Formaldehyde-ozone-induced fluorescence in pituitary ACTH cells: Effect of adrenalectomy

Summary ACTH and MSH cells of the pituitary are rich in peptides with NH₂-terminal tryptophan, as revealed by fluorescence histochemistry. Adrenalectomy stimulates the ACTH cells but not the MSH cells. As a result, ACTH as well as tryptophyl-peptides disappear from the ACTH cells but not from the MSH cells. It is concluded that the tryptophyl-peptides are stored together with the respective hormone in the ACTH and MSH cells and that tryptophyl-peptides in the ACTH cells are released together with the hormone.     

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.     

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.     

Glycoconjugate profiles of adrenocorticotropic and melanotropic cells in the pituitary of adult sea lampreys (Petromyzon marinus): a lectin histochemical study

In the lamprey, adrenocorticotropin (ACTH) and melanotropins (MSHs) are produced from two distinct precursors, proopiocortin (POC) and proopiomelanotropin (POM). Both POC and POM have been suggested to be glycoproteins. The present study aimed to demonstrate glycoconjugates in ACTH and MSH cells in the pituitary of adult sea lampreys (Petromyzon marinus) by means of a lectin histochemistry. A total of 19 kinds of lectins were tested. ACTH cells were distributed in both the rostral pars distalis and the proximal pars distalis, and were stained positively with N-acetylglucosamine binding lectins (i.e., succinylated wheat germ agglutinin), N-acetylgalactosamine binding lectins (i.e., soybean agglutinin), D-mannose binding lectins (i.e., Lens culinaris agglutinin), and D-galactose binding lectins (i.e., Erythrina cristagall lectin). MSH cells were distributed in the pars intermedia, and were stained with N-acetylgalactosamine binding lectins (i.e., Dolichos biflorus agglutinin), D-mannose binding lectin (Pisum sativum agglutinin) and D-galactose binding lectins (i.e., peanut agglutinin). These results suggested that ACTH and MSH cells produce different types of glycoconjugates which may be attributed to the difference in glycoconjugate moieties between the precursor proteins, POC and POM.     

Immunocytochemical localization of pro gamma MSH, gamma MSH, ACTH and beta endorphin/beta lipotrophin in the fetal sheep pituitary: an ontogenetic study

An immunocytochemical staining technique was used to localize four fragments [pro gamma MSH, gamma MSH, ACTH and beta endorphin/beta lipotrophin (beta endorphin/beta LPH)] of the proopiomelanocortin molecule in both the adult and fetal sheep pituitary. In the adult sheep anterior pituitary each fragment was localized in cells that were darkly stained, stellate and widely distributed throughout the gland. The same cells, identified in three serial sections, stained with anti-pro gamma MSH, anti-ACTH and anti-beta endorphin/beta LPH. In the fetal sheep anterior pituitary all the proopiomelanocortin derived fragments were present at 38 days gestation. Between about 90 and 130 days of gestation both adult type proopiomelanocortin cells (small, stellate) and uniquely fetal cells (large, columnar) were present. Both adult-type and fetal proopiomelanocortin cells were identified in serial sections of the fetal anterior pituitary, stained with anti-pro gamma MSH, anti-ACTH and anti-beta endorphin/beta LPH. The adult intermediate lobe was immunoreactive with anti-pro gamma MSH and anti-beta endorphin/beta LPH but not with anti-gamma MSH or anti-ACTH. The fetal intermediate lobe was immunoreactive with all four antisera from 60 days gestation.     

