary (AP). The aim of this study was to determine whether and how pituitary leptin-bearing cells are regulated by nutritional status. Male rats showed 64% reductions in pituitary leptin mRNA 24 hr after fasting, accompanied by significant (30-50%) reductions in growth hormone (GH), prolactin, and luteinizing hormone (LH), and 70-80% reductions in target cells for gonadotropin-releasing hormone or growth hormone-releasing hormone. There was a 2-fold increase in corticotropes. Subsets (22%) of pituitary cells coexpressed leptin and GH, and <5% coexpressed leptin and LH, prolactin, thyroid-stimulating hormone, or adrenocorticotropic hormone. Fasting resulted in significant (55-75%) losses in cells with leptin proteins or mRNA, and GH or LH. To determine whether restoration of serum glucose could rescue leptin, LH, and GH, additional fasted rats were given 10% glucose water for 24 hr. Restoring serum glucose in fasted rats resulted in pituitary cell populations with normal levels of leptin and GH and LH cells. Similarly, LH and GH cells were restored in vitro after populations from fasted rats were treated for as little as 1 hr in 10-100 pg/ml leptin. These correlative changes in pituitary leptin, LH, and GH, coupled with leptin's rapid restoration of GH and LH in vitro, suggest that pituitary leptin may signal nutritional changes. Collectively, the findings suggest that pituitary leptin expression could be coupled to glucose sensors like glucokinase to facilitate rapid responses by the neuroendocrine system to nutritional cues.

Anterior pituitary leptin expression changes in different reproductive states: in vitro stimulation by gonadotropin-releasing hormone

This study was designed to learn more about the changes in expression of rat anterior pituitary (AP) leptin during the estrous cycle. QRT-PCR assays of cycling rat AP leptin mRNA showed 2-fold increases from metestrus to diestrus followed by an 86% decrease on the morning of proestrus. Percentages of leptin cells increased in proestrus and pregnancy to 55-60% of AP cells. Dual labeling for leptin proteins and growth hormone (GH) or gonadotropins showed that the rise in leptin protein-bearing cells from diestrus to proestrus was mainly in GH cells. Only 10-20% of leptin cells in male or cycling female rats coexpress gonadotropins. In contrast, 50-73% of leptin cells from pregnant or lactating females coexpress gonadotropins and only 19% coexpress GH, indicating plasticity in the distribution of leptin. Leptin cells expressed GnRH receptors, and estrogen and GnRH together increased the coexpression of leptin mRNA and gonadotropins. GnRH increased cellular leptin proteins three to four times and mRNA 9.8 times in proestrous rats and stimulated leptin secretion in cultures from diestrous, proestrous, and pregnant rats. These regulatory influences, and the high expression of AP leptin during proestrus and pregnancy, suggest a supportive role for leptin during key events involved with reproduction.

Bipotential effects of estrogen on growth hormone synthesis and storage in vitro

Increased pulses of serum GH coincide with rising estrogens during the reproductive cycle, suggesting estrogen regulation. However, there is lack of agreement about estrogen's direct effects on the pituitary. Pituitaries from cycling female rats were dispersed and plated for 24 h in defined media containing vehicle or 0.001-250 nm 17beta-estradiol. Estrogen (0.01-10 nm) increased the percentages of GH antigen-bearing cells in the anterior pituitary significantly (1.3- to 1.6-fold) and 0.01-1 nm concentrations also stimulated significant increases in GH mRNA-bearing cells and in the integrated OD for GH mRNA. However, 100-250 nm either had no effect or, inhibitory effects on the area of label for GH mRNA. To test estrogen's effects on expression of GHRH receptors, cultures were stimulated with biotinylated analogs of GHRH and target cells detected by affinity cytochemistry. Estrogen increased GHRH target cells in populations from rats in all stages of the cycle tested. Basal expression of GHRH target cells declined at metestrus. Cultures treated with 0-1 nm estrogen were then dual labeled for bio-GHRH followed by immunolabeling for GH with the antirabbit IgG-ImmPRESS peroxidase polymer. Over 98% of GH cells bound GHRH and 90-96% of GHRH-bound cells contained GH in all treatment groups. Thus, low concentrations of estrogen may stimulate expression of more cells with GH proteins, biotinylated GHRH binding sites, and GH mRNA, whereas high concentrations have no effect, or may reduce GH mRNA. These bipotential effects may help explain the different findings reported in the literature.

