Effect of gamma 3 or gamma 2 melanocyte stimulating hormone on steroidogenesis in the fetal sheep during late gestation

We have measured circulating concentrations of gamma 3 Melanocyte Stimulating Hormone (MSH) in fetal sheep between 111 and 145 days gestation. There was no significant effect of gestational age on the fetal plasma concentrations of gamma 3 MSH throughout this period. We have examined the role of gamma-MSH related peptides in the control of fetal adrenal steroidogenesis and found no significant change in fetal plasma cortisol or pregnenolone concentrations during a 60-72 h infusion of saline, gamma 2 MSH or gamma 3 MSH in sheep between 130 and 135 days gestation. Therefore although we have demonstrated the presence of gamma MSH related peptides in fetal sheep plasma during late gestation we have failed to demonstrate a role for gamma 3 or gamma 2 MSH in the changes in fetal steroid concentrations which occur prepartum.     

The immunolocalization of ACTH and alpha MSH in human and rat pituitaries.

Human and rat pituitaries were investigated immunohistochemically for ACTH and alpha MSH activity by means of the enzyme-labeling technique. In rat pituitaries cells present in both the anterior and intermediate lobes were reactive with the anti-ACTH antibodies, the cells from the intermediate lobe were also reactive with anti-alpha MSH antibodies. In human pituitaries, ACTH-immunoreactivity was found in cells from the anterior lobe and cells invading the posterior lobe. In 5 out of 15 pituitaries ACTH-immunoreactive cells located at or invading the posterior lobe were also reactive with the anti-alpha MSH antibodies. It is concluded that the human pituitary cells that invade the posterior lobe represent a population which is at least immunohistochemically identical with the intermediate lobe cells of the rat. The ACTH-immunoreactivity of intermediate lobe cells may be explained by the presence of a corticotropin-like intermediate lobe peptide (CLIP) which has been suggested to be a prohormonal fragment of alpha MSH.     

Infundibular neurons of the human hypothalamus simultaneously reactive with antisera against endorphins,ACTH, MSH and β-LPH

In man, discrete neurons of the infundibular (arcuate) nucleus contain compounds that can be stained with anti-endorphin (alpha and beta), anti-ACTH, anti-MSH (alpha and beta) and anti-beta-LPH immune sera (I.S.). In the fetus, certain neurons stain with anti-beta-endorphin or anti((17--39)ACTH starting from the 11th week of fetal life. At the ultrastructural level, these neurons contain elementary granules that are immunoreactive with anti-beta-endorphin. In the adult, neurons immunoreactive with anti-beta-endorphin are found in the infundibular nucleus. Their axonal fibers terminate around blood vessels in the neurovascular zone and in the pituitary stalk, or establish contacts with non-immunoreactive perikarya of the infundibular nucleus. These neurons can be stained with anti(17--39)ACTH and anti-beta-endorphin I.S. The most reactive are also stained moderately with anti-alpha-MSH, anti-beta-MSH, anti-beta-LPH, anti-alpha-endorphin, or anti(1--24)ACTH I.S. These results indicate that, in man, compound(s) identical with or immunologically related to endorphins, beta-LPH, ACTH and MSH are secreted by certain hypothalamic neurons. These agents probably originate from a common precursor molecula similar to the so-called pro-opiocortin.     

Immunohistochemical localization of ACTH in the adult and fetal sheep pituitary

Light microscope peroxidase-antiperoxidase immunohistochemistry has been applied to the pituitary of adult and fetal sheep from 40 to 145 days of gestation. In the adult, immunoreactive ACTH cells were darkly stained and angular with cytoplasmic processes surrounding neighbouring unstained cells. In the fetus, cells which stained for ACTH were observed in the pars distalis at 40 days. From approximately 90 days, two morphologically distinct ACTH-positive cell types were clearly discernible. The predominant type was large and variably stained. These cells usually occurred in clusters and were often arranged in palisades. The other type resembled ACTH-positive cells in the adult. After 130 days the population of large cells declined and completely disappeared before term in most fetuses. The pars intermedia showed a different pattern of staining. In the fetus, ACTH-positive cells were observed in this region after 60 days gestation and by 90 days almost all the pars intermedia cells were strongly stained. By contrast, the cells in the adult pars intermedia were only lightly stained.     