Acetylation of alpha-melanotropin and beta-endorphin in the rat intermediate pituitary. Subcellular localization

The subcellular site of the further processing (NH2-terminal acetylation and COOH-terminal proteolysis) of beta-endorphin-sized molecules in the rat intermediate pituitary has been studied. Rat intermediate pituitary primary cultures that had been incubated in radioactively labeled amino acids were homogenized and the secretory granule fraction was separated from the rough endoplasmic reticulum/Golgi apparatus fraction. The labeled beta-endorphin-sized molecules in each subcellular fraction were analyzed by immunoprecipitation, gel filtration chromatography, and ion exchange chromatography. A large percentage of the labeled beta-endorphin-sized molecules became NH2 terminally acetylated after becoming associated with the secretory granule fraction; most of the further COOH-terminal proteolytic processing of alpha-N-acetyl-beta-endorphin(1-31) to form alpha-N-acetyl-beta-endorphin(1-27) and alpha-N-acetyl-beta-endorphin(1-26) also occurred when the labeled beta-endorphin-sized molecules were associated with the secretory granule fraction. The acetylation of alpha-melanocyte-stimulating hormone (alpha MSH)-sized molecules was also investigated in rat intermediate pituitary primary cell cultures by immunoprecipitation, gel filtration chromatography, and reverse-phase high pressure liquid chromatography. Pulse-chase labeling experiments showed that newly synthesized molecules co-migrating with adrenocorticotropic hormone ((ACTH)(1-13)NH2) were converted first to molecules similar to alpha MSH (alpha-N-acetyl-ACTH(1-13)NH2) and then to molecules similar to alpha-N,O-diacetyl-alpha MSH. These results demonstrate that the enzyme activity(s) responsible for the NH2-terminal acetylation of beta-endorphin alpha MSH-sized molecules is located in the secretory granules of the rat intermediate pituitary.     

The postnatal developmental localization of pro-opiomelanocortin and alpha melanocyte stimulating hormone in the medio-basal hypothalamus of the rat

This immunocytochemical study of the late postnatal development of the medio-basal hypothalamus revealed the presence of ACTH 1-39 like positivity in neurons of the arcuate nucleus form the begin of this study (day E 18-20) onwards. Alpha MSH positivity, on the contrary, is not present in cells of the same area before day P 16. No other areas in the developing medio-basal hypothalamus contain perikaryal positivity for alpha M-SH or ACTH 1-39. The pituitary contains ACTH 1-39 like positivity from the begin of this study (day E 18-20) onwards. Fibers are positive for alpha MSH during the fetal development of the medio-basal hypothalamus, demonstrating an overal reactivity without varicosities and restricted to bundles or neuropil areas. Towards P 16 the alpha MSH positivity diminishes in the whole medio-basal hypothalamus, remaining present only in large fibre systems like the fornix. ACTH 1-39 like fiber positivity is already distributed in arcuate and periventricular regions at days E 20-PO, reaching its mature extension at day P2. After P16 alpha MSH positive threads, possessing varicosities are restricted to the same areas as ACTH 1-39 like fiber positivity is.     

Role of chain termini in selective steroidogenic effect of ACTH/MSH(4-10) on isolated adrenocortical cells

To investigate the role of charged chain ends in the corticosteroidogenic effect of ACTH/MSH(4-10), acetyl and amide derivatives of ACTH/MSH(4-10) were synthesized and tested in isolated zona glomerulosa and zona fasciculata cells. ACTH/MSH(4-10)-NH2, Ac-ACTH/MSH(4-10) and Ac-ACTH/MSH(4-10)-NH2 (10 microM to 1 mM) stimulated the aldosterone production of zona glomerulosa cells, whereas these peptides did not stimulate the corticosterone production of zona fasciculata cells, even at 1 mM concentration. As ACTH/MSH(4-10) has been shown to have a steroidogenic effect on both types of adrenocortical cells, both charged chain termini seem to be essential for triggering of the corticosterone production of zona fasciculata cells, but for aldosterone production their presence appears not to be important.     

