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)

Both urocortin (UCN) and corticotropin-releasing hormone (CRH) are known to stimulate secretion of adrenocorticotropic hormone (ACTH) by corticotroph cells via type-1 corticotropin-releasing hormone receptor (CRHR-1). We extensively examined UCN effects on the anterior pituitary (AP), particularly on proopiomelanocortin (POMC) mRNA and CRHR-1 mRNA as well as ACTH secretion in vivo. Moreover, signal transduction with UCN exposure was assessed in AP cell cultures in comparison with transduction following CRH exposure. Intravenously administered of UCN (5 microg/kg) increased ACTH and corticosterone secretion. Similarly, intravenous administration of UCN increased POMC mRNA and decreased CRHR-1 mRNA in the AP. These UCN effects were more potent and long-lasting than those of CRH. The prominent effect of UCN on ACTH secretion in vivo was confirmed in AP cell cultures, where application of UCN stimulated ACTH release approximately 7 times more strongly than CRH. The effect of UCN on ACTH release was enhanced by phorbol esters which activate protein kinase C, but was reduced by the selective cAMP-dependent protein kinase inhibitor, H-89. These results suggest that, as with CRH, UCN stimulates ACTH production and/or release through cAMP-dependent mechanisms, and that protein kinase C-dependent mechanism has a synergistic effect upon UCN-induced ACTH release. The more potent effects of UCN relative to CRH may be attributable to UCN's higher affinity for CRHR-1.
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PMID:Effect of urocortin on ACTH secretion from rat anterior pituitary in vitro and in vivo: comparison with corticotropin-releasing hormone. 973 15

In the rat, high-dose corticosterone (Cort) administration, the hypercortisolism of starvation, and adrenalectomy are all associated with decreased food intake and weight loss. We report here a study of the effects of high-dose Cort administration, starvation, and adrenalectomy on two peripheral hormones known to influence food intake and energy use, insulin and leptin. We also studied the impact of these interventions on the levels of type 2 corticotropin-releasing hormone receptor (CRHR-2) mRNA in the hypothalamic paraventricular nucleus (PVN) and ventromedial hypothalamus (VMH). The VMH is classically referred to as the satiety center because electrical stimulation of the VMH leads to inhibition of food intake, whereas CRHR-2 are thought to transduce the profound anorexogenic effects of CRH or its related peptide urocortin. Starvation and adrenalectomy each lowered plasma insulin and leptin levels and were associated with decrements in CRHR-2 mRNA levels in the VMH. Cort administration increased plasma leptin levels profoundly, as well as plasma insulin levels and the levels of VMH CRHR-2 mRNA. Under all experimental conditions, a positive correlation was seen between plasma leptin levels and VMH CRHR-2 mRNA. These data suggest that decreased food intake and weight loss after high-dose Cort administration at least partially depend on the profound impact of Cort on plasma leptin secretion in the rat; they suggest, moreover, an additional mechanism for the satiety-inducing effects of leptin, namely increasing CRHR-2 in the VMH. The concordance of a fall in plasma insulin and leptin levels with the fall in VMH CRHR-2 mRNA levels further supports the idea that compensatory responses during starvation and adrenalectomy include not only the disinhibiting effects of reduced insulin and leptin levels on appetite through already-described mechanisms but also via an effect of leptin on VMH CRHR-2. Neither Cort administration, starvation, nor adrenalectomy influenced the levels of CRHR-2 mRNA in the PVN, suggesting that these receptors are differentially regulated in different hypothalamic regions.
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PMID:Altered expression of type 2 CRH receptor mRNA in the VMH by glucocorticoids and starvation. 975 44

Corticotropin releasing factor (CRF) induces a rapid, within seconds, and dose-dependent increase in the intracellular Ca2+ in both human and hamster melanoma cells. This effect is inhibited by depletion of extracellular calcium using 3 mM EGTA and is attenuated by the CRF receptor antagonist, alpha-helical-CRF(9-41). Other peptides of the CRF superfamily, sauvagine and urocortin, also induce increases in cytoplasmic calcium concentration but at higher concentrations than CRF. We conclude that malignant melanocytes express CRF receptors, which are coupled to activation of plasma membrane calcium channels.
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PMID:Effect of CRF and related peptides on calcium signaling in human and rodent melanoma cells. 976 5