An NPY-like peptide may function as MSH-release inhibiting factor in Xenopus laevis

This study demonstrates the presence of a rich plexus of neuropeptide Y (NPY) immunoreactive fibers in the hypothalamus and in the intermediate lobe of the pituitary of Xenopus laevis. During superfusion of neurointermediate lobe tissue, synthetic NPY induces a rapid, powerful and dose-dependent inhibition of in vitro release of MSH, endorphin and other proopiomelanocortin (POMC) derived peptides. Therefore, NPY undoubtedly is one of the growing number of neuropeptides that are likely involved in control of the amphibian MSH cells. Although a number of stimulatory neuropeptides have been found, this is the first neuropeptide to apparently function through an inhibitory mechanism. In that a 2-hr treatment with NPY did not influence POMC biosynthesis, nor processing of this prohormone to smaller peptides, we conclude that the primary action of NPY is a direct effect on the secretory process of the MSH cell.     

Immunocytochemical study using semi-thin sections of the phenomena of early differentiation in several cell populations of the human fetal adenohypophysis]

Immunocytological investigations have been performed on semi-thin sections of human fetal pituitaries ranging in fetal age from 6 to 26 weeks. Corticotrophs can be revealed by anti-ACTH (1-24), anti-ACTH (17-39) and anti-beta MSH but not by anti-alpha MSH immunesera from the 8th week. Somatotrophs are revealed with anti-human STH from 9th week. Differentiating cells containing only alpha subunits of glycoproteic hormones are present from 8th to 12th week. At 13th week beta subunits of TSH can be revealed immunocytologically in thyreotrophs. Beta subunits of LH or FSH can be detected in same gonadotrophic cells only from 15th week.     

Effect of sodium valproate on the secretion of proopiomelanocortin derived peptides from cultured rat anterior pituitary cells

We examined effects of sodium valproate, a gamma amino butyric acid (GABA)-transaminase inhibitor, on the secretion of immunoreactive (IR)-ACTH and IR-beta-endorphin/LPH from cultured rat anterior pituitary cells to determine whether sodium valproate has a direct action on the secretion of ACTH and its related peptides from the cultured rat anterior pituitary gland. During the 3 h incubation, the basal secretion of IR-ACTH and IR-beta-endorphin/LPH decreased to 50.8% and 58.3%, respectively, of the control concentration after adding 10(-7) M sodium valproate into the incubation media and to 67.7% and 69.3%, respectively, of the control levels with 10(-8) M sodium valproate. However, sodium valproate at a concentration of 10(-6) M or 10(-9) M did not affect the basal concentration of IR-ACTH and IR-beta-endorphin/LPH. Sodium valproate at a concentration of 10(-7) M significantly attenuated the stimulated release of IR-ACTH and IR-beta-endorphin/LPH by 10(-9) or 10(-10) M of ovine corticotrophin releasing factor. These results indicate that sodium valproate could directly effect rat anterior pituitary cells to suppress both basal and stimulated release of proopiomelanocortin derived peptides and this supports the hypothesis that sodium valproate has a direct effect at the pituitary corticotroph in reducing plasma ACTH.     

Localization of γ-melanocyte stimulating hormone (γMSH) immunoreactivity in rat brain and pituitary

γ-Melanocyte stimulating hormone (γMSH) is a possibly biologically active material discovered in the cryptic N-terminus of the pro-opiocortin precursor by recombinant DNA analysis of bovine pituitary mRNA. Well-characterized antisera to synthetic bovine γ-3MSH (γ₃MSH) were used to localize immunoreactive sites in sections of formaldehyde-fixed rat brain and pituitary by the indirect immunoperoxidase technique. Specificity for staining was established by absorption with the synthetic antigen peptides or their fragments; staining was not blocked by absorption with synthetic replicates of other natural peptides that contain redundant amino acid sequences, with those of γMSH such as corticotropin or β-MSH. The general patterns of staining within adenohypophysis, intermediate lobe, and central nervous system closely followed the previously described patterns of β-endorphin immunoreactivity. Corticotrophs, all intermediate lobe cells and neuronal perikarya in the ventro-basal hypothalamus exhibited immunoreactivity for γ₃MSH as they do for β-endorphin. Furthermore, the general distribution of immunoreactive nerve fibers and terminals within the diencephalon and pons was quite similar to endorphin immunoreactivity patterns as well. In series of alternating sections, prepared for either γ₃MSH β-endorphin immunoreactivity, the same specific terminal fields were found to exhibit very similarly shaped varicose axons and probable terminal bouton configurations. However, the density of the innervation by fibers exhibiting immunoreactivity for the two peptides varied among the common target areas. Furthermore, the perikarya exhibiting γ₃MSH immunoreactivity were fewer in number, smaller in size, and more medially clustered than those exhibiting immunoreactivity for β-endorphin. These results demonstrate that γ₃MSH also occurs in rat brain and in pituitary cells which were already known to contain endorphin immunoreactivity. However, γ₃MSH-immunoreactive neurones may not be coexistent with all endorphin-immunoreactive neurons, and these cells project with varying intensity to common target fields. Such observations are in agreement with the proposal of different processing of a common precursor in different cells.     