Immunocytohistochemical characterization of pituitary cells of the bluefin tuna, Thunnus thynnus L

In this paper we report the first complete mapping of the pituitary in a tuna species. The various different adenohypophysis cell types of the bluefin tuna, Thunnus thynnus L. have been identified and located using different antisera against mammalian and piscine hormones and various histochemical techniques: PAS, Alcian Blue pH 2.5 and lectins -ConA and WGA(Neutral and Acidic Glycoproteins); Bromophenol Blue (Proteins) and Tioglycollate-Ferric-Ferricianide-FeIII (-S-S- groups). Prolactin (PRL) and adrenocorticotrophic (ACTH) cells were located in the rostral pars distalis (RPD) of the pituitary, while the proximal pars distalis (PPD) displayed gonadotrophic (GTH), thyrotrophic (TSH), somatotrophic (GH) and also a few PRL cells. Moreover, somatolactin (SL) and melanotrophic (MSH) cells were identified inside the pars intermedia (PI). Interestingly, some SL-immunoreactive fibers were also detected in the neurohypophysis. Some GTH cells were also located on the exterior surface of the PI. Glycoproteins containing mannose (Man) and/or glucose (Glc); N-acetyl-glucosamine (GlcNAc) and/or sialic acid sugar residues, as well as -S-S- groups, were observed in GTH, TSH and SL cells. The Bromophenol Blue technique stained amphiphilic SL, acidophilic GH cells and weakly ACTH cells. GH and ACTH cells were unreactive to PAS, Alcian Blue, Tioglycollate-Ferric-Ferricianide-FeIII and lectin (Con A and WGA) techniques. Finally, PAS reaction was positive in amphiphilic SL cells, which were PbH unreactive, while MSH and ACTH cells were stained with PbH technique.     

Serum MSH levels and pituitary MSH content: their fluctuation during pregnancy in the rat.

MSH was measured by a biological assay in the pituitary and serum of the rat during the whole term of pregnancy. The peptide showed changes in early pregnancy in serum, during the middle of pregnancy values of serum MSH became negative, and in late pregnancy it was possible to find high values during days 18 and 19 before delivery. Comparison between the amount of pituitary MSH and that in serum seems to show that between days 10 and 15 there is practically no, or just a litte, MSH synthesis, since the MSH values in serum are negative although the content of pituitary MSH is also low. A relation between the results found by other authors and that found by us was analyzed.     

Pressor and cardioaccelerator effects of gamma MSH and related peptides

We have recently demonstrated that the hypertensinogenic and natriuretic actions of ACTHI-39 can be found in a non-steroidogenic fragment of ACTH, ACTH4-10. These effects of ACTH or ACTH4-10 may be due to their ability to act as weak agonists of gamma MSH. gamma MSH is found in the 16K N-terminus of pro-opiocortin, and contains a sequence analogous to ACTH4-10, gamma MSH3-9. We investigated the cardiovascular effects of gamma 2MSH, gamma MSH3-9, and sterically restricted analogs of ACTH4-10. The results indicate that gamma MSH3-9, had essentially the same activities as ACTH4-10. The addition of five other amino acid residues to gamma MSH3-9 (gamma 2MSH) resulted in significant enhancement of pressor and cardioaccelerator activity. Steric restriction of the ACTH4-10 sequence by the substitution of a D-Phe in place of an L-Phe residue in position #7, or cyclization of the peptide by a half-Cys4, half Cys10 intramolecular disulfide-bridge derivatization, resulted in increased cardiovascular activities. Based on these data, the cardiovascular actions of ACTH4-10, gamma MSH3-9, and gamma 2MSH are predicted to be due to the assumption of a reverse-turn three-dimensional structure. The additional residues in gamma 2MSH appear to specifically enhance the cardiovascular activities of gamma MSH3-9. The results suggest the existence of a new class of hypophyseal peptides with cardiovascular activities, which require the assumption of a defined three-dimensional structure.     

Steps involved in the processing of common precursor forms of adrenocorticotropin and endorphin in cultures of mouse pituitary cells.