Molecular, structural, and cellular biology of follitropin and follitropin receptor

Follitropin and the follitropin receptor are essential for normal gamete development in males and females. This review discusses the molecular genetics and structural and cellular biology of the follitropin/follitropin receptor system. Emphasis is placed on the human molecules when possible. The structure and regulation of the genes for the follitropin beta subunit and the follitropin receptor is discussed. Control of systemic and cellular protein levels is explained. The structural biology of each protein is described, including protein structure, motifs, and activity relationships. Finally, the follitropin/follitropin receptor signal transduction system is discussed.

The use of counterflow centrifugation to enrich gonadotropes and somatotropes

Counterflow centrifugation produces populations of gonadotropes or growth hormone (GH) cells enriched to 90% in a Beckman elutriator. The pituitary populations are first separated by size into three fractions applying different flow rates, stimulated with either gonadotropin-releasing hormone (GnRH) to enlarge the gonadotropes or growth hormone-releasing hormone (GHRH) to enlarge the somatotropes for 3 hr. The fractions are re-eluted, first at the original flow rates and then at higher flow rates to separate enlarged gonadotropes or somatotropes. Most other cell types are reduced to less than 5%. However, co-storage of GH and gonadotropin antigens is seen in either population. Enriched gonadotropes or somatotropes can be used in studies of proliferation, autocrine or paracrine regulation, or ion channel functions.(J Histochem Cytochem 49:663-664, 2001)

Regulation of C-fos protein in gonadotrope cells by oxytocin and gonadotropin-releasing hormone

The integrated regulation of luteinizing hormone (LH) from the anterior pituitary gland is vital to the functioning of the ovulatory cycle in the female and consists of several components acting at different time points. The best-studied is the rapid release of LH elicited by gonadotropin-releasing hormone (GnRH). The so-called primary (immediate early) response genes (PRGs), including c-fos, regulate relatively long-term activities, such as mitosis, protein synthesis, protein release and cell differentiation. Regular ovulatory cycles occur as a result of interaction of several peptide factors including the primary factor, GnRH and oxytocin, although GnRH and oxytocin do not have identical activities. We wished to determine whether oxytocin could mediate changes in expression of c-fos protein and compare its effects with those of GnRH. Anterior pituitary glands were collected from female rats at proestrus and a single-cell suspension prepared. Cells were incubated with oxytocin or GnRH at selected concentrations for various times. C-fos protein was extracted and submitted to Western blot analysis. Other cells were stained immunohistochemically for c-fos and LH following incubation with the peptides and fixation. There was an increase in c-fos protein from 15 to 60 min in Western blots of cells from all incubations. After immunohistochemistry, it was observed that both oxytocin (100 nM) and GnRH (100 nM) increased the percentage of cells that expressed c-fos protein (p < 0.001) and of cells that expressed LH (p < 0.001). The responses to the peptides were concentration dependent. We found that neither all LH-containing cells expressed c-fos, nor all c-fos-containing cells immunostained for LH. The effects of the peptides were not the same. High concentrations of GnRH (1 microM) induced the appearance of a higher percent of LH-containing cells having c-fos than did 10 nM GnRH (p < 0.01), whereas a lower percent of LH-containing cells with c-fos were observed when the oxytocin concentration was raised from 10 nM to 1 microM (p < 0.02). It appears, therefore, that the two peptides have different regulatory effects on LH-containing cells, indicating the possibility of specialized function. The results emphasize the suggestion that stimulation of LH secretion is not the sole index of gonadotrope-directed activity by a peptide. Collectively, these results indicate that the peptides oxytocin and GnRH are able to modulate processes that are associated with longer-term activities of gonadotropes and also demonstrate that specific subpopulations of LH-containing gonadotropes are stimulated to express c-fos.