The regulation of body fat stores is a problem of energy and nutrient balance that can be most readily viewed as a feedback system. Several elements are involved in any feedback system, including afferent signals, a controller that senses the afferent signals and transduces their information and then activates efferent controls that regulate the controlled system. The recent discovery of leptin has provided a major missing link in the feedback control system. This afferent signal is produced exclusively in fat cells of nonpregnant mammals but can be produced in the placenta as well. This circulating peptide has a very strong relationship to the level of body fat and its absence experimentally and clinically produces massive obesity. In the controller, or brain, several anatomic regions play a central role in regulating fat stores. Damage to the ventromedial nucleus (VMH) or the paraventricular nucleus (PVN) in the hypothalamus produces massive obesity in mammals and birds. Injury to the central nucleus of the amygala will also produce obesity. In contrast, damage to the lateral hypothalamus reduces body fat. The syndrome of leptin deficiency or defects in the leptin receptors produce a massive obesity that is metabolically similar to the VMH or PVN lesion syndromes of obesity, suggesting that leptin may have its metabolic effects through these medial hypothalamic centers. Support for this idea has come from studies showing that damage to the PVN or VMH will block the effects of leptin. A number of neuropeptides and monoamines are involved with modulating of food intake and fat stores. Both serotonin, acting through 5-HT2C receptors, and norepinephrine, acting through beta 2 and/or beta 3 receptors, reduce food intake. A variety of peptides also influence food intake and body fat. Neuropeptide Y, dynorphin, galanin, and melanocyte-stimulating hormone all increase food intake. In contrast, a large number of peptides--including cholecystokinin, corticotrophin-releasing hormone/urocortin, enterostatin, insulin, leptin, alpha-MSH, and TRH--reduce food intake. Chronic administration of neuropeptide Y, acting through Y-5 receptors, can produce chronically increased food intake and obesity. This syndrome is similar to the VMH syndrome and suggests that NPY must be acting as an inhibitor of a feeding system. The melanocortin receptor system may be particularly important because a mouse that does not express MC4 receptors is massively overweight. These central systems modulate food intake and fat stores by the controlled system. Glucocorticoids from the adrenal gland are important in obesity, since adrenalectomy will reverse or prevent the development of all forms of obesity. The sympathetic nervous system is also important because low sympathetic activity is associated with experimental and clinical obesity. The reciprocal relationship between food intake and sympathetic activity has been a robust relationship, suggesting that beta receptors in the periphery or brain may be involved in feeding control. In one model of dietary obesity resulting when animals eat a high-fat diet, the syndrome is blocked by inhibitory adrenal steroid activity. These animals show a lower level of sympathetic activity and a low level of brain serotonin. Finally, they show an enhanced sensitivity to essential fatty acids when these are applied to the tongue or given into the gut. In this chapter, the control of energy stores as fat is viewed as a feedback system. Leptin is perceived as a key afferent signal and glucocorticoids and the sympathetic nervous system through beta receptors as essential elements of this control system.
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PMID:The MONA LISA hypothesis in the time of leptin. 976 5

The activities of corticotropin-releasing hormone (CRH)-related peptides and several analogs were examined in cells transfected with either CRH1 or CRH2beta receptors, in suppression of heat-induced rat paw edema in pentobarbital-anesthetised animals and in stimulation of release of immunoreactive corticotropin (ir-ACTH) from rat anterior pituitary tissue in vitro. The peptides tested were human/rat (h/r)-CRH, r-urocortin, h-urocortin, white sucker fish or maggy sole urotensin I and some analogs of these peptides substituted with D-amino acids at residues 4 (urocortin), 5 (CRH and urotensin I) and 20 (CRH). In cells transfected with CRH1 receptors, these peptides were similar in potency in stimulation of cAMP accumulation. By contrast, at CRH2beta receptors peptides of the urocortin and urotensin series were more potent than h/r-CRH while [D-Glu20]-h/r-CRH was 6.5-fold less active than h/r-CRH. I.v. administration of h/r-CRH or related peptides 10 min prior to a thermal stimulus produced a significant dose-dependent inhibition of rat paw edema formation. Comparison of the ED50's showed that urocortins ([D-Ser4]-h-urocortin, h-urocortin, [D-Pro4]-r-urocortin, r-urocortin) were approximately 2 to 3 times more active than h/r-CRH, but [D-Glu20]-h/r-CRH was 18.5-fold less active. In the assay for ir-ACTH release, the activity of h/r-CRH and [D-Glu20]-h/r-CRH was similar but [D-Pro5]-h/r-CRH and [D-Pro4]-r-urocortin was less potent than the native peptide. These results provide further evidence that D-amino acid substitution at residue 20 reduces the potency of h/r-CRH at endogenous (anti-edema effect) and transfected (cAMP accumulation) CRH2beta receptors whilst activity at the CRH1 receptor is retained (ACTH-release and cAMP accumulation). On the other hand substitutions at residues 4 or 5 in r-urocortin or h/r-CRH respectively appear to decrease activity at CRH1 but not CRH2beta receptors The modified CRH and urocortin analogs described here may provide clues for the further design of receptor selective ligands.
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PMID:D-amino acid-substituted analogs of corticotropin-releasing hormone (CRH) and urocortin with selective agonist activity at CRH1 and CRH2beta receptors. 978 68