The initial steps in the processing of the common precursor to adrenocorticotropin (ACTH) and endorphin in mouse pituitary tumor cells (AtT-20) have been investigated. Three forms of the precursor have been resolved by sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gel electrophoresis with apparent molecular weights of 29 000 (29K ACTH-endorphin), 32 000 (32K ACTH-endorphin) and 34 000 (34K ACTH-endorphin). These forms have a similar peptide backbone, but their carbohydrate content differs. In particular, a tryptic glycopeptide has been observed in 32K ACTH-endorphin which is not present in 29K ACTH-endorphin and has been identified as the tryptic peptide containing the alpha(22--39) sequence of ACTH. Similar heterogeneity in carbohydrate has been observed in some of the smaller molecular weight forms of ACTH which are resolved by NaDodSO4 gel electrophoresis. Pulse chase and continuous labeling studies using radioactive amino acids and sugars suggest that the 29K ACTH-endorphin is converted to 32K and 34K ACTH-endorphin by the addition of carbohydrate. The glycopeptide and pulse chase studies suggest that 29K ACTH-endorphin is at a branch point in the processing pathways. It can either be converted to 4.5K ACTH by proteolytic processing or to 32K ACTH-endorphin by the further addition of carbohydrate. The 32K ACTH-endorphin can then be converted to 13K ACTH, the glycosylated form of 4.5K ACTH (Eipper, B.A., & Mains,, R.E. (1977) J.Biol. Chem.252, 882), by proteolytic processing. A comparison of the distribution of the different molecular weight forms of ACTH and endorphin in mouse pituitary extracts and in the mouse pituitary tumor cells reveals that the pituitary contains all of the forms of ACTH and endorphin seen in the tumor cells, including the three forms of the ACTH-endorphin precursor. However, the molecular weight distribution of the forms in the anterior lobe is very different from that in the intermediate lobe of mouse pituitary.     

The effect of somatostatin and of prolyl-leucyl-glycinamide (MIF) on ACTH release in dispersed pituitary cells.

The hypothalamic releasing and release-inhibiting peptides have multiple effects on more than one pituitary hormone. In this study the action of the two hypothalamic inhibiting factors, somatostatin (GH-IH) and MSH release-inhibiting factor, prolyl-leucyl-glycinamide (MIF), on ACTH release were studied. Increasing concentrations of GH-IH and MIF were added to 1 ml of a suspension of dispersed anterior pituitary cells from male rats. Both GH-IH and MIF (10^?5 to 10^?11 M) were without effect on basal ACTH secretion of normal and of adrenalectomized rats. However, both peptides, within certain concentration ranges, inhibited the ACTH release stimulated by rat hypothalamic extracts or by arginine vasopressin. The most effective concentrations were 35 nM MIF or 6 nM GH-IH. Beyond these concentrations no further suppression was observed. Our results indicate that somatostatin and MIF can inhibit ACTH release, but only in a state of steroid deprivation and within a limited dose range.     

Electron microscopic-immunocytochemical localization of adrenocorticotropin and melanocyte stimulating hormone in the pars intermedia cells of rats and mice

Summary Electron microscopic localization of adrenocorticotropin (ACTH) and melanocyte stimulating hormone (MSH) in light, dark and ACTH cells in the pars intermedia (PI) of rats and mice is attempted by using antisera to _p 1–24, _p 17–39 ACTH and _b MSH with the immunoglobulin-peroxidase bridge technique. All of the PI parenchymatous cells (light, dark and ACTH cells), except the marginal cuboidal and the ependymal like cells, in rats and mice show very good localization of ACTH and MSH staining. In the light and dark cells, stain of varying intensity is seen on the secretory granules, vesicles and also in many places on the surface of the rough endoplasmic reticulum. There is no staining on the mitochondria, in the nuclei or in the granules inside and around the cisternae of the Golgi complex. Dark stained dense core granules become larger and larger as they appear farther and farther away from the Golgi complex. On the other hand, in the ACTH cells of the PI, ACTH antisera show stronger stained granules in the Golgi complex including the cisternae, similar to the pars distalis (PD) ACTH cells. From these observations it is concluded that the corticotropin in light and dark cells, is not packaged or condensed in the Golgi complex like that in the ACTH cells. MSH synthesis in light and dark cells also seems to be similar to that of ACTH synthesis. It is likely that the granules accumulate ACTH and MSH secretions after they are liberated from the Golgi cisternae, and thus become bigger and bigger in size. In case of ACTH cells of PI and PD, corticotropin may be packaged in Golgi cisternae and the size of the granule does not change much. This shows that there are distinct immunocytochemical differences between the light, dark and ACTH cells of the PI. At the moment, it is difficult to say whether ACTH and MSH are present in the same granule or not.The present and previous studies show that the ACTH and MSH secretion in the PI of rats and mice depends on the hypothalamic neural control.This study was supported by MRC of Canada Grant nos. MA-3759, and MA-5160.The author gratefully wishes to thank Drs. P. Desaulles and W. Rittel (CIBA, Basle, Switzerland) for the synthetic _p 1–24 ACTH and _b MSH, Dr. R. F. Phifer for _p 17–39 ACTH, and Dr. S. S. Spicer for providing samples of rabbit anti-porcine 17–39 ACTH and anti-human ACTH sera, Drs. George Sétáló and Paul Nakane for their valuable advice. He also acknowledge the help of Mr. Shankar Nayak to prepare the antisera and the skilful technical assistance of Miss. Elise Poiré. He wishes to acknowledge Mr. Gatson Lambert for his photography.     

