Ultrastructural immunocytochemical localization of prolactin and growth hormone in the porcine pituitary

Summary The immunocytochemical peroxidase-antiperoxidase technique was used to identify prolactin- and growth hormone-producing cells in the porcine pituitary at the ultrastructural level. The growth hormone-producing cells contain round secretory granules (300 nm to 500 nm in diameter). The prolactin-producing cells can be identified by their distinct round and ovoid secretory granules which vary in size. Most of these cells contain large granules (450 nm to 750 nm in diameter), but some prolactin-producing cells display smaller secretory granules (250 nm to 500 nm). The two hormones were localized exclusively in the secretory granules. Staining for prolactin was observed in round and ovoid granules, as well as in small and polymorphic granules within the Golgi complex. This study confirmed (i) that the two hormones are located in different cells, and (ii) that under normal physiological conditions no one cell can synthesize and store both hormones simultaneously.     

Ultrastructural localization of gonadotropin-releasing hormone in the porcine gonadotropic cells

Summary The comparative ultrastructural localization of LH, FSH and GnRH clearly shows that the granules of the FSH/LH cells contain all three hormones. The separate storage of LH and FSH in a significant number of cells, which in the same granules also display GnRH, may suggest that LH-RH is also FSH-RH and may help to explain the non-parallel release of LH and FSH under some functional conditions.     

Localization of gonadotrophic hormones in the dog pituitary gland

Summary Using the immunoperoxidase technique and antisera to the specific beta () subunits of FSH and LH¹, selective immunochemical staining was localized mostly in the same cell type in the pars distalis and pars tuberalis of the dog pituitary gland. However, some cells were consistently shown to react solely with antisera to either LH or FSH. The cells stained for FSH were at least 1.5 times less numerous than those shown to contain LH. In the pars distalis of adult male dogs the immunoreactive gonadotrophs varied greatly in their relative proportion and were mostly shown to be much less numerous than in bitches in the anestrus phase of the sexual cycle. These cells were found to be positive to aldehyde fuchsin, alcian blue, periodic acid-Schiff (PAS) and aniline blue. The performic acid-alcian blue (pH 0.2)-PAS-orange G procedure stained the FSH/LH cells blue or turquoise, demonstrating TSH cells (blue-purple), ACTH/MSH cells (red-purple) and PRL cells (orange-red). The FSH/LH cells were further differentiated from other functional cell types of the pars distalis on the basis of their typical cytological features, intraglandular distribution and by immunochemical double staining. These observations support the concept that the one cell-one hormone theory may not apply to gonadotrophic hormones, although some cells seem to be the source of either FSH or LH.Abbreviations for Pituitary Hormones cited in this Paper ACTH Adrenocorticotropin - FSH Follicle Stimulating Hormone - GH Growth Hormone - LH Luteinizing Hormone - MSH Melanocyte Stimulating Hormone - PRL Prolactin - TSH Thyrotropin The authors are grateful to Dr. H. Wiemann for the statistical evaluation and to Mrs. B. Schilk and Miss U. Tüshaus for their excellent technical assistanceRecipient of a Research Scholarship from the Arabic Republic of Egypt     

Ultrastructural localization of thyrotropin (TSH) in the porcine anterior pituitary

Summary Two different immunocytochemical techniques based on specific antibodies against -subunits of porcine, rat and bovine TSH were applied at the ultrastructural level to identify the TSH cells in the porcine anterior pituitary and to compare the subcellular localization of the hormone.The post-embedding method on serial ultrathin sections revealed the localization of TSH in the granules of a specific cell type, negative for the other hormones. TSH was found in polyhedral cells characterized (i) by their content of granules that were the smallest of all the cell types examined, and (ii) by their flattened or slightly dilated RER cisternae. The pre-embedding method applied to isolated cells permitted a good penetration of antisera and the maintenance of antigenicity in sites inaccessible to the post-embedding method. Thus, immunoreactivity of TSH was detected in the secretory granules, the cytoplasmic matrix and in portions of the rough endoplasmic reticulum, in association with some membranes and inside some saccular structures.     

