UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of alpha-MSH receptors on human melanoma has so far been suggested in the literature but not proved. We describe a reproducible and specific binding assay of alpha-MSH on human melanoma cells, using a high-specific-activity 125I-labelled hormone (1.5 to 2 mCi/micrograms) with consistent receptor binding (usually exceeding 2 pg/10(6) cells) and stable for 3 weeks. Asynchronized cells in suspension were incubated for 15 min at 37 degrees C with the tracer and various concentrations of unlabelled hormones. Synthetic alpha-MSH was compared to beta-MSH, ACTH1-24, ACTH4-10, beta-LPH, CLIP, CRF, MIF I, A8VP and beta-endorphin. Out of a panel of 8 human melanoma cell lines, 3 showed specific and reproducible alpha-MSH binding curves. No significant binding to human fibroblast and human carcinoma cells was seen. alpha-MSH, beta-MSH and, to a lesser extent ACTH4-10 (a part of the alpha-MSH sequence) were the only peptides able to displace labelled alpha-MSH from its binding sites, indicating the high specificity of the MSH receptor. Affinity constants (Ka) ranged from 10(8) to 10(9) l/mole and the estimated receptor number was 1,000 to 2,000 per cell. We conclude that some human melanoma cell lines expressed specific MSH receptors with stable affinity but which are low in number.
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PMID:Evidence for alpha-melanocyte-stimulating hormone (alpha-MSH) receptors on human malignant melanoma cells. 282 46

We have studied the post-translational processing of POMC-derived peptides during fetal monkey development using immunoassay and reverse-phase high-performance liquid chromatography (RP HPLC). Pituitary tissues obtained from fetal monkeys ranging from Gestational Day 50 to 155 were fractionated and analyzed for ACTH- and alpha-MSH-related peptides and compared to adult forms. Extracts of whole pituitary from Fetal Days 50 and 55 contained ACTH(1-39) and very small amounts of CLIP (corticotropin-like intermediate-lobe peptide; ACTH(18-39))-like immunoactivity. Acetylated alpha-MSHs were not detectable at Day 50. alpha-MSHs were barely detectable at Day 55. By Day 65, when pituitary lobes were separable, small amounts of des-, mono-, and diacetyl alpha-MSH were detectable in NIL extracts, but not in anterior lobe extracts. ACTH(1-39) levels were negligible when compared to increasing alpha-MSHs through Fetal Day 80 to 155 in the intermediate lobe. The CLIP immunoactivity was negligible in Day 80 and adult anterior lobe extracts. Thus, lobe-specific proteolytic processing of ACTH-related peptides was well established by midterm gestation. Marked increases of alpha-N- and alpha-N,O-acetylated forms of alpha-MSHs were detected during middle and late stage fetal development. Diacetyl alpha-MSH was the predominant form of alpha-MSH in adult NIL extracts. No acetylated alpha-MSHs were found in anterior lobe tissues, thus adult anterior lobe extracts contained almost exclusively ACTH(1-39). However adult NIL extracts contained two distinct forms of CLIP-related immunoactivity. Therefore changes in post-translational processing patterns of ACTH-related and alpha-MSH-related peptides continued to some extent, postnatally. These data indicate that marked changes in post-translational processing of POMC-derived ACTH-related products occur during the first half of monkey gestation.
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PMID:Post-translational processing of pro-opiomelanocortin (POMC)-derived peptides during fetal monkey pituitary development. I. Adrenocorticotropin (ACTH) and alpha-melanotropins (alpha-MSHs). 283 Jan 57