Dissociation between ACTH and beta endorphin immunoreactivity in cells of the rat pituitary gland

We have studied by immunoperoxidase histology the pituitary gland of the rat with rabbit antisera to unconjugated (human) beta endorphin and to ACTH 1–24. All of the intermediate lobe cells were positive with both antisera. ACTH- and beta endorphin-positive cells were present in the anterior lobe but there was considerable dissociation between them and the latter were more numerous. These results suggest that there can be differential processing of the 31K precursor by pituitary cells.     

Angiotensin II mediates beta endorphin like immunoactivity release in rat pituitary cell culture

The effect of angiotensin II (Ang II) on pituitary beta endorphin like immunoactivity (beta END-LI) release was studied in monolayer culture of normal rat pituicites. Ang II stimulated beta END-LI release into the culture media. This release of beta END-LI increased with longer incubation time and with higher doses of Ang II. The beta END-LI response was similar to the pattern of Ang II mediated ACTH release. Ang II stimulated beta END-LI release was blocked by cycloheximide and decreased by corticosterone (5 nmol/l). Successively higher concentrations of [SAR GLY]Ang II, a known Ang II antagonist, induced greater inhibition of Ang II stimulated beta END-LI release. Gel chromatography of pooled media from control and Ang II stimulated cells revealed three peaks of beta END-LI which migrated with the void volume, beta lipotropin (beta LPH) and beta endorphin. The relative amount of beta END-LI in these peaks [(BEND-LI peak + total beta END-LI in column) x 100%] from media of control and stimulated cells were as follows: (1) Void 7% and 19% (2) beta LPH 50% and 52% (3) beta endorphin 43% and 29%.     

Demonstration by immunofluorescence of adenohyphysis corticotropin and melanotropin cells in Erythrocebus patas, Cercopithecus aethiops and Papio hamadryas]

Using antibodies against synthetic corticotropic hormones (1-24 ACTH and 17-39 ACTH), and melanotropic hormones (alpha-MSH and beta-MSH), it is possible to identify corticotropic and melanotropic cells in the adenohypophysis of three species of monkeys : Erythrocebus patas, Cercopithecus aethiops and Papio hamadryas. The corticotropic cells are numerous in the anterior lobe in both the adult and infant male and female monkeys of these three species. The intermediate lobe reacts with antibodies against ACTH and also with antibodies against the two MSH. In the anterior lobe, the corticotropic cells react also with anti-beta MSH antibody but not with the anti-alpha MSH antibody.     

Immunohistochemical localization of prolactin cells of the pars distalis in the fetal and neonatal hamster

Summary Using the immunoperoxidase technique, a small number of prolactin cells were first detected in the pars distalis of the hamster near developing sinusoids at 131/2 days gestation. Little change in number or distribution of immunoreactive cells was noted until the first few days after birth when a dramatic increase in number of immunoreactive cells was demonstrated throughout the pars distalis. Electron microscopy revealed cells in the fetal and neonatal anterior pituitary which had immunoreactive granules smaller in diameter than those seen in adult pituitary cells.Submitted by the senior author to the Graduate School at Louisiana State University, Baton Rouge, Louisiana in partial fulfillment of the requirements for the Ph.D. degree     

Corticotrophin-releasing factors in the hypothalamus of the developing fetal sheep.

Corticotrophin-releasing hormone (CRH) and arginine vasopressin (AVP) are secreted from the hypothalamic median eminence to elicit the secretion of ACTH from the pituitary corticotrophs. During fetal development there is progressive maturation of the hypothalamic-pituitary-adrenal axis, manifest as increasing plasma ACTH and cortisol concentrations, which in species such as sheep culminates in the onset of birth. However, the precise nature of the hypothalamic signal controlling fetal pituitary ACTH secretion remains poorly understood. To investigate the ontogeny of this hypothalamic signal, the present study examined immunoreactive and bioactive ACTH-releasing factors in the developing fetal sheep hypothalamus. Immunoreactive CRH and AVP were measured by radioimmunoassay in extracts of hypothalami taken at day 70, day 100, and day 130 gestation (term = 145 days). There was a progressive and significant (P < 0.01) increase in hypothalamic CRH and AVP concentrations which was particularly marked between d100 and d130 gestation. AVP was always present in higher concentrations that CRH, although this difference was significantly reduced by day 130 gestation as the result of a large increase in the content of CRH relative to AVP. Sephadex G50 chromatography revealed that immunoreactive CRH and AVP in hypothalamic extracts existed as single molecular forms corresponding to synthetic peptides at each gestational age. In addition, these immunoreactive forms of CRH and AVP possessed significant ACTH-releasing bioactivity as measured in primary cultures of adult sheep anterior pituitary cells. Furthermore, significant bioactivity was present in high and low molecular weight fractions eluted after chromatography which did not contain any CRH or AVP immunoreactivity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ontogenesis of cells producing polypeptide hormones (ACTH,MSH, LPH,GH, Prolactin) in the fetal hypophysis of the rat: Influence of the hypothalamus