Cytochemical studies of the effects of activin on gonadotropin-releasing hormone (GnRH) binding by pituitary gonadotropes and growth hormone cells

Activin stimulates the synthesis and secretion of follicle-stimulating hormone (FSH). It inhibits the synthesis and release of growth hormone (GH). It acts on gonadotropes by stimulating the synthesis of gonadotropin-releasing hormone (GnRH) receptors. To test activin's effects on GnRH target cells, pituitary cells from diestrous or proestrous rats were exposed to media with and without 60 ng/ml activin for 24 hr and stimulated with biotinylated GnRH (Bio-GnRH). The populations were double-labeled for Bio-GnRH and/or luteinizing hormone-beta (LH-beta), FSH-beta, or GH antigens. In both diestrous and proestrous rats, activin stimulated more LH and FSH cells and increased the percentages of GnRH target cells. In diestrous rats, activin stimulated increases in the average area and density of Bio-GnRH label on target cells. In addition, more FSH, LH, and GH cells bound Bio-GnRH. The increment in binding by gonadotropes was not as great as that normally seen from diestrus to proestrus, suggesting that additional factors (such as estradiol) may be needed. These data suggest that activin plays an important role in the augmentation of Bio-GnRH target cells normally seen before ovulation. Its actions on GH cells may reflect a role in the transitory change from a somatotrope to a somatogonadotrope that is seen from diestrus to proestrus.

Cytochemical studies of multifunctional gonadotropes

Studies have focused on the roles of the gonadotrope subsets defined by cytochemical and morphological tools. The evidence points to groups of gonadotropes that may be stimulated to mature and secrete to support surge activity. We postulate that these gonadotropes stem from the medium-sized subset. Other gonadotropes may more involved with maintenance functions. Perhaps these come from the larger cell pools. Monohormonal gonadotropes may play unique roles, such as FSH secretion early in estrus. Some may be immature, others may be regulatory and play both paracrine or autocrine roles in the pituitary cell population. We also recognize that one of the limitations of the current-day cytochemical techniques is that it does not define the entire gonadotrope population in any given two-label protocol. Nevertheless, based on past cytochemical studies, assumptions are made about the extent to which the cells express both hormones or behave in a uniform manner. These assumptions have led researchers to focus on one subset of the gonadotrope population. In their attempts to simplify the population to be studied, they may have eliminated important regulatory, secretory, or monohormonal gonadotropes from the pool. The approach is valid, as long as they recognize that they are studying a subset of a complex and dynamic population.

LHRH receptors and LHRH receptor-bearing cells in pituitaries of streptozocin diabetic male rats

Streptozocin (STZ)-diabetic rats have low hypothalamic luteotropic hormone-releasing hormone (LHRH) secretion and various alterations of gonadotrope cells, among which low luteotropic hormone (LH) secretion. Possible causes for the gonadotrope disorders may be low hypothalamic LHRH secretion alone or combined with reduced (a) number of LHRH receptor sites, or (b) receptor to ligand affinity, or (c) of LHRH receptor-bearing cells. To clarify this question we determined by saturation and competition binding Bmax, KD and KA of the LHRH receptor sites and counted the receptor-bearing cells in pituitary glands of control and STZ-diabetic adult male rats. We found a single receptor class, the Bmax was strongly reduced in diabetic animals whereas both KD and KA were similar in the two groups. The number of LHRH receptor-bearing cells in diabetic animals was increased. Therefore a reduced number of receptor sites per gonadotrope cell occurs in our model. Since in the STZ-diabetic male rats the number of gonadotropes is increased, a higher number of receptor-bearing cells was observed. We conclude that the reduced LH secretion from the diabetic pituitary gland might be due to a reduced number of LHRH receptor sites in the pituitary gland. The increased number of receptor-bearing cells might partially compensate for this change.

