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)

1. We investigated the effects of [Nle4,D-Phe7]alpha-melanocyte-stimulating hormone (NDP-MSH), adrenocorticotropin-(1-24) (ACTH-(1-24)) and gamma 2-MSH, three melanocortins with different agonist selectivity for the five cloned melanocortin receptors, on blood pressure and heart rate in conscious, freely moving rats following intravenous administration. 2. As was previously found by other investigators as well as by us gamma 2-MSH, a peptide suggested to be an agonist with selectivity for the melanocortin MC3 receptor, caused a dose-dependent, short lasting pressor response in combination with a tachycardia. Despite the fact that NDP-MSH is a potent agonist of various melanocortin receptor subtypes, among which the melanocortin MC1 receptor, it did not affect blood pressure or heart rate, when administered i.v. in doses of up to 1000 nmol kg-1. 3. ACTH-(1-24) caused a dose-dependent decrease in blood pressure in combination with a dose-dependent increase in heart rate in a dose-range from 15 to 500 nmol kg-1. The cardiovascular effects of ACTH-(1-24) were independent of the presence of the adrenals. 4. Pretreatment with ACTH-(1-24) caused a pronounced, dose-dependent parallel shift to the right of the dose-response curve for the pressor and tachycardiac effects of gamma 2-MSH. The antagonistic effect of ACTH-(1-24) was already apparent following a dose of this peptide as low as 10 nmol kg-1, which when given alone had no intrinsic hypotensive activity. 5. These results form further support for the notion that it is not via activation of one of the as yet cloned melanocortin receptors that gamma-MSH-like peptides increase blood pressure and heart rate. The cardiovascular effects of ACTH-(1-24) seem not to be mediated by the adrenal melanocortin MC3 receptors, for which ACTH-(1-24) is a selective agonist, or by adrenal catecholamines. 6. There appears to be a functional antagonism between ACTH-(1-24) and gamma 2-MSH, two melanocortins derived from a common precursor, with respect to their effect on blood pressure and heart rate. Whether this antagonism plays a (patho)physiological role remains to be shown.
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PMID:Different cardiovascular profiles of three melanocortins in conscious rats; evidence for antagonism between gamma 2-MSH and ACTH-(1-24). 911 79

Several dominant mutations at the murine agouti locus cause a syndrome of marked obesity and insulin resistance. We have recently reported that intracellular free Ca2+ concentration ([Ca2+]i) is elevated in viable yellow mice. Because [Ca2+]i has a key role in the pathogenesis of insulin resistance, obesity, and hypertension, the role of the purified agouti gene product in regulating [Ca2+]i was evaluated in a number of cell types. Purified murine agouti induced slow, sustained increases in [Ca2+]i in A7r5 vascular smooth muscle cells and 3T3-L1 adipocytes in a dose-dependent fashion. In L6 skeletal myocytes, agouti stimulated an increase in [Ca2+]i with an apparent concentration eliciting 50% of the maximal response (EC50) of 62 nM. This response was substantially inhibited by Ca2+ entry blockade with nitrendipine. To determine whether melanocortin receptors play a role in agouti regulation of [Ca2+]i, we examined the effect of melanocortin peptides and agouti in cells stably transfected with human melanocortin receptors. Human embryonic kidney cells (HEK-293 cells) transfected with either the human melanocortin 1 receptor (MC1R) or melanocortin 3 receptor responded to human agouti with slow, sustained increases in [Ca2+]i, whereas nontransfected HEK-293 cells with no melanocortin receptors did not respond to agouti. Dose-response curves in the MC1R line showed that agouti had an EC50 of 18 nM, which is comparable to that for agouti antagonism of (125)I-Nle,D-Phe-alpha-melanocyte-stimulating hormone binding in the same cell line. This direct effect of agouti on stimulating increases in [Ca2+]i suggests a potential mechanism for agouti-induced insulin resistance.
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PMID:Agouti regulation of intracellular calcium: role of melanocortin receptors. 912 42

