Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Dark coat color in the mouse and fox results from constitutively activated melanocortin-1 receptors. Receptor mutations in the mouse (E92K, L98P), cow (L99P), fox (C125R), and sheep (D119N) cluster near the membrane/extracellular junctions of the second and third transmembrane domains, an acidic domain that is the likely site of electrostatic interaction with an arginine residue in the ligand, alpha-MSH. For transmembrane residues E92, D119, and C125, conversion to a basic residue is required for constitutive activation. Unlike constitutively activating mutations in many G protein-coupled receptors that increase agonist efficacy and affinity, these MC1-R mutations have the opposite effect. Therefore, these mutations do not activate the receptor by directly disrupting intramolecular constraints on formation of the active high-affinity state, R*, but do so indirectly by mimicking ligand binding.
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PMID:A ligand-mimetic model for constitutive activation of the melanocortin-1 receptor. 954 94

Alpha-MSH, a proopiomelanocortin (POMC)-derived peptide, is known to be produced in the pituitary, the skin, and melanoma tumors and to possess many biological effects, mainly on melanocyte pigmentation and growth. Moreover, the melanocyte expresses adhesion molecules, including ICAM-1. The latter has been reported to play a role in melanoma spread and associated metastatic process. We conducted a study in order to evaluate the possible effect of MSH on ICAM-1 expression in human cultured malignant and normal melanocytes. Our data show that alpha-MSH inhibits ICAM-1 expression stimulated by TNF in a concentration-dependent manner, both at the protein and gene expression level. Ninety percent inhibition was obtained with 10 nM MSH, while 50% inhibition was achieved with 1 nM. Endogenous cAMP elevation with forskolin as well as an exogenous cAMP stable analogue (Sp-cAMPS) produced the same inhibitory effect. A screening of malignant melanocytes showed that inhibition of ICAM-1 expression could be achieved only in those cells expressing detectable MSH receptors and seemed to correlate with the number of binding sites. In conclusion, our data strongly suggest alpha-MSH as a potent inhibitor of ICAM-1 expression in malignant melanocytes acting through MSH receptor stimulation and subsequent cAMP increase.
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PMID:Modulation of ICAM-1 expression by alpha-MSH in human melanoma cells and melanocytes. 957 72

Melanocyte-stimulating hormone (MSH) has been reported to enhance the experimental metastatic behaviour of melanoma cells in the mouse model. alpha-MSH production and MSH receptor (melanocortin 1 receptor gene) expression have been detected in cultured normal human melanocytes and metastasized melanomas. The exact role of MSH in the metastatic behaviour of human melanoma cells is, however, not yet known. To clarify a possible role of proopiomelanocortin (POMC)-derived peptides, including alpha-MSH, in melanoma development and progression, we analysed immunohistochemically the localization of alpha-MSH adrenocorticotrophic hormone (ACTH) and beta-endorphin in various kinds of benign pigmented naevocytic lesions and malignant melanomas. Three of 21 samples of common and dysplastic naevi showed detectable alpha-MSH staining in naevus cells, and five and six of 15 samples were weakly positive for ACTH and beta-endorphin staining, respectively. In melanoma samples, 24 of 45, 23 of 39 and 30 of 42 samples showed positive staining with alpha-MSH, ACTH and beta-endorphin antibodies, respectively. Furthermore, staining for all three antibodies was noted to be more intense and diffuse in samples of nodular melanoma, vertically growing acral lentiginous melanoma and superficial spreading melanoma as well as metastatic lesions compared with those of naevi. Although it is yet to be determined whether or not this strong staining for POMC-derived peptides in advanced melanoma cells indicates a role of autocrine or paracrine regulation, our results suggest a possible involvement of POMC gene products in melanoma progression.
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PMID:Immunoreactivity of alpha-melanocyte-stimulating hormone, adrenocorticotrophic hormone and beta-endorphin in cutaneous malignant melanoma and benign melanocytic naevi. 974 58

The locus coeruleus is innervated by proopiomelanocortin (POMC)-derived peptide immunoreactive fibres. The biological effects of ( melanocyte-stimulating hormone (aMSH) and [-endorphin on second messengers (cAMP, inositol phosphates) and gene transcription were studied in the locus cceruleus-derived cell line CATH.a. RT-PCR analysis revealed the presence of four MSH receptor subtypes (1, 3, 4 and 5). Activation of these receptors by diacetyl alphaMSH stimulated cAMP accumulation in a dose-dependent manner (EC50: 4 x 10(-9) M). Diacetyl alphaMSH stimulated transcription from reporter genes driven by the c-fos or tyrosine hydroxylase promoter. This effect was abolished when protein kinase A was inactivated with a dominant inhibitory mutant. RT-PCR analyses revealed the presence of delta-, but not mu-and kappa-opioid receptor. Pharmacological analysis showed that beta-endorphin (EC50: 2.5 x 10(-8)M), but not N-acetyl beta-endorphin, antagonized the biological effect of diacetyl alphaMSH on cAMP production and gene transcription. Since N-acetylation regulates the biological activity of alphaMSH and beta-endorphin in an opposite manner, we propose a model where the rate of secretion dictated by the bioelectric activity of the presynaptic neuron modulates POMC-derived peptide maturation and the resulting biological signal sensed by the postsynaptic plate.
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PMID:Melanocortin receptors and delta-opioid receptor mediate opposite signalling actions of POMC-derived peptides in CATH.a cells. 975 Nov 58