Peptide biotinylation with amine-reactive esters: differential side chain reactivity

N-hydroxysuccinimide (NHS) esters of biotin are reported to react specifically with amino groups of peptides and proteins. However, we have found that these reagents can readily acylate other functional groups in specific peptide sequences under relatively mild conditions. We have extended our inquiry of sequence-dependent acylation by evaluating the reactivity of a variety of commonly employed biotinylation reagents typically used for amino group modification. These included the p-nitrophenyl ester of biotin, NHS-esters of biotin containing aminohexanoic acid spacer arms, and a sulfonated NHS-biotin ester that contained a disulfide bond within its spacer. The decapeptide [D-Lys6]gonadotropin releasing hormone was employed as a model peptide. Reaction products were characterized by high-performance liquid chromatography, amino acid compositional analysis, reaction with hydroxylamine, and mass spectrometry. In addition to the O-acylation of Ser4 and Tyr5 in this peptide, we have also identified a novel biotinylation of the Arg8 side chain.

Division of labor among gonadotropes

This chapter has presented a somewhat complex view of the gonadotrope population, indicating that it consists of independent subsets. There may be regulatory cells that influence development and other ancillary processes needed for normal reproduction. For example, normal differentiation of PRL cells requires a functioning population of gonadotropes (Kendall et al., 1991). In addition, gonadotropes appear to be autoregulatory; subsets may produce inhibin or activin (in rats) and follistatin. Production of GnRH itself may serve as another regulatory tool. The gonadotrope population appears to be quite dynamic and convertible in the female rat. Cytological and cytochemical changes with the stage of the cycle are obvious. Increases in the numbers of immunoreactive gonadotropes parallel increases in GnRH target cells and culminate in peak expression of LH and FSH beta subunit mRNAs. The immunoreactive gonadotropes are greatly reduced after the surge activity, as though the cells had disappeared from the population. However, gonadotropes can still be detected by their content of gonadotropin mRNAs. This finding has led to the hypothesis that the gonadotropes recycle themselves. However, do they go through a resting phase? Is there a normal cycle of cell death and turnover? These are basic questions that must be answered in order to understand how the population is organized and renewed. Finally, we have returned to one of our original problems. Whereas it is clear that nonparallel release can be brought about by granules or cells with only one gonadotropin, the exact mechanisms that sort the gonadotropin molecules or turn off bihormonal expression are not known. A combination of autoregulatory events involving follistatin, activin, inhibin, and possibly steroids may play a role in modulating expression by a given subset. Delays in maturation may also prevent secretion of FSH and, hence, effect the delayed rise seen during late proestrus. The nonsecretory FSH cells seen in the studies by Lloyd and Childs (1988a) may be delayed maturers, requiring additional receptor types or changes in the calcium flux pattern to secrete their product. We also have a new question to address. What is the significance of the presence of GH in proestrous gonadotropes? Is GH a regulatory hormone, bound to receptors inside gonadotropes, or do subsets of somatotropes augment the population, producing a cocktail of GH and gonadotropins to aid ovulation? Either hypothesis is intriguing. Co-storage of GH and gonadotropins would be an efficient way of providing the hormones needed by the ovary. However, further work with in situ hybridization is needed to detect GH mRNA in such cells.(ABSTRACT TRUNCATED AT 400 WORDS)

Cytochemical characterization of anterior pituitary target cells for the neuropeptide, pituitary adenylate cyclase activating polypeptide (PACAP), using biotinylated ligands