Melanocortins, melanocyte-stimulating hormones (MSH) and adrenocorticotropic hormone (ACTH) are homologous natural peptides derived from pro-opiomelanocortin (POMC). Recent breakthroughs in melanocortin receptor (MCR) biology are relevant to neuroimmunomodulation because melanocortins are known to modulate fever, inflammation and immunity, by acting both on peripheral targets and within the brain. During fever, endogenous melanocortins exert antipyretic effects by acting on MCR located within the brain, suggesting a protective counterregulatory role of the central melanocortin system. MCR are also found in melanocytic cells and adrenal cortical cells, the classical targets for alpha-MSH and ACTH, respectively, in myelogenous and lymphoid tissues, and in various endocrine and exocrine glands, adipocytes, and in autonomic ganglia. In the CNS, MCR are prominently distributed in close proximity to the terminal fields of melanocortinergic neurons that innervate neuroendocrine and autonomic motor nuclei as well as other subcortical brain regions important in neuroendocrine and autonomic regulation, sensory processing and various aspects of behavior. Furthermore, the presence of MCR in circumventricular organs of the brain provides direct access of systemic melanocortin hormones to central MCR. Together, these attributes provide an anatomical basis for bidirectional MCR-mediated communication between brain and periphery. A group of five G-protein-associated MCR subtypes, each of which is positively coupled to adenylate cyclase, has been identified. Among these, the adrenal ACTH receptor (MC2-R) is selectively activated by ACTH. In contrast, the other MCR subtypes (MC1-R, MC3-R, MC4-R, MC5-R) recognize a common group of ligands that includes various forms of MSH as well as ACTH; nevertheless they do exhibit important differences in ligand selectivity. MCR concentrations and MCR mRNA levels are influenced by availability of cognate ligands, by drugs, and by pathological stimuli. Two types of endogenous MCR antagonist proteins have been discovered: agouti protein and the corticostatins. Agouti protein dramatically alters coat color in mammals by antagonizing melanocytic MC1-R. Moreover, spontaneous dominant mutations of the agouti gene in several strains of mice lead to its ubiquitous overexpression and produces not only yellow coat color, but also obesity and insulin resistance, perhaps as a result of its antagonism of other MCR subtypes. The recent emergence of synthetic MCR antagonists, and the feasibility of molecular approaches for targeted inactivation of individual MCR subtypes, should facilitate elucidation of the roles and mechanisms of neuroimmunomodulation by endogenous melanocortins, and the determination of whether selective pharmacological targeting of MCR may ultimately have therapeutic utility.
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PMID:Receptor biology of the melanocortins, a family of neuroimmunomodulatory peptides. 921 48

Five subtypes of melanocortin receptors have to date been identified, but to date little is known about the different structural requirements for binding and biological activity at these receptors. In this study, the role of C-terminal melanocortin peptide residues in imparting selectivity for the receptor subtypes was examined. C-terminally modified analogues of alpha-MSH and gamma-MSH were synthesized and their interaction with MC1 and MC3 melanocortin receptors was investigated. This study provides further evidence for an important role of proline 12 (numbering with respect to alpha-MSH) for binding and activity at the MC1 receptor. Although the influence of C-terminal amino acids on binding and activity at MC3-R was less marked, some of them were nevertheless observed to be beneficial for the interaction with this receptor subtype.
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PMID:Binding and biological activity of C-terminally modified melanocortin peptides: a comparison between their actions at rodent MC1 and MC3 receptors. 935 58

The binding of the 2 cyclic lactam MSH (4-10) analogues (MTII, SHU9119), and 5 cyclic [Cys4, Cys10] alpha-MSH analogues were tested on cells transiently expressing the human MC1, MC3, MC4 and MC5 receptors. The results indicate a differential importance of the C-terminal (Lys-Pro-Val) and N-terminal (Ser-Tyr-Ser) of cyclic [Cys4, Cys10] alpha-MSH analogues in binding to the MC receptor subtypes. Substitution of D-Phe7 by D-Nal(2')7 in both the cyclic lactam MSH (4-10) and the cyclic disulphide MSH (4-10) analogues resulted in a shift in favour of selectivity for the MC4 receptor; the disulphide analogue, [Cys4, D-Nal(2')7 Cys10] alpha-MSH (4-10) (HS9510), showing the highest selectivity for the MC4 receptor among all the substances tested. However, the cyclic lactams displayed an over all higher affinity for the MC receptors, than any of the cyclic disulphide MSH (4-10) analogues.
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PMID:Selectivity of cyclic [D-Nal7] and [D-Phe7] substituted MSH analogues for the melanocortin receptor subtypes. 935 59