The effect of MSH/ACTH 4-10 on delayed response performance and post-test locomotor activity in rats

Delayed response performance was measured in male, Long-Evans rats 1 hr after IP administration of various doses of MSH/ACTH 4-10 or control in a Hunter delayed reaction apparatus. Additional treatments consisting of naloxone 500 micrograms/kg (IP) and naloxone 500 micrograms/kg in conjunction with MSH/ACTH 4-10 95 micrograms/kg were also administered. Directly after delayed response performance was assessed, gross locomotor activity was determined. MSH/ACTH 4-10, at a dose of 95 micrograms/kg, significantly enhanced retention of a visual stimulus, while MSH/ACTH 4-10, at doses of 195 and 285 micrograms/kg, significantly impaired delayed response performance. Naloxone treatment resulted in significantly impaired delayed response performance when compared to control. However, naloxone plus MSH/ACTH 4-10 treatment failed to produce a significant difference from control in the delayed response performance paradigm. In post-test locomotor activity determination, an apparent dose-response existed for MSH/ACTH 4-10 with the two highest doses (190 and 285 micrograms/kg) resulting in significantly increased locomotor activity. The observed delayed response performance data support theories implicating MSH/ACTH peptides in attentional processes involving visual stimuli. The fact that large doses of MSH/ACTH 4-10 disrupt delayed response performance while increasing post-test activity suggest that an optimum level of effect caused by the MSH/ACTH peptide exists in this paradigm.     

Adrenocorticotropin(1-14)OH-related molecules in primary cultures of rat intermediate pituitary cells. Identification and role in the biosynthesis of alpha-melanotropin

The structures of the altered alpha-melanotropin (alpha MSH or alpha-N-acetyl-ACTH(1-13)NH2)-related molecules produced by cultured rat intermediate pituitary cells were investigated. Peptide analyses demonstrated that the alpha MSH-related molecules produced by acutely prepared intermediate pituitary cells were primarily des-, mono-, and diacetylated ACTH(1-13)NH2; in contrast, longer term cultures produced primarily des-, mono-, and diacetylated ACTH(1-14)OH. No significant amount of labeled ACTH(1-13)OH-related material was observed under any incubation conditions. Intermediate pituitary cells in culture stopped producing alpha-amidated alpha MSH-related molecules with a half-time of approximately 15 to 18 h; instead, ACTH(1-14)OH-related molecules were synthesized. In several pulse-chase experiments, performed under conditions where cultured intermediate pituitary cells were capable of synthesizing alpha MSH-related molecules terminating in -Val13-NH2, labeled molecules ending in -Val13-Gly14-OH were not found to give rise to major amounts of labeled molecules ending in -Val13-NH2. This failure to observe conversion of glycine-extended molecules into alpha-amidated products was not due to selective secretion from the cells, since the acetylation and amidation states of labeled molecules that were secreted under basal conditions reflected those of the molecules stored in the cells, and the basal rate of secretion was very low.     