Two novel peptides, named PACAP (pituitary adenylate cyclase activating polypeptide) containing 38 (PACAP38) and 27 residues (PACAP27) were recently isolated from ovine hypothalami. In order to investigate the pituitary cell type(s) that bear a receptor for PACAP, PACAP38 was biotinylated and used for cytochemical examination of binding. The cells were also identified by immunocytochemical methods using the antisera against each of the rat anterior pituitary hormones or an antiserum against S-100 protein, a marker for pituitary folliculo-stellate (FS) cells. Biotinylated PACAP38 (biot-PACAP) exhibited adenylate cyclase stimulating activity (ACSA) comparable to PACAP38 in rat pituitary cell cultures, and displaced the bound 125I-PACAP27 to the rat pituitary membrane preparation to the same extent as PACAP38. After 2-4 days of culture, dispersed rat pituitary cells were incubated with varying concentrations of biot-PACAP at room temperature or 4 degrees C. The bound biot-PACAP38 was visualized by avidin-biotin-peroxidase complex (ABC) method with nickel intensification. Biot-PACAP-positive and pituitary hormone or S-100-positive cells were counted. More than 90% of S-100-positive cells bound biot-PACAP38. A considerable number of GH and PRL cells and a lesser number of ACTH cells also bound biot-PACAP38, whereas only a few identified LH, FSH, or TSH cells bound biot-PACAP38. These results suggest that FS cells are a major target cell type for PACAP. A recent study from our laboratory demonstrated that PACAP stimulated the release of interleukin (IL)-6 in rat pituitary cell cultures. FS cells are known to produce IL-6.

Topographical mapping of GnRH receptors on dispersed mouse pituitary cells by backscattered electron imaging

Mouse anterior pituitary cells cultured for 2 days were stimulated with one of three biotinylated-GnRH probes ([biotinyl-Lys6]-[D-Lys6]GnRH, [biotinyl-Ser4]-[D-Lys6]GnRH, [biotinyl-Ser4]-[D-Trp6, des-Gly10]GnRH) in the cold (4 degrees C) for 1 hr. These cells were subsequently fixed and an avidin-gold complex was conjugated to the bound GnRH. After a second fixation, the gold label was silver-enhanced for viewing with a scanning electron microscope. Gonadotropes were identified as a result of the labeling procedure, measured for size, and the number of GnRH receptor sites counted. Gonadotropes ranged from 3 to 13 microns in diameter and contained from 23.2 +/- 3.3 to 338.4 +/- 25.2 sites per cell depending upon the size of the cell and the ligand employed. The methods described should be applicable for studying the topographical distribution of a variety of cellular receptors.

Demonstration of gonadotropin releasing-hormone receptors on gonadotrophs and somatotrophs of the goldfish: an electron microscope study

Dispersed pituitary cells of the goldfish were incubated with biotinylated [D-Lys6, Pro9-N-ethylamide] salmon gonadotropin-releasing hormone (sGnRH-A) then avidingold (10 nm), and were fixed, embedded and sectioned. Cells were identified as gonadotrophs, somatotrophs, or prolactin cells using specific hormone antisera and protein-A gold (20 nm) as a marker. Attachment of the biotinylated sGnRH-A to the pituitary cell sections was determined by scanning cell surfaces for the smaller gold particles using the transmission electron microscope. Attachment was observed on gonadotrophs and somatotrophs, but was negligible on prolactin cells. Preincubation with unlabelled salmon gonadotropin-releasing hormone or chicken II gonadotropin-releasing hormone, or omission of the salmon gonadotropin-releasing hormone analog, prevented the reaction. The direct visualization of specific gonadotropin-releasing hormone receptors on gonadotrophs and somatotrophs supports the existence of direct stimulatory actions of gonadotropin-releasing hormone on gonadotropin and somatotropin release in gold-fish.

Spatial association of renin-containing cells and nerve fibers in developing rat kidney

The development of renin-containing cells and nerve fibers was studied in Sprague-Dawley rat kidneys during the last third of gestation and the first 15 days of postnatal life. Kidney tissue sections were stained for nerve fibers or double stained employing an anti-rat renin polyclonal antibody and a monoclonal antibody (TUJ1) directed against a neuron-specific class III beta-tubulin isotype. Renin-containing cells and nerve fibers were detected at 17 days of gestation, in close spatial relationship along the main branches of the renal artery. During fetal life, renin-containing cells and nerve fibers were spatially associated along arcuate and interlobular arteries, renin-containing cells being also present throughout the entire length of afferent arterioles supplying juxtamedullary glomeruli. During postnatal life the distribution of renin-containing cells progressively shifted to a restricted juxtaglomerular position in afferent arterioles. Simultaneously, density and organization of nerve fibers increased with age along the arterial vascular tree. Our results suggest that innervation of renin-containing cells is present in fetal life and follows the centrifugal pattern of renin distribution and nephrovascular development.