Subcellular localization of gonadotropic hormones in pituitary cells of the castrated pig with the use of pre-and post-embedding immunocytochemical methods

Summary Pre- and post-embedding immunocytochemical methods based on the use of specific antibodies against -subunits of porcine LH and FSH were applied to determine the changes occurring in the anterior pituitary of the pig after gonadectomy. The results showed that (1) the total number of immunoreactive gonadotropes increased from 21–25% in control animals to 24–37% in castrated animals; (2) all gonadotropes contained both LH and FSH; (3) several types of immunoreactive LH/FSH cells were revealed; and (4) the two immunocytochemical methods used with dispersed cells localized the hormones in the same subcellular sites. However, the staining intensity in the different locations varied depending on the method applied. With the post-embedding method, a dense reaction product was found in the secretory granules but the cisternae of RER and the Golgi saccules were always slightly reactive. After the pre-embedding method, the staining intensity in the RER-cisternae and in the Golgi saccules was greatly increased. Thus, the two methodological approaches used in this study have permitted to visualize immunocytochemically the gonadotropic hormones not only at the sites of their storage but also along the intracellular pathway of the secretory material, i.e., at the site of its synthesis and during its passage via the Golgi zone.     

LH-producing cells in the ovine pituitary

Summary An immunocytochemical technique using the peroxidase-antiperoxidase complex (PAP) was applied to identify and characterize the LH-secreting cells in the ovine pituitary at the ultrastructural level. These cells, round or oval in shape, possessing flattened cisternae of the rough endoplasmic reticulum, contain one class of secretory granules (mean diameter 250 nm) and large dense bodies (600 to 800 nm in diameter). LH molecules and the two subunits LH and LH were localized on the secretory granules and on the small granules near the Golgi complex. The large dense bodies, the cisternae of the endoplasmic reticulum and the saccules of the Golgi complex showed no reaction product.Abbreviations used in this Article O-LH ovine luteinizing hormone - b-LH bovine luteinizing hormone - p-LH porcine luteinizing hormone - p-LH porcine LH subunit - p-LH porcine LH subunit - O-FSH ovine follicle stimulating hormone - b-TSH bovine thyrotropic hormone - A-b LH antiserum to bovine LH - A-pLH antiserum to porcine LH subunit - A-pLH antiserum to porcine LH subunit     

Evidence for FSH-like material in ACTH granules of certain corticotropic cells in the pituitary of the pig

Summary The ultrastructural immunocytochemical peroxidase-antiperoxidase technique used on serial sections reveals that certain corticotropic cells contain both ACTH and FSH, but not LH (ACTH/FSH cells). To determine the specificity of the anti-FSH staining in these cells, immunocytochemical absorption experiments were performed. The results indicate that (1) anti-FSH and -ACTH antisera are bound to different antigens in the corticotropic cell, and (2) anti-FSH staining is specific for a FSH-like antigen. In the ACTH/FSH cells both hormones are stored in the same secretory granules, distributed among other granules that contain only ACTH.     

Functional differentiation of the anterior pituitary cells in the fetal pig

Summary The fetal porcine pituitary was investigated by means of ultrastructural immunocytochemistry (1) to identify the first cells synthesizing the adenohypophyseal hormones, (2) to follow their differentiation during fetal development, and (3) to compare their ultrastructural characteristics with those of mature adult cells.The first ACTH-cells, which produced and stored ACTH, -LPH, -MSH, and - and -endorphin in the same granules, were very numerous at day 34 and displayed a uniform morphology. At day 50 and thereafter, until the end of gestation, the ACTH-cells differed in their appearance probably reflecting various stages of differentiation of one cell type. The GH-cells gained rapidly ultrastructural features comparable to those of mature GH-cells. In contrast, in the case of PRL-cells, which appeared only at the end of the gestation period as immature elements containing very small secretory granules, the morphological maturation seemed to take place only after birth. The first cells synthesizing the glycoprotein hormones (LH, LH, FSH and TSH) displayed ultrastructural features of immature cells. At day 50, their ultrastructural organization started to show a different pattern. At the end of gestation, the TSH-cells and the gonadotropic cells displayed the ultrastructural features of mature cells.     