We proposed that local expression and production of proopiomelanocortin (POMC) peptides may play a role in human skin physiology and pathology, including the development and progression of skin cancers. Reverse transcription polymerase chain reaction (RT-PCR) and Northern blotting hybridization techniques were used to study gene expression. Reversed-phase (RP) high-pressure liquid chromatography (HPLC) separation with subsequent radioimmunoassays were used to identify alpha-melanocyte-stimulating hormone (alpha-MSH) and adrenocorticotropic hormone (ACTH) peptides. Immunocytochemistry (IHC) was used to localize ACTH, alpha-MSH, and beta-MSH antigens in skin. RT-PCR, RP-HPLC, and IHC analyses documented the expression of POMC mRNA and production of ACTH and alpha-MSH peptides in lesional and perilesional skin of basal cell carcinoma (BCC) patients and in cultured keratinocytes, which was accompanied by the expression of the MC1-R gene encoding the receptor activated by MSH and ACTH. Thirty specimens were analyzed by IHC. Immunoreactive alpha-MSH, beta-MSH, and ACTH were detected, in 21 of 21, in 11 of 20, and in 6 of 8 of lesional skin, and in 6 of 6, in 5 of 7, and in 6 of 8 perilesional skin specimens analyzed, respectively. Antigen distribution was heterogenous and present in BCC, epidermis, hair follicles, dermal mononuclear cells, and extracellular matrix. We conclude that messenger RNA for POMC, MC1-R, and the peptides MSH and ACTH are produced in skin of BCC patients. Because keratinocytes are a target for MSH and ACTH bioregulation, the production of these peptides is stimulated by UVB, and the peptides can act as immunosupressors, we suggest that MSH and ACTH may facilitate development of BCC.
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PMID:Expression of proopiomelanocortin (POMC)-derived melanocyte-stimulating hormone (MSH) and adrenocorticotropic hormone (ACTH) peptides in skin of basal cell carcinoma patients. 1002 51

A tripeptoid library was synthesized using 69 different primary amines in initially 69 individual reactions by the mix and split approach. The resulting library consisted of 328,509 (69(3)) single compounds, divided in 69 subpools each containing 4,761 entities. The 69 subpools were tested in two binding assays, one for alpha-MSH (alpha-melanotropin) and one for GRP (gastrin-releasing peptide)/bombesin. The sublibraries with the highest affinity to the MSH receptor (i.e. melanocortin type 1 or MC1 receptor) and, respectively, the GRP-preferring bombesin receptor were identified by an iterative process. Individual tripeptoids with good binding activity were resynthesized, analyzed and their dissociation constants and biological activity determined. The KD of the most potent MC1 receptor ligand was 1.58 mumol/l and that of the GRP-preferring bombesin receptor 3.40 mumol/l. Extension of this latter tripeptoid structure whose KD value increased to 280 nmol/l. A similar increase in activity was not observed with the most potent MSH tripeptoid ligand when extended by one residue, but a compound suitable for radioiodination and lacking the N-terminal amino group had a slightly higher binding activity than the tripeptoids (KD approximately 850 nmol/l). These results demonstrate that testing a peptoid library containing 328,509 single compounds led to the successful identification of new ligands for both the MC1 receptor as well as the GRP-preferring bombesin receptor.
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PMID:A combinatorial peptoid library for the identification of novel MSH and GRP/bombesin receptor ligands. 1007 77