Urocortin, a new corticotropin-releasing factor (CRF)-related peptide, has been reported to have the ability to bind to CRF receptors and to stimulate adrenocorticotropin (ACTH) secretion from the rat anterior pituitary in vivo and in vitro. In this study, we examined the effect of intravenous administration of urocortin-antiserum to investigate the role of endogenous urocortin on ACTH secretion from rat anterior pituitary after adrenalectomy. Male Sprague-Dawley rats, which were maintained in a conscious and undisturbed condition, were administered non-immunized rabbit serum (NRS), CRF-antiserum or urocortin-antiserum at a volume of 1 ml/kg b.w. 15 min before the injection of secretagogues. Synthetic rat urocortin (2 microg/kg B.W.) increased plasma ACTH concentrations by about sixfold the basal concentration. The pretreatment with urocortin-antiserum but not CRF-antiserum abolished the urocortin-induced increase in plasma ACTH concentrations. In adrenalectomized rats, plasma ACTH concentrations were markedly increased at basal conditions, and rapidly reduced after the administration of CRF-antiserum. By contrast, administration of urocortin-antiserum did not alter ACTH secretion induced by adrenalectomy. Our results suggest that endogenous urocortin is unlikely to be involved in ACTH release in adrenalectomized rats.
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PMID:Corticotropin-releasing factor but not urocortin is involved in adrenalectomy-induced adrenocorticotropin release. 991 31

Urocortin (Ucn) is related to corticotropin-releasing hormone (CRH), and both are released in the brain under stress where they stimulate CRH 1 and 2 receptors (CRHR). Outside the brain, they may have proinflammatory actions through activation of mast cells, which are located perivascularly close to nerve endings and degranulate in response to acute psychological stress. Here, we report that a concentration of intradermal Ucn as low as 10 nM induced dose-dependent rat skin mast cell degranulation and increased vascular permeability. This effect appeared to be equipotent to that of calcitonin gene-related peptide and neurotensin. Ucn-induced skin vasodilation was inhibited by pretreatment with the mast cell stabilizer disodium cromoglycate (cromolyn) and was absent in the mast cell-deficient W/Wv mice. The selective nonpeptide CRH receptor 1 antagonist, antalarmin and the nonselective peptide antagonist astressin both reduced vascular permeability triggered by Ucn but not that by Substance P or histamine. In contrast, the peptide antagonist alpha-helical CRH-(9-41) reduced the effect of all three. The vasodilatory effect of Ucn was largely inhibited by pretreatment with H1 receptor antagonists, suggesting that histamine is the major mediator involved in vitro. Neuropeptide depletion of sensory neurons, treatment with the ganglionic blocker hexamethonium, or in situ skin infiltration with the local anesthetic lidocaine did not affect Ucn-induced vascular permeability, indicating that its in situ effect was not mediated through the peripheral nervous system. These results indicate that Ucn is one of the most potent triggers of rat mast cell degranulation and skin vascular permeability. This effect of Ucn may explain stress-induced disorders, such as atopic dermatitis or psoriasis, and may lead to new forms of treatment.
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PMID:Potent mast cell degranulation and vascular permeability triggered by urocortin through activation of corticotropin-releasing hormone receptors. 1002 77