Ultrastructural immunocytochemical localization of LH and FSH in the pituitary of the untreated male rat

Summary Rapid freeze-substitution fixation was employed in immunocytochemical studies on the localization of LH and FSH in the typical gonadotrophs of the anterior pituitary in the untreated male rat; a modification of a recently described ferritin antibody method (Inoue et al. 1982) was used in these studies. It was shown that rapid freeze-substitution fixation provides good preservation not only of the ultrastructure but also of the antigenicity. Both LH and FSH were clearly demonstrated in the same gonadotrophic cells, but the subcellular localization of these gonadotrophins differed: (i) LH was mainly located in small secretory granules, 250–300 nm in diameter; (ii) FSH was mainly present in large secretory granules, up to 500 nm in diameter. In the pituitary gland of the adult male rat, all gonadotrophs that react to antibodies against gonadotrophins are characterized by small and large secretory granules. Other types of cells of the anterior pituitary containing either small secretory granules or resembling corticotrophs with secretory granules assembled at cell periphery did not react to either anti-LH beta or anti-FSH beta serum.For light microscopy, the peroxidase antibody method was used. All of the gonadotrophin-positive cells contain both LH and FSH. None of the pituitary cells reacted to antibody against only one gonadotrophin. However, some cells are LH-rich while other cells are FSH-rich.     

Immunocytological localization of LH,FSH, TSH and their subunits in the pituitary of normal and anencephalic human fetuses

Summary Immunostaining with antisera to oLH, hCG, hLH, pLH, hFSH, hFSH, hTSH and bTSH was used to delineate the gonadotropic and thyrotropic cells of the human fetal anterior pituitary. Hypophyses from 29 normal fetuses, 3 newborn infants, and 5 totally ancencephalic fetuses were used. Several controls to check for the specificity of the immunocytological reaction were made.In normal fetuses, observations showed that: 1) the subunit was detected from the eighth week and throughout gestation without sex differences; 2) intact LH was detected during the third month, however, age and sex differences were observed during the fourth and fifth months; 3) intact FSH was detected in female fetuses from the beginning of the fourth month, a sex difference was observed; 4) LH and FSH were detected in the same cells; 5) the thyrotropic cells were detectable from 15 weeks of gestation and their number increased during gestation without sex difference; 6) at birth the gonadotropic cells were scarce and were located in the ventromedian zone of the anterior pituitary, while the thyrotropic cells remained numerous and were located in the dorsomedian zone.In anencephalic fetuses: 1) the subunit existed at each stage studied; 2) the reaction induced by anti-pLH and anti-hFSH sera was always very weak regardless of sex or age; 3) the thyrotropic cells were more numerous in comparison to the gonadotropic cells. These data are discussed in terms of the relationship of the hypophysiotropic hypothalamic factors to the appearance and evolution of the glycoprotein hormones and their subunits.     

Effects of Neuropeptide Y (NPY) on the release of anterior pituitary hormones in the rat

Neuropeptide Y (NPY) has been recently localized in several hypothalamic nuclei in the mammalian brain. In order to investigate the possible role of NPY on neuroendocrine function, we have investigated the effects of the peptide on the release of anterior pituitary hormones in the rat. Both intravenous (300 μg) or intraventricular (2 to 15 μg) injection of NPY produced in gonadectomized male rats a significant and long-lasting decrease of plasma LH levels. A short duration stimulating effect on prolactin plasma levels was also observed after the intravenous but not after the intraventricular injection of NPY. Plasma levels of the other pituitary hormones were not significantly modified after NPY injection. When incubated in vitro with anterior pituitary cells in monolayer culture, NPY produced no significant change in release of pituitary hormones. Thus NPY seems to exert a selective effect on LH release. Since this effect can be observed after both intravenous and intraventricular injection, it might be hypothesized that NPY could affect LHRH release in two areas which lack blood-brain barrier: the organum vasculosum of the lamina terminalis (OVLT) which contains LHRH cell bodies and NPY fibers and the median eminence which contains both LHRH and NPY fibers. The effect on prolactin release needs to be carefully evaluated in different experimental conditions.     