Summary The ontogenesis of cells containing polypeptide hormones (ACTH, MSH, LPH, GH and Prolactin) was investigated in the fetal rat hypophysis by immunohistochemistry using the peroxidase-antiperoxidase complex.Corticotrophs, melanotrophs and lipotropic cells were revealed earlier in the pars distalis than in the pars intermedia. In the pars distalis, cells producing LPH were found in the morning of day 15 of gestation using anti-- or anti--LPH sera, and in the afternoon using anti-- or -endorphin sera. Cells containing -MSH were observed from the afternoon of day 15. The cells stainable with the anti--MSH, anti--(17-39)ACTH and anti--(l-24)ACTH sera appeared on day 16. In the pars intermedia, the cells producing -MSH, MSH, - and -endorphin, and -LPH were observed in the morning of day 17, while cells containing ACTH were only revealed in the afternoon of the same day of gestation. Based on the treatment of serial paraffin sections with various antisera, it was clearly shown that MSH, ACTH, and LPH occur in the same cells located in the pars distalis as in the pars intermedia.The development of the corticotrophs, melanotrophs and lipotropic cells does not require the presence of the fetal hypothalamus or other central nervous structures. The pituitary glands of 21 day-old fetuses encephalectomized on day 16 showed as many reactive cells as those of the littermate controls.The somatotrophs were first revealed in the pars distalis in the afternoon of day 19. The cells producing prolactin were not observed before day 21 of gestation. On some cases GH and prolactin were found together in one cell. The cytodifferentiation of GH and prolactin cells is apparently not under hypothalamic control.     

The endorphins of the epithelial and subepithelial structures of the rat small intestine and the evolutionary hypotheses of the formation of the mechanisms of the negative regulation of their synthesis]

The effects of the agonist of the glucocorticoid hormones dexamethasone and dopamine antagonist--haloperidol on the concentration of immunoreactive alpha-, beta- and gamma-endorphins in duodenum, ileum, and jejunum of rats were studied. Besides the extracts of the intestines, the immunoreactive endorphins were measured in the extracts of their mucosa-submucosa and muscle-serous layers, that allowed to separate the endorphin-producing cells of the nervous system (muscle-serous layer) from endorphin producing cells of endocrine and immune systems (mucosa-submucosa layer). The injection of dexamethasone (0.2 mg per rat, daily for 6 days) caused the reliable decrease in concentrations of all three types of endorphins in mucosa-submucosa and muscle-serous layer of duodenum, ileum, and jejunum. Under the action of haloperidol (0.6 mg per rat, daily for 6 days) the reliable increase of beta-endorphin concentration was noticed only in jejunum. The suggestion is made that two distinct subpopulations of endorphin-producing cells exist in the intestine: in one cells endorphin synthesis is regulated by glucocorticoids, as in the anterior lobe of pituitary, in the other cells the synthesis of endorphins is regulated by dopamine, as in the cells of the intermediate lobe of pituitary. It is suggested that both glucocorticoid and dopamine types of regulation of endorphins synthesis were formed in the intestine or even in the gastric cavity. In process of evolution the cells with glucocorticoid type of regulation gave rise to the anterior lobe of pituitary, the cells with the dopamine type of regulation--to the intermediate lobe.     

Immunoreactive dynorphin-A in ovine anterior pituitary and effects of estradiol-17 beta administration

Anterior lobe (AL) tissue of the ovine pituitary gland contained a form of immunoreactive dynorphin-A (ir-DYN-A) larger than that found in pituitary neurointermediate lobe. Administration of estradiol-17 beta or estradiol-17 beta plus progesterone to ovariectomized sheep decreased AL tissue concentrations of ir-DYN-A but did not affect any LH parameter. Enzymatically dispersed AL cells also contained ir-DYN-A, but specific release during in vitro incubation was too low to be detected even when cells were exposed to gonadotropin-releasing hormone.     