Regulation of lymphokine (gamma-interferon) production by corticotropin

We have shown that corticotropin (ACTH), alpha-endorphin, and enkephalins can regulate antibody responses, which suggested a role for neuropeptides in a regulatory circuit between the immune and neuroendocrine systems. ACTH and structurally related peptides were examined here for regulation of mitogen induction of the lymphokine gamma-interferon (IFN gamma) in C57BL/6 mouse spleen cell cultures. Synthetic ACTH1-39 and a porcine pituitary extract containing ACTH activity were potent suppressors of the IFN gamma response. Synthetic ACTH1-39 suppressed the response by approximately 62% at 1 to 3 microM, whereas the porcine extract suppressed by greater than 90% at 1 to 3 microM ACTH. The greater potency of the pituitary extract was shown to be due to the presence of an additional peptide of Mr 2100 that was reactive with antibodies to the N-terminal region of ACTH (ACTH1-13), possessed potent anti-cellular activity against L cells and various transformed cells, but lacked ACTH biologic activity. The anti-cellular peptide suppressed the IFN gamma response by greater than 99% at 0.05 microM. The ACTH1-39 cleavage products, alpha-melanocyte stimulating hormone (alpha MSH; acetylated and amidated ACTH1-13), and corticotropin-like intermediate lobe peptide (CLIP; ACTH18-39) had no effect on IFN gamma production. ACTH1-24, like ACTH1-39, has full steroidogenesis activity but also had no effect on IFN gamma production, which suggests a dissociation of the immunoregulatory and steroidogenic properties of ACTH1-39. ACTH1-39, and possibly also the anti-cellular 2100 Mr peptide, is initially synthesized as the precursor polyprotein pro-opiomelanocortin (POMC). Enzymatic processing of POMC, first to the active ACTH1-39 or the anti-cellular peptide and then to the inactive smaller peptides, probably plays an important role in regulation of lymphokine and antibody production by ACTH and ACTH-related neuropeptides. This is consistent with the recent demonstration of the production of ACTH-like peptides by lymphocytes.     

Sex differences in adrenocortical structure and function. XXVIII. ACTH and corticosterone in intact, gonadectomised and gonadal hormone replaced rats

Plasma ACTH and corticosterone (B) concentration, ACTH content in the anterior pituitary gland and B content in the adrenals were measured in intact, gonadectomised and testosterone or estradiol replaced rats. Plasma ACTH and B levels and adrenal B content were higher in female than male rats. Neither orchiectomy nor testosterone replacement had an effect on plasma ACTH and B concentration. Orchiectomy did not affect adrenal B content and decreased pituitary ACTH while testosterone significantly lowered ACTH and B content in studied glands. On the other hand ovariectomy did not change pituitary ACTH and adrenal B content and notably lowered concentrations of these hormones in the blood. Estradiol replacement resulted in an increase in plasma ACTH and B concentrations, an effect accompanied by a marked drop in pituitary ACTH and an increase in adrenal B. These findings indicate the distinct sex differences in basal plasma ACTH and B concentrations with higher values in female rats, an effect dependent on the stimulatory action of estradiol on pituitary-adrenocortical axis.     

αMSH-like peptides in rat brain: Identification and changes in level during development

MSH-like peptides were extracted from rat brains and separated by high pressure liquid chromatography. Using C and N terminally directed antibodies, and a bioassay for melanotropic activity, two major melanotropic peptides were detected. One peptide was identified as αMSH and the other as des-acetyl αMSH, a form which has not been previously reported in brain. Analysis of the level of αMSH-like peptides in brain and pituitary gland during development, showed steady increases of pituitary αMSH from day 18 fetuses to adults, whereas in brain, significant increases were not observed until one day post partum. This difference in the time of onset of αMSH production in the two tissues suggests the presence of biosynthetically independant pools of αMSH-like peptides in pituitary and brain.     

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.