Purification of gonadotropin releasing hormone receptors using the avidin-biotin technique

The avidin-biotin technique has been applied to the purification of gonadotropin releasing hormone (GnRH) receptors from other solubilized membrane proteins. The following steps were involved in this approach: (a) solubilization of rat pituitary GnRH receptor with the zwitterionic detergent CHAPS, 3-[(3-cholamidopropyl)-di-methylammonio]-1-propane sulfonate, (b) equilibration of the solubilized GnRH receptor with [biotinyl-D-Lys6]GnRH immobilized on avidin-agarose; and (c) elution of the receptors with high salt and GnRH analogues. Following two cycles of affinity chromatography the GnRH receptor was purified to homogeneity. The overall recovery of the purified receptor was 4-10% of the initial activity in the CHAPS extract and the calculated purification was approximately 10,000 to 15,000 fold. The development of a two step affinity chromatography for the purification of GnRH receptors can be used for detailed studies on the structure and function of the receptor. These studies will advance our understanding of the molecular basis of GnRH action.

Effects of lithium on the pituitary-gonadal axis in the rat: evidence for dose-dependent changes in plasma gonadotropin and testosterone levels

The purpose of the present study was to examine the effects of lithium, a drug which is now used rather widely in the treatment of acute mania and the prophylaxis of manic-depressive bipolar disorders, on the pituitary-gonadal function in the laboratory rat. Sexually adult male rats, maintained under standardized laboratory conditions (LD 14: 10; lights on at 06:00 h, CST), were injected (ip) with lithium chloride both acutely for 1 day and chronically for 5 days, and by utilizing a low and high dose. For the low dose, lithium was injected twice daily (at 10:00 and 15:00 h) at 2.5 meg/Kg for 1 and 5 days, whereas in the high dose groups, also receiving lithium twice daily and at the same hours, the dosages were 5 meq/Kg for 1 day and 3.5 meq/Kg for 5 days. Animals were sacrificed 4 hours after the last lithium (or saline) injections. Plasma and pituitary levels of luteinizing hormone (LH) and follicle stimulating hormone (FSH), and plasma levels of testosterone (T) were measured by radioimmunoassay (RIA). The administration of the low dose led to a significantly higher (P less than 0.001) plasma FSH, but unaltered plasma LH, levels after 5 days. In contrast, the high dose lithium led to significant suppressions of plasma LH (P less than 0.02; on day 5) and FSH (P less than 0.001; on both day 1 and 5) levels. The levels of plasma T also showed a significant reduction following the low dose (P less than 0.02; on day 5), as well as the high dose lithium treatment, as evident after both 1 (P less than 0.02) and 5 (P less than 0.02) days. Regardless of the dosage, or the duration of treatment, pituitary gonadotropin levels remained unaltered following lithium. The results of our present experiments suggest that lithium administration, either acutely or on a chronic basis, might be associated with significant adverse effects on the pituitary-testicular axis. Furthermore, since some of the hormonal changes were evident when plasma lithium concentration was within the therapeutic range, our data may have potential clinical implications.

Immunohistochemical localization of C5b-9, S-protein, C3d and apolipoprotein B in human arterial tissues with atherosclerosis

The terminal C5b-9 neoantigens of the complement complex, S-protein (Vitronectin), C3c, C3d and apolipoprotein B were localized on 16 aortic fibrous plaques, 8 aortic intimal thickenings, 4 fatty streaks intimae, 12 coronary fibrous plaques, 3 coronary intimal thickenings, 6 femoral and 5 basilar fibrous plaques, using an indirect and double-staining immunoperoxidase method. The granular specific deposits were localized in the fibrous cap and deeper parts of the plaque or in the deeper intima and inner-third media of intimal thickenings and fatty streaks intimae, in relation to the degree of atherosclerotic involvement. The different localization of C5b-9 and S-protein demonstrated by the double-staining technique is more suggestive for the assembly of the complex into the arterial wall and not for its preformed passage from circulation. The relation of these immune deposits to the degree of fibrosis and necrosis and their presence from the initial stages through to the advanced lesions could ascribe a role to the complement system in atherosclerosis.