Regulation of MSH release from the neurointermediate lobe of Xenopus laevis by CRF-like peptides

Immunocytochemical studies showed the presence of a fiber system containing a CRF-like peptide in the median eminence and in the neural lobe of the pituitary gland of Xenopus laevis. During in vitro superfusion of neurointermediate lobe tissue, CRF, sauvagine and urotensin I induced a rapid and dose-dependent stimulation of secretion of MSH and endorphin. Tissue of white-background adapted animals displayed a remarkably higher sensitivity to CRF and sauvagine than tissue from animals that were adapted to a black background. During superfusion of isolated melanotrope cells in suspension, it was shown that CRF and sauvagine exerted their effect directly on the melanotrope cell. We therefore conclude that there is morphological and biochemical evidence to consider a CRF-like peptide as a physiological MSH-releasing factor.     

Endorphin in rat pituitary glands: its distribution within the gland, and age related changes in gland content in male and female rats

Endorphins were extracted with glacial acetic acid:acetone from freshly microdissected single lobes of rat pituitary and assayed for inhibition of ³H-etorphine stereospecific binding to rat brain opiate receptors. Highest tissue concentrations of endorphin were found in pars intermedia and pars distalis, with minimal activity observed in pars nervosa. In addition, mature female rats exhibited a significantly higher anterior lobe endorphin content than males, reflecting the larger gland weight, although no significant differences were found between neurointermediate lobe endorphin content of either sex. Pituitary endorphin content increased substantially with age, rising rapidly between the fifth and tenth week after birth. This elevation was still apparent at twenty-five weeks. These studies emphasize the importance of employing rats of closely similar age and weight in any experiments designed to examine pituitary endorphin function, and suggest that ontological development of pituitary endorphin may proceed in a manner similar to that of other pituitary hormones (e.g., MSH) derived from the same precursor peptide.     

gamma 2-[corrected]-MSH-like immunoreactivity in porcine pituitary and adrenal medulla. An immunochemical and immunocytochemical study

A sensitive and specific radioimmunoassay for gamma 2-melanotropin (gamma 2-MSH) has been developed that does not recognize alpha-, beta-, gamma 1- or gamma 3-MSH. gamma 2-MSH-like immunoreactivity could be demonstrated in the porcine pituitary and adrenal gland. The highest concentrations were detected in the neurointermediate lobe regardless of extraction procedure. The anterior lobe harboured lower concentrations and in adrenal gland extracts only small amounts were measured. Gel chromatography and high performance liquid chromatography of extracts of both pituitary and adrenal gland revealed several peaks of immunoreactive material, one of which eluted close to the position of synthetic gamma 2-MSH. By immunocytochemistry gamma 2-MSH immunoreactivity was localized to the adrenocorticotropin/alpha-MSH cells in the pituitary and to a subpopulation of the noradrenaline-storing cells in the adrenal medulla. Together, the immunocytochemical and immunochemical findings indicate the existence of gamma 2-MSH-like material in the porcine pituitary and adrenal medulla.     

The utility of antisera to different synthetic adrenocorticotrophins (ACTH) and melanotrophins (MSH) for immunocytochemical staining of the dog pituitary gland

Using the immunoperoxidase technique and specific antisera to synthetic ACTH beta (1-24), ACTH beta (17-39) and bMSHbeta1, selective immunocytochemical staining was localized in a distinctive cell type in the pars distalis and pars tuberalis of the dog pituitary gland. Except for a rare cell, the pars distalis and pars tuberalis did not stain with an anti-bMSH alpha serum. In the pars intermedia immunoreactive cells containing ACTH beta(1-24), ACTHbetap(17-39), bMSHbeta and/or bMSH alpha were observed. The specificity and validity of the antisera were demonstrated by elimination of their immunostaining capacity after prior absorption with their respective antigens, while absorption with other antigens failed to decrease staining intensity. The cytoplasm of the ACTH/MSH cells showed a positive reaction to periodic-acid-Schiff and assumed a pale aniline blue colour, whilst the granules were stained with carmoisine L and acid alizarine blue. These ACTH/MSH 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. It is concluded that ACTH and MSH beta were present and most probably produced by the corticomelanotrophs of the pars distalis and pars tuberalis. In addition to corticomelanotrophs analogous to those of the pars distalis and pars tuberalis, the pars intermedia showed many cells which contain MSH alpha alone or together with MSH beta and/or ACTH.