The parenchymal cells of the pars intermedia (PI) and corticotrophs of the pars distalis (PD) synthesize pro-opiomelanocortin (POMC), which, through posttranslational processing, gives rise to a group of structurally related peptides, including MSHs, ACTH, CLIP, LPHs and endorphins. We investigated the control of release of these peptides using an in vitro system. We perifused either intact neurointermediate lobes (NI) or PD halves obtained from rats. Perifusion medium and tissue extracts were subjected to a battery of bioassays (BA) and radioimmunoassays (RIA) (including MSH-BA, alpha-MSH-RIA, ACTH-BA, ACTH-RIA, LPH-RIA) and a receptor-binding assay for morphine-like activity (MLA). The relative amounts of released peptide activities were examined under basal conditions and after challenging with synthetic ovine corticotrophin-releasing factor (CRF) and somatostatin. CRF stimulated the release of all assayed peptides from both the PD and PI in a dose-related manner. Stimulated release was immediate (within 3 min), constant, reversible and repeatable. Somatostatin (up to 100 ng/ml) did not alter basal release from either PD or PI. Somatostatin did block CRF-induced release from the PI but not from the PD. These observations support an action of both CRF and somatostatin in the control of secretion of POMC-derived peptides from the PI.
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PMID:Release of pro-opiomelanocortin-derived peptides from the pars intermedia and pars distalis of the rat pituitary: effect of corticotrophin-releasing factor and somatostatin. 286 90

In summary, 5HT, ACh, NE, E and DA appear to stimulate hypothalamic CRH secretion whereas activation of the GABA/BZD system seems to decrease the responsivity of the CRH neuron to stimulatory neurotransmitters (Fig. 6). Hypothalamic CRH released from the hypothalamic neuron not only activates the HPA axis, but also stimulates the locus coeruleus-norepinephrine system (LC) and the central sympathetic system (CSS). CRH also induces secretion of hypothalamic POMC gene-derived peptides, such as ACTH, beta-EP, alpha-MSH and CLIP. These peptides as well as CRH itself, decrease the responsivity of the CRH neuron to stimulatory inputs. In addition, glucocorticoids restrain the activity of both the CRH neuron and the locus coeruleus and may also inhibit the secretion of POMC gene-derived peptides by the POMC neurons of the arcuate nucleus. Hypothalamic CRH secretion is regulated also by a number of mediators of the immune response, such as IL-1, IL-2, TNF-alpha and PGF2 alpha, PAF and EGF. Although the physiologic significance of this regulation is largely unknown, it is tempting to speculate that cytokines and mediators of inflammation released in vivo may activate the HPA axis to trigger a glucocorticoid-mediated counter-regulatory mechanism to restrain the immune system (Fig. 7). (Formula: see text). Fig. 7. Schematic representation of the interactions between the HPA axis and the immune system. Continuous lines represent stimulatory inputs and interrupted lines represent inhibitory inputs. In conclusion, our in vitro hypothalamic organ culture system allowed us to examine the regulation of CRH secretion in a direct and specific manner. Some of our observations may help with better understanding of the role played by CRH in the complex symptomatology of stress. In making extrapolations and interpretations from the in vitro data, however, we should try to keep in mind the words of Claude Bernard, "... If we break up a living organism by isolating its different parts it is only for the sake of ease in analysis and by no means in order to consider them separately. Indeed when we wish to ascribe to a physiological quality its value and true significance we must always refer it to this whole and draw our final conclusions only in relation to the effects in the whole".
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PMID:Regulation of rat hypothalamic corticotropin-releasing hormone secretion in vitro: potential clinical implications. 290 18

Adrenal glands from Rhesus monkeys (Macaca mulatta) of 160 days gestation, newborn, 2 months-old infants or 6 months-old infants were excised and prepared, by a collagenase digestion, as a cell suspension. The cells were incubated with 10 pg/ml, 100 pg/ml or 1 ng/ml of a peptide of the ACTH/pro-opiomelanocortin 'family', 57K, 31K, 20K, alpha MSH, ovine-CLIP or gamma LPH either in the presence or absence of 166 pg/ml ACTH1-39. The production by cortisol and androstenedione was measured by radioimmunoassay. Using the steroid production by aliquots of the cell suspension with either no stimulating agent or ACTH1-39 alone as controls, the net influence of these different peptides on basal or ACTH1-39-stimulated production was observed. alpha MSH, ovine-CLIP and gamma LPH had no influence on either basal or stimulated cortisol or androstenedione production. Corticotrophic peptides of 57K, and 20K and pro-opiomelanocortin each had a steroidogenic activity alone, in all age groups. In the fetal and newborn monkeys' adrenal cells, peptides of 57K and 20K at 1 ng/ml had an inhibitory influence on ACTH1-39 stimulated cortisol and androstenedione production. The influence of the 20K peptide is partially inhibitory as the steroidogenic potential of this peptide is not additive with that of ACTH1-39. These results show that, as observed in other species, that the ACTH/pro-opiomelanocortin range of peptides are inhibitory to the action of ACTH1-39 in the developing adrenal.
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PMID:Inhibitory effects on steroid production from isolated adrenal cells of rhesus monkey (Macaca mulatta) of pro-opiomelanocorticotrophic peptides. 298 77