Secretion from corticotropes after avidin-fluorescein stains for biotinylated ligands (CRF or AVP)

Viable pituitary target cells were identified with biotin-labeled corticotropin-releasing factor (1-Bio-CRF) or arginine vasopressin (Bio-AVP) and avidin-fluorescein (cell sorter grade). Stain was reduced from 8-10% of pituitary cells to less than 3% if nonbiotinylated ligands were added to compete with their respective biotinylated ligand for specific binding sites. However, AVP did not decrease the stain for 1-Bio-CRF nor did CRF decrease the Bio-AVP stain. Media adrenocorticotropin (ACTH) levels increased 4-18 times when 1-Bio-CRF or Bio-AVP were added during the staining process. One hour after staining, the cells secreted ACTH at levels identical to prestain basal levels. When challenged with CRF or AVP after this hour, the cells responded again with increases not different from those seen during staining. Tests of stained cell populations also showed that the cells were fully responsive 24 h after staining. The reverse hemolytic plaque assay for ACTH, which was used to study secretion from individual stained cells, showed that approximately 80% of plaques contained a stained cell and that plaque numbers and areas were like those of unstained populations. These data show that corticotropes are not chronically desensitized during exposure to low doses of biotinylated ligands (50-500 pM).

Acute lithium treatment suppresses the proestrous LH surge in mice: chronic lithium leads to constant diestrus

Although the therapeutic usefulness of lithium in manic-depressive psychosis is now well-established, a number of basic and clinical studies in recent years have shown that the administration of this anti-manic drug produces a wide range of adverse endocrine and metabolic effects. The present study was undertaken in order to examine (a) what effects acute lithium administration might have on the preovulatory surge of luteinizing hormone (LH) during proestrus, and (b) whether chronic lithium administration has any adverse effect on the estrous cycle in C57BL/6 mice. Acute injections of lithium on the day of proestrus (at 10.00, 16.00 and 18.00 h; LD 14:10; lights on at 05.00 h CST) at a dosage of 5 mEq/kg b. wt. led to a significant (P less than 0.01) suppression of the LH surge that normally occurs in the evening of proestrus at 21.00 h. Chronic administration of lithium, on the other hand, resulted in a complete disruption in the regularity of the estrous cycle. This was characterized by an increasing number of mice showing a continuous diestrous vaginal smear during the first week of exposure to lithium, after which all of the lithium-treated mice completely stopped cycling and entered into constant diestrus. These results represent for the first time that lithium has significant adverse effects on the reproductive function in the female, especially in regard to the proestrous LH surge and estrous cyclicity in mice. Since these adverse effects were manifested under conditions when plasma lithium concentrations were within or around the therapeutic range, our results provide important conceptual information concerning possible adverse effects of lithium on the reproductive function in the human female.

Receptor-mediated endocytosis of GnRH analogs: differential processing of gold-labeled agonist and antagonist derivatives