ACTH(1-39), and several shorter N- and/or C-terminally truncated fragments of ACTH, with and without N-terminal acetylation and/or C-terminal amidation, were tested for binding on a single eukaryotic cell line transiently and independently expressing the melanocortin MC1, MC3, MC4 and MC5 receptors. The results show that none of these MC receptors has specific binding epitopes for the ACTH peptides beyond the amino acid sequence of alpha-MSH, when tested for their ability to compete with 125I-labelled [Nle4,D-Phe7]alpha-MSH and ACTH. The MC3 receptor favours the natural desacetylated N-terminal end of the ACTH peptides, and it has generally more than 10-fold higher affinity for the ACTH peptides than the MC4 receptor. Considering earlier anatomical localisation data, together with the present data, we suggest that the MC3 receptor is the most likely candidate of the MC receptors to mediate the short-loop negative feedback release of corticotrophin-releasing factor (CRF) caused by ACTH/MSH peptides.
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PMID:The melanocortin 1, 3, 4 or 5 receptors do not have a binding epitope for ACTH beyond the sequence of alpha-MSH. 939 8

Melanocortins are thought to be involved in neuronal development and regeneration. Pro-opiomelanocortin (POMC), the precursor of alpha-melanocyte stimulating hormone (alpha-MSH), gamma-MSH, ACTH, and beta-endorphin, becomes detectable in rat hypothalamic neurons from gestational day (E) 12.5. We recently described stage- and region-specific ontogenetic patterns of binding sites for the alpha-MSH analogue [125I]-Nle4,D-Phe7-alpha-MSH ([125I]-NDP), with the first localizations in epithalamus and sympathetic chain at E13. [125I]-NDP binds to all known melanocortin receptors, including MC3-R and MC4-R, the predominant melanocortin receptors in nervous system. To identify the receptor type expressed during ontogeny, the developmental pattern of MC3-R and MC4-R mRNA was investigated by in situ hybridization in fetuses and offspring of time-pregnant Long Evans rats between E14 and postnatal day (P) 27. MC4-R mRNA was found to be the predominant species during the entire fetal period. It was localized in all fetal areas exhibiting distinct [125I]-NDP binding, starting with sympathetic ganglia and epithalamus (E14), and including sensory trigeminal nuclei (E16), dorsal motor nucleus of vagus (E16) and cranial nerve ganglia, inferior olive (E18) and cerebellum (E18), striatal regions (E16), and entorhinal cortex (E22). In contrast, MC3-R mRNA was detectable only in the postnatal period, with a fast increase in expression in the ventromedial and arcuate nuclei. The early presence of MC4-R mRNA in central and peripheral nervous system and transient regional peaks of mRNA expression, often concomitant with periods of neural network formation, suggest a role of this receptor type in early ontogeny. The MC3 receptor may be involved in analogous processes during postnatal development.
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PMID:Different developmental patterns of melanocortin MC3 and MC4 receptor mRNA: predominance of Mc4 in fetal rat nervous system. 953 59

We determined the binding affinities of the MSH analogues MSH-B, HP-228 and 153N-6 and of the enkephalin analogue GHRP-6 on a single eukaryotic cell line transiently expressing the human MC1, MC3, MC4 and MC5 receptors. Moreover, we tested the binding and cAMP response of MSH-B in comparison with alpha-MSH on murine B16 melanoma cells. Our results indicate that MSH-B has a potency similar to that of alpha-MSH and that these two peptides induce similar cAMP responses in murine B16 melanoma cells. HP-228 has its highest affinity for the MC1 receptor. For the other receptors, it has slightly higher affinity for the MC5 receptor than for the MC3 and MC4 receptors. 153N-6 was found to be selective for the MC1 receptor. GHRP-6 was found to bind to the MC1 and the MC5 receptors despite its low structural homology with alpha-MSH. [D-Lys3]GHRP-6 bound to all the four MC receptors with similar affinities. The structurally related Met-enkephalin and the functionally related GHRH, as well as LHRH and somatostatin-14 did not bind to these MC receptors. The low affinity of the GH-releasing/enkephalin peptides may indicate that they do not interact with the MC receptors at pharmacologically relevant concentrations.
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PMID:Characterization of the binding of MSH-B, HB-228, GHRP-6 and 153N-6 to the human melanocortin receptor subtypes. 957 23