The effect of estradiol on the brain concentration of immunoreactive beta-endorphin (beta-EP) and C-terminal ACTH (CLIP) was studied in ovariectomized rats. Dopamine, a known inhibitor of pituitary intermediate lobe pro-opiomelanocortin (POMC), was examined as a possible mediator of the estradiol induced changes in brain POMC. Animals were treated for 1 or 3 weeks with either 1) saline; 2) silastic estradiol implants; or 3) estradiol implants plus haloperidol 1 mg/kg/day. After one week of treatment no significant change in hypothalamic beta-EP content was noted in any group compared to the control level of 4.13 +/- .33 (SEM) pmoles although in the neurointermediate lobe beta-EP increased from 566 +/- 72 to 942 +/- 73 pmoles after haloperidol (p less than .005). After 3 weeks, however, hypothalamic beta-EP decreased from 3.96 +/- .28 to 2.74 +/- .19 pmoles (p less than .005) and C-terminal ACTH decreased from 3.78 +/- .33 to 2.82 +/- .18 pmoles (p less than .02) in the estradiol treated rats. This estradiol induced decrease in the hypothalamic content of beta-EP and C-terminal ACTH was not blocked by haloperidol. We conclude that estradiol lowers the hypothalamic content of beta-EP and CLIP and that this effect does not appear to be mediated by dopamine.
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PMID:Regulation of beta-endorphin and ACTH in brain by estradiol. 299 73

In the rat, the intraventricular administration of ACTH (adrenocorticotropic hormone) has no effect upon the sleep-waking cycle. However, administration of two ACTH-derived peptides is followed by a selective and significant increase of each sleep state: Des-alpha-MSH (Des-acetyl-alpha-melanocyte stimulating hormone) administration induces an increase of slow wave sleep, while CLIP (corticotropin-like intermediate lobe peptide) is followed by an increase of paradoxical sleep.
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PMID:[Hypnogenic effects of des-acetyl-alpha-MSH and CLIP (ACTH 18-39) in the rat]. 300 76

The sand-rat (Psammomys obesus) is an animal model for the study of human maturity onset diabetes which appears to be controlled by caloric intake. In the present investigations, these animals have been studied in relation to the influence of low- and high-energy diets on body weight, plasma insulin and blood glucose levels, and on insulin secretion from the perfused pancreas and the secretion of corticotropin-like intermediate lobe peptide (CLIP, ACTH18-39) and the insulin secretagogue beta-cell-tropin (beta-CT, ACTH22-39) from the pituitary neurointermediate lobe. The sand-rats maintained on the high-energy diet all became obese. Insulin secretion from the perfused pancreas of the obese sand-rat in the presence of 5.6 mM glucose was significantly higher than in the lean controls maintained on low-energy diets. Increasing the glucose concentration to 16.7 mM only produced a small stimulation of insulin secretion in the obese animals, and the difference between the two groups was not significant. Stimulation of insulin secretion by beta-CT was variable, but the obese animals appeared to be more responsive. Pituitary neurointermediate lobes were incubated for 4 h to measure the secretion of the ACTH related peptide. These were separated by gel filtration and the concentrations measured by radioimmunoassay with a CLIP antiserum and a CLIP standard. In all experiments beta-CT was 4-6 per cent of the total CLIP immunoreactive material. In these experiments the obese animals maintained on a high-energy diet were divided into two groups, those with plasma insulin levels less than 500 mu u/ml and those with insulin levels greater than 500 mu u/ml. The latter group had a significantly higher blood glucose level, presumably due to the insulin resistance resulting from the severe hyperinsulinaemia. It was also observed that CLIP-IRM and beta-CT secretion was lower in this group than in the animals maintained on low-energy diets or those on high-energy diets with moderate hyperinsulinaemia. This suggests a possible feedback inhibition by insulin on the secretion of beta-CT.
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PMID:Studies on insulin secretion and the pituitary insulin secretagogue beta-cell-tropin in the sand-rat (Psammomys obesus). 303 19