Localization of sialic acid-containing hormones in GTH cells and ACTH cells of the rat anterior pituitary

Summary The localization of sialic acid-containing substances in the rat anterior pituitary gland has been studied by light and electron microscopy, using a peroxidase-labeled lectin (Limulus polyphemus agglutinin: LPA) which binds specifically to sialic acid residues. LPA stains two types of anterior pituitary cells: (1) round or ovoid cells which are also positively stained with anti-hCG (GTH cell), and (2) small, stellate cells which are unstained with anti-hCG (ACTH cell). All of the LPA-positive cells can be distinguished from TSH cells which are identified by the use of anti-hTSH. On ultrathin sections directly stained with LPA using the postembedding method, the reaction is confined to the secretory granules in GTH cells, and ACTH cells. Of two types of secretory granules in GTH cells, the larger one is intensely stained, whereas the smaller type shows only weak staining with LPA. Since follicle-stimulating hormone (FSH) is known to have high sialic acid contents, the results suggest possible detection of FSH with a technique other than immunohistochemistry. Furthermore, if the sialic acid-containing substances in GTH cells represents FSH, then these results support the hypothesis that LH cells and FSH cells are one cell type.This research was supported by grants from the Ministry of Education of Japan     

Immunocytochemical distribution of somatotrophs in porcine anterior pituitary

The objective of this immunohistochemical study was to identify the spatial distribution patterns of growth hormone (GH) secreting cells (somatotrophs) in the newborn and prepubertal porcine pituitary. No differences were observed among the total somatotrophs per unit area across the three ages. There were, however, changes in spatial distribution of somatotrophs in porcine pituitary with developmental age. Distinctive characteristics of the pattern included a high population of somatotrophs (44±1.2; mean ± standard error of the mean per 30,495 m²) in regions 1 and 5 and a low population (22±1.4) in regions 2 and 4 at each level (P<0.05). Somatotrophs increased 55% in region 3 from proximal to distal levels at all ages. With increasing age, however, somatotrophs in region 3 at the proximal level decreased 33%. From these results, we suggest that there may be regional specificity of cellular differentiation and transformation to facilitate GH secretion to meet the need for endocrine regulation as the animal ages.     

Zur Frage der Exocytose im Vorderlappen der Hypophyse

Zusammenfassung Serienschnitte vom Vorderlappen der Rattenhypophyse wurden elektronenmikroskopisch untersucht, um das Verhalten der Granula bei der Hormonabgabe aufzuklären. — Granula werden einzeln oder zu mehreren durch Exocytose aus der Zelle ausgeschleust. Serienschnitte lassen erkennen, daß granulahaltige Vakuolen, die innerhalb des Zytoplasmas in einer Schnittebene zu liegen scheinen, sich bereits im Extrazellularraum befinden. Die Granula gelangen nicht als Ganzes in die Blutbahn, sondern unterliegen einem Auflösungsprozeß. Hierbei verlieren sie an Massendichte. Wir nehmen an, daß für ihre Lyse und die Freisetzung der Hormone Milieuveränderungen und Diffusionsvorgänge von Bedeutung sind. Neben der Exocytose von Granula scheinen der Zelle noch andere Wege offen zu stehen, um hormonal wirksame Stoffe freizusetzen.

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On the problem of exocytosis in the anterior pituitary

Summary The question of the granular extrusion from normal anterior pituitary cells of the rat was investigated electromicroscopically (serial sections). Granules are released from the cell either separately or several together by exocytosis. Serial sections indicate that vacuoles containing granules appear in sections taken within the cytoplasm, but are actually situated in the extracellular space. The granules are dissolved, i.e. do not enter into the blood stream. During this process they partially loose electron density. Their lysis and the release of hormones is believed to be due to a change in the milieu and to a process of diffusion. Besides exocytosis of granules possibly other mechanisms of release of hormonally active components exist.

Herrn Prof. Dr. Werner Rotter, Homburg (Saar), zur Vollendung des 75. Lebensjahres in Dankbarkeit gewidmet.     

