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 effect of the opiate peptide, beta-endorphin (beta-END), on the autologous and allogeneic mixed lymphocyte reaction was examined. Physiologic concentrations of beta-END augmented proliferation of the autologous mixed lymphocyte reaction (AMLR) but the allogeneic MLR was not altered. Alpha-endorphin (alpha-END) was ineffective. Pre-incubation of the stimulator subset (i.e., B cells and macrophages) with 10(-8) M beta-END followed by addition to AMLR culture without additional opiate peptide did not produce augmentation. The beta-END-induced augmentation of the AMLR was partially inhibited by the opiate antagonist naloxone. beta-END augmentation was not due to increased secretion of interleukin-2. When prostaglandin E2 (PGE2) was added to AMLR cultures wherein the stimulator cell fraction was vigorously depleted of adherent cells, suppression was observed which could be reversed by the addition of beta-END (10(-8) M). The potential mechanisms producing the increased proliferative response during the AMLR are discussed.
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PMID:Modulation of the autologous mixed lymphocyte reaction by beta-endorphin. 282 56

Immunoreactive ACTH and beta-lipotropin (beta-LPH) plasma concentrations are elevated in clinically stable chronic renal failure patients on hemodialysis (LPH: patients, 271.8 +/- 35.7 fmol ml-1; normal subjects; 6.6 +/- 0.5; ACTH: patients, 56.4 +/- 15.3; normal subjects, 19.4 +/- 1.7). To begin to study the etiology of such elevated levels, the MCR, apparent volume of distribution, and fractional rate of disappearance of synthetic human ACTH and highly purified human beta-LPH were determined in two clinically stable chronic renal failure patients on hemodialysis, after bolus simultaneous injection of both peptides. Biphasic disappearance curves were obtained for beta-LPH; triphasic for ACTH. The MCR of ACTH was within the range seen in normal subjects, whereas the MCR of beta-LPH was less than one half the normal rate. The data indicate that a decrease in MCR (rather than an increase in pituitary secretory rate) may account for the higher plasma levels of beta-LPH in uremic patients.
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PMID:Impaired clearance of beta-lipotropin in uremia. 627 Jan 75

Leptin (ob-protein), a previously unknown protein signal, is secreted from adipose tissue, circulates in the blood, probably bound to a family of binding proteins, and acts on central neural networks, that regulate weight and energy homeostasis. Leptin provides a communication link between fat tissue and the brain. Ob protein appears to play a major role in the control of body fat stores through coordinated regulation of feeding behavior, metabolism, autonomic nervous system and body energy balance in rodents, primates and humans. Leptin levels have pulsative and diurnal character. In lean subjects with relatively low adipose tissue, the majority of circulating leptin is in the bound form. On other hand, in obese individuals the majority of leptin circulates in free form presumably bioactive protein, and thus obese subjects are resistant to free leptin. Leptin's resistance is often coupled with insuline resistance postreceptor type. Leptin receptor is product of db genes. Ob-protein receptor belongs to the cytokine superfamily of receptors and has several variants. Leptin-receptor gene is expressed in abundant degree in ovary, uterus, testes, less in hypothalamus, hypophysis, and little in kidney. Leptin stimulates the reproductive endocrine system and may serve as a permissive signal to the reproductive system of normal animals. Ob-gene product, leptin is regulated by feedings patterns and hormones, such as insulin and glucocorticoids. There is assumed that neuropeptide Y (NPY) and melanocyte-stimulating hormone (MSH) and its receptor (MCR) are a critical components of the biological response to leptin levels. MCR in contrast to leptin receptors are coupled with G-transduction system.
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PMID:[Leptin]. 960 42

Agouti-related protein (AGRP) is a naturally occurring antagonist of melanocortin action that is thought to play an important role in the hypothalamic control of feeding behavior. The exact mechanism of AGRP and Agouti protein action has been difficult to examine, in part because of difficulties in producing homogeneous forms of these molecules that can be used for direct binding assays. In this report we describe the application of chemical protein synthesis to the construction of two novel AGRP variants. Examination of the biological activity of the AGRP variants demonstrates that a truncated variant, human AGRP(87-132), a 46-amino acid variant based on the carboxyl-terminal cysteine-rich domain of AGRP, is equipotent to an 111-amino acid variant, mouse [Leu127Pro]AGRP (mature AGRP minus its signal sequence), in its ability to dose dependently inhibit alpha-MSH-generated cAMP generation at the cloned melanocortin receptors. Furthermore, deletion of the amino-terminal portion of the full-length variant did not alter the MCR subtype specificity of AGRP(87-132). Finally, iodination of human AGRP(87-132) provided a useful reagent with which the binding properties of AGRP could be analyzed. In both conventional and photoemulsion binding studies [125I]AGRP(87-132) was observed only to bind to cells expressing melanocortin receptors MC3R, MC4R, and MC5R. These results demonstrate that the residues critical for receptor binding, alpha-MSH inhibition, and melanocortin receptor subtype specificity are all located in the carboxyl terminus of the molecule. Because [Nle4, D-Phe7] (NDP)-MSH displaces the binding of [125I]AGRP(87-132) to MCRs and AGRP(87-132) displaces the binding of [125I]NDP-MSH, we conclude that these molecules bind in a competitive fashion to melanocortin receptors.
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PMID:Characterization of Agouti-related protein binding to melanocortin receptors. 989 20