Urocortin, a newly isolated 40-amino-acid mammalian peptide homologous to corticotropin-releasing hormone (CRH), activates both CRH type 1 and 2 receptors, but may be an endogenous ligand for CRH receptor type 2. Urocortin given systemically inhibited heat-induced paw edema in the rat, and was therefore ascribed anti-inflammatory properties. We examined the effects of urocortin in the carrageenin-induced subcutaneous inflammation model. Rats were treated with urocortin 200 (n = 6) or 20 nmol/kg (n = 6); inflammatory exudates were reduced by approximately 30% compared to controls (n = 7) at both doses. However, since subcutaneous urocortin has been shown to reduce arterial blood pressure, we tested the hypothesis that its antiedema and antiextravasatory effects were secondary to arterial hypotension. Therefore, we examined the parallel effects of urocortin- and hydralazine-induced hypotension on acute inflammation induced by carrageenin in the rat. Rats were treated with subcutaneous carrageenin and control injections (n = 8), carrageenin and urocortin (20 nmol/kg, n = 9), or carrageenin and intraperitoneal hydralazine (10 mg/kg, n = 8). Mean arterial blood pressure was measured hourly for 7 h in 12 animals, and after 2 h, the nadir of treatment, in a further 13 animals. Rats were then sacrificed, and the inflammatory exudate volume and leukocyte count were measured. Mean exudate volumes were reduced from 4.8 +/- 0.5 ml (controls) to 2.4 +/- 0.3 ml (p = 0.004) and 2.9 +/- 0.6 ml (p = 0.007) in urocortin- and hydralazine-treated animals, respectively. Urocortin and hydralazine both produced a significant fall in blood pressure compared to controls, with mean arterial pressure 2 h after carrageenin injection falling to 51.0 +/- 4.1 (p < 0.001) and 34.6 +/- 4.6 (p < 0.001) vs. 92.9 +/- 3.7 mm Hg in controls, respectively. A significant positive correlation was noted between blood pressure and inflammatory exudate volume (r = 0. 52, p = 0.007). As both hydralazine and urocortin lowered blood pressure and inflammatory exudate volume, we suggest that the anti-inflammatory effects of urocortin and related neuropeptides may be nonspecific, acting through hypotension rather than through direct anti-inflammatory mechanisms. The use of inflammatory models which rely on extravasation may be inappropriate for the study of substances that produce hypotension.
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PMID:Urocortin and inflammation: confounding effects of hypotension on measures of inflammation. 1021 16

Corticotropin releasing factor (CRF) receptors belong to the super-family of G protein-coupled receptors. These receptors are classified into two subtypes (CRF1 and CRF2). Both receptors are positively coupled to adenylyl cyclase but they have a distinct pharmacology and distribution in brain. Two isoforms belonging to the CRF2 subtype receptors, CRF2alpha and CRF2beta, have been identified in rat and man. The neuropeptides CRF and urocortin mediate their actions through this CRF G protein-coupled receptor family. In this report, we describe the pharmacological characterization of the recently identified hCRF2, receptor. We have used radioligand binding with [125I]-tyr0-sauvagine and a gene expression assay in which the firefly luciferase gene expression is under the control of cAMP responsive elements. Association kinetics of [125I]-tyr0-sauvagine binding to the hCRF2beta receptor were monophasic while dissociation kinetics were biphasic, in agreement with the kinetics results obtained with the hCRF2alpha receptor. Saturation binding analysis revealed two affinity states in HEK 293 cells with binding parameters in accord with those determined kinetically and with parameters obtained with the hCRF2alpha receptor. A non-hydrolysable GTP analog, Gpp(NH)p, reduced the high affinity binding of [125I]-tyr0-sauvagine to both hCRF2 receptor isoforms in a similar manner. The rank order of potency of CRF agonist peptides in competition experiments was identical for both hCRF2 isoforms (urocortin > sauvagine > urotensin 1 > r/hCRF > alpha-helical CRF(9-41) > oCRF). Similarly, agonist potency was similar for the two isoforms when studied using the luciferase gene reporter system. The peptide antagonist alpha-helical CRF(9-41) exhibited a non-competitive antagonism of urocortin-stimulated luciferase expression with both hCRF2 receptor isoforms. Taken together, these results indicate that the pharmacological profiles of the CRF2 splice variants are identical. This indicates that the region of the N-terminus that varies between the receptors is probably not important in the binding of peptide CRF receptor ligands or functional activation of the receptor.
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PMID:Human CRF2 alpha and beta splice variants: pharmacological characterization using radioligand binding and a luciferase gene expression assay. 1021 82

Corticotropin-releasing hormone (CRH) is a central regulator of the hormonal stress response, causing stimulation of corticotropin and glucocorticoid secretion. CRH is also widely believed to mediate stress-induced behaviors, implying a broader, integrative role for the hormone in the psychological stress response. Mice lacking the CRH gene exhibit normal stress-induced behavior that is specifically blocked by a CRH type 1 receptor antagonist. The other known mammalian ligand for CRH receptors is urocortin. Normal and CRH-deficient mice have an identical distribution of urocortin mRNA, which is confined to the region of the Edinger-Westphal nucleus, and is absent from regions known to mediate stress-related behaviors. Since the Edinger-Westphal nucleus is not known to project to any brain regions believed to play a role in anxiety-like behavior, an entirely different pathway must be postulated for urocortin in the Edinger-Westphal nucleus to mediate these behaviors in CRH-deficient mice. Alternatively, an unidentified CRH-like molecule other than CRH or urocortin, acting through the CRH receptors in brain regions believed to mediate stress-induced behaviors, may mediate the behavioral response to stress, either alone or in concert with CRH.
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PMID:Stress-induced behaviors require the corticotropin-releasing hormone (CRH) receptor, but not CRH. 1039 86

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