Desacetyl-alpha-MSH is more abundant than alpha-MSH in the brain, the fetus, human blood, and amniotic fluid, but there is little information on its ability to interact with melanocortin receptors. The aim of this study is to compare and contrast the ability of desacetyl-alpha-MSH and alpha-MSH to couple melanocortin receptors stably expressed in HEK293 cells, to the protein kinase A (PKA) signaling pathway. Desacetyl-alpha-MSH activated mouse MC1, MC3, MC4 and MC5 receptors with EC50s = 0.13, 0.96, 0.53, and 0.84 nM, and alpha-MSH activated these receptors with EC50s = 0.17, 0.88, 1.05, and 1.34 nM, respectively. Mouse agouti protein competitively antagonized alpha-MSH and desacetyl-alpha-MSH coupling to the MC1-R similarly. In contrast, mouse agouti protein antagonized desacetyl-alpha-MSH much more effectively and potently than alpha-MSH coupling the MC4-R to the PKA signaling pathway. Furthermore, mouse agouti protein (10 nM) significantly reduced (1.4-fold) the maximum response of mMC4-R to desacetyl-alpha-MSH and 100 nM mouse agouti significantly increased (4.8-fold) the EC50. Minimal antagonism of alpha-MSH coupling mMC4-R to the PKA signaling pathway was observed with 10 nM mouse agouti, whereas both 50 and 100 nM mouse agouti appeared to reduce the maximum reponse (1.1- and 1.3-fold, respectively) and increase the EC50 (2.5- and 3.4-fold respectively). Mouse agouti protein did not significantly antagonize either alpha-MSH or desacetyl-alpha-MSH coupling mouse MC3 and MC5 receptors. Understanding the similarities and differences in activation of melanocortin receptors by desacetyl-alpha-MSH and alpha-MSH will contribute to delineating the functional roles for these endogenous melanocortin peptides.
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PMID:Agouti antagonism of melanocortin-4 receptor: greater effect with desacetyl-alpha-melanocyte-stimulating hormone (MSH) than with alpha-MSH. 1021 68

153N-6 (H-[Met5,Pro6,D-Phe7,D-Trp9,Phe10]-MSH(5-13)) has emerged as the most potent antagonist of alpha-MSH activity on Xenopus laevis melanophores, from a library of 32 360 peptides based on alpha-MSH(5-13) [22]. A recent report has confirmed our observation that 153N-6 also binds to mammalian melanocortin receptors. Here we report the receptor-binding affinities and biologic activities of 153N-6 and 17 selected alpha-MSH analogues at the native MCI receptor expressed by murine B16 melanoma cells. Our intention is to determine the structural requirements for agonism and competitive antagonism of melanocortin activity at the MC1-R and to discover more potent antagonists. 153N-6 was able to inhibit the action of native alpha-MSH and the potent synthetic agonist, [Nle4,D-Phe7]alpha-MSH, at the murine MC1-R. However, the Ki of 153N-6 was 439 times higher than that of alpha-MSH and 4475 times higher than that of [Nle4,D-Phe7]alpha-MSH; too high to allow 153N-6 to be considered as a practical antagonist for use in vivo (Ki of 153N-6 = 9.0 X 10(-6) M). Because Met4 is an important component of alpha-MSH binding at the MC1-R, we investigated alpha-MSH(1-13) and alpha-MSH(4-13) analogues to produce compounds with higher MC1-R-binding affinity than 153N-6. The binding affinity of 153N-6 was not significantly different from alpha-MSH(5-13), but it was 232 times lower than alpha-MSH(4-13). Coupling of H-Nle (as an isosteric replacement for Met) or acetyl-Nle to the N-terminus of 153N-6 raised the binding affinity by a factor of 46, but this and all full-length alpha-MSH analogues with Met or Nle in position 4 were full agonists of the MC1-R. A full-length alpha-MSH(1-13) derivative of 153N-6 with Ala4 did not exhibit significantly greater binding affinity than 153N-6 and appeared to be a partial agonist at the MC1-R in the cAMP assay. These data suggest that Met4 is an important determinant of the intrinsic efficacy of melanocortins as well as their binding affinity at the MCI-R. Pro6 and Phe10 (with respect to alpha-MSH) were found to be the most influential substitutions that determined the antagonist activity of 153N-6.
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PMID:Synthesis of 153N-6 analogues and structure-function analysis at murine melanocortin-1 (MC1) receptors. 1044 99

Proopiomelanocortin (POMC) is a 31 kDa prohormone that is processed to various bioactive peptides, including adrenocorticotropin (ACTH), melanotropins (alpha, beta, gamma-MSH), lipotropins, and endorphins. POMC is expressed not only in the pituitary gland but also in a variety of nonpituitary organs and tumors, including melanomas. We previously showed that normal human melanocytes produce and secrete alpha-MSH and ACTH, and furthermore, that advanced melanoma cells generally produce higher amounts of POMC peptides that correlate with tumor progression. To elucidate the mechanism of this upregulation, the expression of genes encoding corticotropin-releasing hormone (CRH) and its receptor, CRH-R, as well as POMC and the MSH receptor (MC1-R), was evaluated by reverse transcriptase-polymerase chain reaction using cultured human melanoma cells, nevus cells, and normal melanocytes. Our results show that all melanocytic cells express CRH, CRH-R, POMC, and MC1-R, with highest intensities in melanoma cells. Furthermore, immunohistochemistry shows that CRH as well as POMC is strongly expressed in advanced melanomas, such as vertically growing lesions of acral lentiginous, nodular and metastatic melanomas, in contrast to negative expression in nevus cells. These results indicate that tumor progression accentuates CRH, CRH-R, and POMC expression by melanoma cells.
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PMID:Expression of proopiomelanocortin, corticotropin-releasing hormone (CRH), and CRH receptor in melanoma cells, nevus cells, and normal human melanocytes. 1053 83


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