We have examined the regulation of the orexigenic neurotransmitter, NPY, in hypothalamic slices of rat brain to discover whether the leptin or melanocortin receptor-4 (MCR-4) agonists, which act as satiety signals, can influence the release of this neurotransmitter. Basal and potassium-stimulated NPY release from hypothalamic slices was not significantly altered by the addition of recombinant murine leptin. However, the melanocortin-4 agonists, alpha-MSH and MT-II, significantly inhibited potassium-stimulated NPY release (p < 0.01) without significantly altering basal NPY release. However, the MCR-4 antagonist, agouti-related protein, did not significantly alter either basal or stimulated NPY release. In conclusion, hypothalamic NPY release can be attenuated by MCR-4 agonists, but not by leptin, suggesting that the activation of MCR-4 receptors leading to satiety can also further inhibit food intake through an inhibition of orexigenic NPYergic activity.
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PMID:Regulation of neuropeptide Y release from hypothalamic slices by melanocortin-4 agonists and leptin. 1070 18

POMC (31,000 MW) is localized to the pituitary, brain, skin, and other peripheral sites. The particular enzyme profile present within a cell dictates the nature of the hormonal ligand (melanocortin) synthesized and secreted: melanotropic peptides (alpha-MSH beta-lipotropin, lambda-MSH), corticotropin (ACTH), several endorphins (e.g., met-enkephalin). These POMC-derived peptides mediate their actions through typical seven-spanning membrane receptors (MCRs; MCR1, 2, 3, 4, and 5). A specific melanocortin acting on a specific MCR regulates a particular biological response; for example, alpha-MSH on MCR1 increases melanogenesis within melanocytes, ACTH on MCR2 increases cortisol production within adrenal zona fasciculata cells. Within the brain melanocortins regulate satiety (MCR4) and erectile activity (MCR?). MCRs have been localized by melanocortin macromolecular probes, for example, fluorescent to human epidermal melanocytes and also to keratinocytes, suggesting that systemic melanocortins or localized POMC products might regulate these integumental cellular elements in synchrony to enhance skin pigmentation and/or immunological responses. Superpotent, prolonged acting melanotropic peptides have been synthesized and their application in clinical medicine has been demonstrated. MCR antagonists have been used to discover and further delineate other roles of melanocortin ligands. For example, melanocortin-induced satiety can be antagonized by a melanocortin antagonist. Defects in melanocortin ligand biosynthesis, secretion, and melanocortin receptor function can lead to a diverse number of pathological states.
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PMID:The proopiomelanocortin system. 1081 38

The central melanocortin (MC) system has been demonstrated to act downstream of leptin in the regulation of body weight. The system comprises alpha-MSH, which acts as agonist, and agouti-related protein (AgRP), which acts as antagonist at the MC3 and MC4 receptors (MC3R and MC4R). This property suggests that MCR activity is tightly regulated and that opposing signals are integrated at the receptor level. We here propose another level of regulation within the melanocortin system by showing that the human (h) MC4R displays constitutive activity in vitro as assayed by adenylyl cyclase (AC) activity. Furthermore, human AgRP(83-132) acts as an inverse agonist for the hMC4R since it was able to suppress constitutive activity of the hMC4R both in intact B16/G4F melanoma cells and membrane preparations. The effect of AgRP(83-132) on the hMC4R was blocked by the MC4R ligand SHU9119. Also the hMC3R and the mouse(m)MC5R were shown to be constitutively active. AgRP(83-132) acted as an inverse agonist on the hMC3R but not on the mMC5R. Thus, AgRP is able to regulate MCR activity independently of alpha-MSH. These findings form a basis to further investigate the relevance of constitutive activity of the MC4R and of inverse agonism of AgRP for the regulation of body weight.
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PMID:AgRP(83-132) acts as an inverse agonist on the human-melanocortin-4 receptor. 1114 47