The hypothalamic decapeptide, GnRH, stimulates LH and FSH release from pituitary gonadotrophs. Many synthetic peptide analogs, both agonist (GnRH-A) and antagonist (GnRH-AT), have been developed which bind specifically to the GnRH receptor. We have utilized highly potent GnRH-A and GnRH-AT analogs labeled with 18 nm colloidal gold to analyze ultrastructurally the events of binding and interiorization of these specific ligands by gonadotrophs in vitro. To examine internalization of GnRH-A-gold, gonadotrophs were cooled to 4 degrees C and equilibrated with the ligand for 1 h. Next, the cells were either fixed immediately or warmed to 37 degrees C for various times (5, 15 and 30 min) and prepared for electron microscopy. For GnRH-AT-gold, which binds slowly at 4 degrees C, the ligand was incubated with gonadotrophs at 37 degrees C for 15, 30 and 60 min, and the cells were processed for electron microscopy at each time point. In both cases, control gonadotrophs were also incubated in an excess of GnRH-A and GnRH-AT, respectively, in the presence of the gold-conjugated ligands. The results indicated that GnRH-A-gold was bound and rapidly internalized via a receptor-mediated endocytic pathway. GnRH-AT-gold was also bound but showed only limited entry into gonadotrophs; the percentage of intracellular GnRH-AT-gold in gonadotrophs was the same as in other pituitary cells contaminating the gonadotroph fraction and did not increase with time. In the gonadotroph, binding of the specific antagonist ligand to GnRH receptors does not stimulate its interiorization, in contrast to the rapid endocytosis and processing of the agonist ligand. These data suggest that specific ligand internalization requires prior receptor activation, and that GnRH-AT which does not activate the receptor remains bound at the cell surface for a prolonged period.

Gonadotropin releasing hormone activation is mediated by dimerization of occupied receptors

A dinitrophenyl (DNP)-derivative of a gonadotropin releasing hormone (GnRH) antagonist was prepared by chemical modification of the epsilon amino group in position 6 of [D-pGlu1,D-Phe2,D-Trp3,D-Lys6]GnRH with 1-fluoro-2, 4-dinitrobenzene. The DNP-antagonist D-pGlu-D-Phe-D-Trp-Ser-Tyr-D-Lys(N epsilon-DNP)-Leu-Arg-Pro-Gly-NH2, retained high affinity binding to the GnRH receptor of pituitary membrane preparations and exhibited antagonistic activity when assayed in cultured pituitary cells. Both antibodies against DNP and their Fab fragments were able to bind the DNP-antagonist. However, only the addition of bivalent antibodies (and not the Fab fragments) converted the DNP-antagonist to an agonist. These results suggest that divalency is a critical factor in GnRH action.

Shifts in gonadotropin storage in cultured gonadotropes following GnRH stimulation, in vitro

Stimulation of gonadotropes following castration or ovariectomy results in a shift in the gonadotrope population to cells that are mostly multihormonal. The purpose of these studies was to test this phenomenon, in vitro with the use of doublestains for LH and FSH applied to GnRH-stimulated gonadotropes. One-3 day monolayers were stimulated for 10 min-4 hr with 0.1 nM [D-Lys6] GnRH and then fixed and stained for both gonadotropins. After 60 min of stimulation, there was a significant increase in the proportion of gonadotropes that contained both hormones (from 57% to 74%) with a corresponding decrease in the proportion of cells that contained only one gonadotropin. There was no significant increase in the overall percentage of gonadotropes in the cell population indicating that the shift had probably occurred as a result of stimulation of the monohormonal gonadotropes to produce the other hormone. In addition, some of the stimulated gonadotropes showed the development of processes, some of which stained for only one of the gonadotropins. These data suggest that most gonadotropes may have the capacity to produce and store both hormones but they may perform these functions in separate regions of the same cell.

Intracellular pathways of receptor-bound GnRH agonist in pituitary gonadotropes

Localization of GnRH receptors in rat pituitary gonadotropes was studied by use of 125I-[azidobenzoyl-D-Lys6]GnRH which, upon photolysis, is covalently bound to the receptor molecule. Using high resolution autoradiography, it was found that, after a 90-min incubation of the analog with pituitary cells at 4 degrees C, 93% of the silver grains were associated with the plasma membrane of the gonadotropes. After 45-min incubation of the cells at 37 degrees C, clustering and internalization of the receptor-bound GnRH analog were evident. Silver grains were associated with coated pits, intracellular vesicles, Golgi complexes, lysosome-like structures and secretory granules. The data indicate that receptor-bound GnRH agonist is internalized, at least in part, via coated pits and is subsequently routed to lysosomes where degradation of the hormone-receptor complex may occur. The presence of a considerable amount of silver grains associated with secretory granules may suggest that some of the internalized receptor molecules can escape degradation and be recycled to the cell membrane.