Major metabolic pathways and hormone production in unstimulated monolayer cultures of the rat anterior pituitary

Summary In cell cultures derived from anterior pituitary glands of rats, enzyme activities of cell homogenates and hormone (GH, PRL, LH, and FSH) content of the culture media were measured. Sex differences in enzyme activities representing major metabolic pathways (citrate cycles, pentose cycles, and glycolysis) were demonstrated both in freshly dispersed cells and in 8-day-old cultures; in cultures of both sexes enzyme activities increased during cultivation. In cultures derived from female rats, cell protein doubled by the 12th day and remained constant for up to the 24th day in culture, whereas enzyme activities showed changes suggesting that cell metabolism shifted to anaerobic glycolysis during cultivation. In the culture media the presence of four pituitary hormones was demonstrated for as long as 3 weeks of cultivation with variable secretion dynamics; the release of gonadotropic hormones diminished gradually whereas that of GH remained constant and PRL levels increased with time. These results indicate that under strictly defined culture conditions pituitary cells may function in spite of profound metabolic changes.     

An immunohistochemical study of adenohypophyseal cells containing follicle-stimulating hormone and luteinizing hormone during the phase of selective follicle-stimulating hormone release in postnatal female rats

Summary Serum concentration of follicle-stimulating hormone (FSH) in the juvenile female rat increases independently from that of luteinizing hormone (LH). The objective of this study was to determine whether this increase in serum FSH is accompanied by a proliferation of FSH-cells greater than the proliferation of LH-cells. Thus, we measured circulating FSH and LH in female rats on days 3, 10, 13, 17, and 20, calculated the percentages of adenohypophyseal cells that contained FSH or LH on days 3, 10, and 20, and determined whether cells containing only FSH existed on day 10. Serum FSH concentrations on days 10 and 13 were significantly greater than those on days 3, 17, or 20. No differences existed in serum LH concentrations. Cells containing FSH or LH were distributed throughout the entire adenohypophyses of 3, 10, and 20-day-old females. Clusters of these cells were observed in the ventral regions of adenohypophyses of 3-day-old females. The percentages of adenohypophyseal cells containing FSH increased significantly from 9% in 3-day-old rats to 17% in 10-day-old rats and then decreased to 14% in 20-day-old animals. At all ages the percentages of adenohypophyseal cells containing FSH were similar to the percentages of cells containing LH. At 10 days of age, all cells containing FSH also contained LH and all cells containing LH also contained FSH. These data suggest that the increase in serum FSH in the juvenile female rat is associated with an increase in the percentage of adenohypophyseal cells containing FSH and that at this time all cells containing FSH also contain LH.     

Localization of microfilaments in prolactin cells of the rat anterior pituitary gland

Summary Prolactin cells from anterior pituitary glands of normal non-lactating female rats, and lactating animals, some of which were separated from their pups for 48 hours, were examined ultrastructurally for the presence of microfilaments. Microfilaments were found in specific intracellular locations in all cells examined. They were in association with the nuclear envelope, the Golgi complex, the endoplasmic reticulum, small vesicles of the endoplasmic reticulum, and secretory granules. The possible role of microfilaments in the movement of intracellular organelles is considered.This investigation was supported by the National Institutes of Health grants AM 12583 and TW 02023.The authors wish to express their gratitude to Mr. M. G. Williams and Miss Pauline Cisneros for their excellent technical assistance.     

Effect of testosterone propionate on fine structure and gonadotrophin content of the female rat and hamster anterior pituitary

Summary The effect of long-term testosterone propionate treatment on the adult female rat and hamster anterior pituitary was investigated by means of combined bioassay and electron microscopy. In the rat, a marked hypertrophy and enhancement of secretory activity of FSH cells occurred which correlated well with a marked increase of follicle stimulating hormone (FSH) stores. A moderate decrease of luteinizing hormone (LH) stores was not accompanied by changes in so-called LH cells. Alterations in acidophilic cell types were also observed. Somatotrophs were atrophic and showed evidence of decreased secretory activity, while lactotrophs appeared to be stimulated by testosterone treatment. There were similar changes in the hamster.