Recent data on the immunolocalization of regulatory peptides and related propeptide sequences in endocrine cells and tumors of the gastrointestinal tract, pancreas, lung, thyroid, pituitary (ACTH and opioids), adrenals and paraganglia have been revised and discussed. Gastrin, xenopsin, cholecystokinin (CCK), somatostatin, motilin, secretin, GIP (gastric inhibitory polypeptide), neurotensin, glicentin/glucagon-37 and PYY (peptide tyrosine tyrosine) are the main products of gastrointestinal endocrine cells; glucagon, CRF (corticotropin releasing factor), somatostatin, PP (pancreatic polypeptide) and GRF (growth hormone releasing factor), in addition to insulin, are produced in pancreatic islet cells; bombesin-related peptides are the main markers of pulmonary endocrine cells; calcitonin and CGRP (calcitonin gene-related peptide) occur in thyroid and extrathyroid C cells; ACTH and endorphins in anterior and intermediate lobe pituitary cells, alpha-MSH and CLIP (corticotropin-like intermediate lobe peptide) in intermediate lobe cells; met- and leu-enkephalins and related peptides in adrenal medullary and paraganglionic cells as well as in some gut (enterochromaffin) cells; NPY (neuropeptide Y) in adrenaline-type adrenal medullary cells, etc.. Both tissue-appropriate and tissue-inappropriate regulatory peptides are produced by endocrine tumours, with inappropriate peptides mostly produced by malignant tumours.
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PMID:Endocrine cells producing regulatory peptides. 329 70

In many aspects of pro-ACTH/endorphin processing, newborn melanocytes are mature by birth. The newborn melanocytes correctly process precursor to many of the expected products including alpha MSH and beta-endorphin, the melanocytes perform tissue-specific modifications such as alpha-N-acetylation and additional proteolytic steps and they respond to dopaminergic agents but not to physiological levels of CRF or glucocorticoids. These features are retained in serum-free cultures of newborn intermediate pituitary cells. Thus, the major developmental alterations in the intermediate pituitary melanotropes involve the net 150-fold rise in pro-ACTH/endorphin synthetic rate, from birth to adulthood. In contrast, processing of pro-ACTH/endorphin in the newborn anterior lobe is not mature by birth. Both in vivo and in vitro newborn anterior pituitary corticotropes contain a large pool of pro-ACTH/endorphin, and a substantial amount of ACTH(1-39) is cleaved to ACTH(1-13)NH2 and CLIP. Surprisingly, the amount of ACTH(1-13)NH2 and beta-endorphin rises with increasing time in culture, but alpha-N-acetylation of ACTH(1-13)NH2 or beta-endorphin is not seen in the corticotropes. As in the adult, the synthesis of pro-ACTH/endorphin in newborn corticotropes is subject to regulation by CRF and glucocorticoids. In addition, glucocorticoid treatment of newborn corticotropes acts to suppress the cleavage of ACTH(1-39) to ACTH(1-13)NH2 and of beta-LPH to beta-endorphin, rendering the treated corticotropes more like the adult corticotropes. This plasticity in processing observed in the newborn corticotropes is not seen in the adult. It will be important to examine whether peptide processing patterns which are changed during this period of plasticity are permanently altered, and then what the consequences of those altered processing patterns might be.
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PMID:The synthesis and processing of pro-ACTH/endorphin in the developing rat pituitary. 332 23

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