Agouti signaling protein (ASIP), the human (h) homolog of agouti, is an endogenous melanocortin peptide antagonist. To date, characterization of this protein has been performed with recombinant protein only and without the availability of an ASIP/agouti radioligand. In this report we describe the functional characteristics of a chemically synthesized truncated ASIP variant, ASIP-[90-132 (L89Y)], and the binding characteristics of its cognate radioligand, (125)I-ASIP-[90-132 (L89Y)]. Similar to full-length recombinant ASIP/agouti, ASIP-[90-132 (L89Y)] was a potent inhibitor of alpha-melanocyte-stimulating hormone cAMP generation at the cloned human melanocortin receptor (hMCR) subtypes hMC1R and hMC4R. It also displayed a lesser degree of inhibition at the hMC3R and hMC5R. However, ASIP-[90-132 (L89Y)] was found to be less potent than full-length recombinant ASIP and, surprisingly, only exhibited weak inhibitory activity at the hMC2R. In competition binding assays with the radioligand (125)I-ASIP-[90-132 (L89Y)], ASIP-[90-132 (L89Y)] displayed a hierarchy of binding affinity that roughly paralleled its rank order of inhibitory potency at the various MCR subtypes, i.e., hMC1R approximately hMC4R > hMC3R approximately hMC5R > hMC2R. Structure-activity studies revealed that ASIP-[90-132 (L89Y)] possessed greater pharmacological potency than either the further truncated ASIP variants ASIP-(116-132) or cyclo(CRFFRSAC). Interestingly, the latter molecules were both weak agonists at the hMC1R. These studies further support the concept that ASIP/agouti inhibits melanocortin action by directly binding to target MCRs and provide additional insight into the structural requirements for maximal inhibitory potency.
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PMID:Functional properties of an agouti signaling protein variant and characteristics of its cognate radioligand. 1170 73

Treatment for 40 h of reaggregate pituitary cell cultures from 14-day-old female rats with nanomolar concentrations of gamma3-melanocyte-stimulating hormone (MSH) increased prolactin mRNA but not growth hormone (GH) mRNA expression levels as measured by quantitative real-time reverse transcriptase-polymerase chain reaction (RT-PCR). During the 40 h incubation, gamma3-MSH stimulated prolactin accumulation in the culture medium. alpha-MSH, a potent agonist of the rat melanocortin-3 receptor (MC3R) and Ala(8)-gamma2-MSH, a very weak agonist of the MC3R, increased prolactin mRNA expression at a similar concentration range as gamma3-MSH. The effect of gamma3-MSH on prolactin mRNA expression was abolished when aggregates were cultured in the presence of thyroid or glucocorticoid hormones, but not of oestradiol. By contrast, oestradiol abolished the stimulatory effect of Ala(8)-gamma2-MSH on prolactin mRNA expression. In GH3 cells stably transfected with the enhanced green fluorescent protein (eGFP) gene under control of a 3-kb prolactin promoter fragment, a dose as low as 1 nMgamma3-MSH, added for 24 h, significantly increased eGFP fluorescence. Agouti-related protein (AgRP(83-132)), a known endogenous MC3R and MC4R antagonist, did not reduce the stimulation of prolactin mRNA expression by gamma3-MSH or Ala(8)-gamma2-MSH. On its own, AgRP(83-132) significantly increased prolactin mRNA expression level and prolactin accumulation. Both gamma2-MSH and Ala(8)-gamma2-MSH increased [S(35)]GTPgammaS binding in membrane preparations of 14-day-old rat pituitaries and of GH3 cells. Whereas MC3R and MC5R mRNA were detectable by RT-PCR in normal pituitary, these receptor mRNAs were undetectable in GH3 cells using various oligonucleotide primer sets. The present findings indicate that melanocortin peptides stimulate prolactin gene expression and production and that, at least in part, a receptor different from the classic MCR is involved. AgRP appears to have other actions than its known antagonistic activity on the MC3R and MC4R.
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PMID:Melanocortin peptides stimulate prolactin gene expression and prolactin accumulation in rat pituitary aggregate cell cultures. 1527 Oct 62

While there have been many studies in various species examining the mode of central leptin action on food intake, there is however a paucity of data in birds. We have, therefore, addressed this issue in broiler chickens because this strain was selected for high growth rate, hence high food intake. Continuous infusion of recombinant chicken leptin (8 microg/kg/h) during 6 h at a constant rate of 3 ml/h resulted in a significant reduction (49-57%) of food intake in 3-week-old broiler chickens (P < 0.05). The effect of leptin within the central nervous system (CNS) was mediated via selective hypothalamic neuropeptides. Leptin significantly decreased the expression of its receptor (Ob-R), neuropeptide Y (NPY), orexin (ORX), and orexin receptor (ORXR) (P < 0.05), but not that of agouti-related protein (AgRP) (anabolic/orexigenic effectors) in chicken hypothalamus. However, the catabolic/anorexigenic neuropeptides namely proopiomelanocortin (POMC) and corticotropin-releasing hormone (CRH) mRNA levels remained unchanged after leptin treatment. Despite the absence of leptin effect on AgRP (the antagonist of melanocortin receptor MCR) and POMC (the precursor of alpha-melanocyte stimulating hormone which is a potent agonist for MCR), leptin significantly decreased the expression of MCR-4/5 gene in chicken hypothalamus (P < 0.05) suggesting that leptin acts directly (as ligand) or indirectly (via other ligands) on MCRs to regulate food intake in birds. Additionally, leptin down-regulated the expression of fatty acid synthase (FAS) gene in chicken hypothalamus, indicating an additional pathway of leptin action on food intake such as described for FAS inhibitors. These findings provide new insight into the mechanism of leptin control of food intake in chickens.
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PMID:Mode of leptin action in chicken hypothalamus. 1590 12

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