Melanin-concentrating hormone (MCH) and alpha-melanocyte-stimulating hormone (alpha-MSH) demonstrate opposite actions on skin coloration in teleost fish. Both peptides are present in the mammalian brain, although their specific physiological roles remain largely unknown. In this study, we examined the interactions between MCH and alpha-MSH after intracerebroventricular administration in rats. MCH increased food intake in a dose-dependent manner and lowered plasma glucocorticoid levels through a mechanism involving ACTH. In contrast, alpha-MSH decreased food intake and increased glucocorticoid levels. MCH, at a twofold molar excess, antagonized both actions of alpha-MSH. alpha-MSH, at a threefold molar excess, blocked the orexigenic properties of MCH. MCH did not block alpha-MSH binding or the ability of alpha-MSH to induce cAMP in cells expressing either the MC3 or MC4 receptor, the principal brain alpha-MSH receptor subtypes. These data suggest that MCH and alpha-MSH exert opposing and antagonistic influences on feeding behavior and the stress response and may function in a coordinate manner to regulate metabolism through a novel mechanism mediated in part by an MCH receptor.
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PMID:Melanin-concentrating hormone: a functional melanocortin antagonist in the hypothalamus. 957 23

gamma-Melanocyte-stimulating hormone (gamma-MSH), atrial natriuretic peptide (ANP), and oxytocin have been identified as candidate hormonal mediators of the reflex natriuresis that follows acute unilateral nephrectomy (AUN). Pharmacological characterization of the third melanocortin receptor (MC3-R) indicates that it uniquely responds to physiological concentrations of gamma-MSH. We tested the roles of gamma-MSH, ANP, and oxytocin in the postnephrectomy natriuresis by carrying out AUN during continuous intrarenal infusion of specific antagonists for their cognate receptors. In anesthetized Sprague-Dawley rats, urinary sodium excretion (UNaV) increased from 0.34 +/- 0.04 to 1.12 +/- 0.11 mu eq/min 90 min after AUN (P < 0.001). No change in UNaV occurred in rats undergoing a sham AUN procedure. Plasma immunoreactive gamma-MSH concentration was 53 +/- 8 fmol/ml after sham AUN but 112 +/- 17 fmol/ml after AUN (P < 0.01). SHU-9119 and SHU-9005 are substituted derivatives of alpha-MSH with potent antagonism at the MC3-R in vitro. Infusion of these compounds at 5 pmol/min completely blocked the natriuretic response to AUN despite a similar elevation in plasma gamma-MSH (111 +/- 12 vs. 49 +/- 8 fmol/ml in sham rats, P < 0.01). Intrarenal infusion of the ANP receptor antagonist A-71915 (5 pmol/min) or the oxytocin receptor antagonist [d(CH2)(5)1, Tyr(Me)2,Orn8] vasotocin (10 pmol/min) effectively inhibited the natriuresis induced by intravenous infusion of ANP or oxytocin (each at 1 pmol/min), respectively, but did not block the natriuresis after AUN. Plasma immunoreactivity of these peptides was not increased after AUN. These results indicate that reflex natriuresis after AUN is accompanied by an increase in plasma gamma-MSH but not ANP or oxytocin concentration and is prevented by intrarenal infusion of receptor antagonists with selectivity for MC3-R. The data indicate that gamma-MSH or a closely related peptide mediates postnephrectomy natriuresis and provide further support for the possibility that gamma-MSH may play a wider role in sodium homeostasis.
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PMID:Prevention of reflex natriuresis after acute unilateral nephrectomy by melanocortin receptor antagonists. 957 53

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