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 release of free [3H]arachidonic acid and its metabolites (AAM) from mouse embryo cortical neurones cultured in serum-free medium stimulated by beta-endorphin C-terminal dipeptide (glycl-L-glutamine, Gly-Gln) was investigated. Gly-Gln but not the related dipeptide, glycyl-glutamic acid, caused a 2-fold elevation of AAM release which was blocked in the absence of extracellular calcium, in the presence of 5 mM magnesium and by the phospholipase A2 (PLA2) inhibitor, mepacrine. Other proopiomelanocortin (POMC) peptides did not elicit AAM release. The response to Gly-Gln was unaffected by D-amino-2-phospho-5-valeric acid (AP5) and 7-chlorokynurenic acid (7-ClKY), antagonists respectively at the ligand and allosteric glycine binding sites of the NMDA glutamate receptor subtype. However, it was inhibited in a dose-dependent manner by antagonists at the phencyclidine (PCP) and sigma sites. The results suggest that Gly-Gln causes AAM release by activating PLA2 through the mediation of a PCP/sigma-like receptor.
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PMID:Beta-endorphin C-terminal peptide evokes arachidonic acid release from cortical neurones. 190 34

In AtT-20 cells somatostatin inhibits the secretion of adrenocorticotropic hormone (ACTH) through the activation of GTP binding proteins (G proteins) linked to second messengers such as calcium and cyclic AMP (cAMP). Recently, it has been proposed that there may be G proteins that regulate directly the exocytotic machinery. We have investigated whether somatostatin could inhibit secretion at a step distal to second messengers through a GTP binding protein. For these studies two experimental paradigms were used: (1) intact cells stimulated by calcium ionophores and (2) digitonin-permeabilized cells exposed to buffers of increasing Ca2+ concentrations. Somatostatin inhibited by 70% the ACTH release caused by the calcium ionophore ionomycin without modifying the ionophore-induced elevation in cytosolic [Ca2+]. This effect was cAMP independent because (1) it was observed in the presence of high concentrations of membrane-permeant cAMP analogues, and (2) it was not accompanied by a change in cAMP levels. The effect was also independent of the levels of activators of protein kinase C because it could be produced in the presence of high concentrations of phorbol esters. The action of somatostatin was prevented by pertussis toxin. In digitonin-permeabilized AtT-20 cells somatostatin inhibited release induced by calcium buffers in a GTP-dependent manner. These two observations indicate the involvement of a G protein. It is proposed that a G protein coupled to somatostatin receptors inhibits the intracellular machinery of secretion at a step distal to second messengers, perhaps at the exocytotic site.
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PMID:Evidence that receptor-linked G protein inhibits exocytosis by a post-second-messenger mechanism in AtT-20 cells. 196 44

We have previously shown that procaine and lidocaine stimulate corticotropin-releasing hormone (CRH) secretion by explanted rat hypothalami. This effect was of interest in light of the fact that both lidocaine and CRH administration to experimental animals can produce kindled seizures which cross-sensitize with electrically kindled seizures, and of recent data suggesting that limbic hyperexcitability, perhaps mediated through CRH, may be involved in the pathophysiology of affective illness. Because a prominent effect of the local anesthetics is to decrease neuronal firing by blocking sodium conductance, we were surprised by the capacity of these agents to cause CRH secretion and pituitary-adrenal activation and wished to further elucidate the possible mechanism(s) of these effects. To accomplish this, we first explored the effect of the sodium channel blocker tetrodotoxin (TTX) on basal and stimulated immunoreactive CRH (iCRH) secretion by explanted rat hypothalami. In contrast to procaine and lidocaine, TTX inhibited rather than stimulated iCRH secretion. Moreover, TTX inhibited lidocaine-induced iCRH secretion but had no influence on the response of the CRH neuron to procaine. To explore other potential mechanisms of action, we examined the effect of the calcium channels blocker verapamil and of pharmacologic antagonists to serotonergic, alpha-adrenergic and cholinergic receptors. The latter was particularly of interest because of structural similarities between procaine or lidocaine and acetylcholine (ACh) and because it has been shown that these anesthetic agents interact with the ACh receptor. Verapamil and blockade of serotonergic, alpha-adrenergic and cholinergic receptors did not inhibit the effects of procaine or lidocaine on iCRH secretion, whereas both GABA and dexamethasone exerted inhibitory effects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Procaine and lidocaine stimulate corticotropin-releasing hormone secretion by explanted rat hypothalami through a sodium conductance-independent mechanism. 196 16

The effect of calcium and magnesium supplementation and the role of opioidergic system was examined in deoxycorticosterone acetate (DOCA)-salt hypertensive rats. The rats were divided into four groups receiving standard laboratory rat diet (control group; n = 9); a calcium-rich diet with 2% CaCl2 added (Ca-group; n = 12); a magnesium-rich diet with 0.5% MgO added (Mg-group; n = 11); and a calcium and magnesium-rich diet with 2% CaCl2 and 0.5% MgO added (Ca/Mg-group; n = 11); each diet contained 7% NaCl. After four weeks on these diets, the rats were decapitated and blood was obtained for the measurement of plasma electrolytes, intraerythrocyte sodium, potassium and magnesium content (RBC-Na, -K, in mEq/L cells and RBC-Mg, in mg/dL cells) and plasma beta-endorphin concentration (beta-END, in pg/mL). In the control group, systolic blood pressure and RBC-Na were obviously higher than in the other groups. Plasma beta-endorphin concentration was 45.1 +/- 13.4 in the control group, 70.7 +/- 17.4 in the Ca-group (P less than .05 v control group), 58.0 +/- 20.1 in the Mg-group and 83.8 +/- 24.8 in the Ca/Mg-group (P less than .01 v control group). The blood pressure correlated significantly with both RBC-Na (r = 0.416, P less than .01) and beta-END (r = 0.436, P less than .005). A negative correlation was also observed between RBC-Na and beta-END (r = 0.437, P less than .005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of Ca and Mg supplementation and the role of the opioidergic system on the development of DOCA-salt hypertension. 200 1

HP-1 is a 30-residue cysteine- and arginine-rich peptide of the human neutrophil primary granule and is the most abundant human representative of the family of peptides variously called defensins and corticostatins. Peptides belonging to this family have many biological activities including the non-oxidative destruction of ingested microorganisms, the inhibition of adrenocorticotropin-stimulated synthesis of glucocorticoids, monocyte chemotaxis, the non-cytolytic inhibition of [3H]thymidine incorporation in HL-60 promyelocyte-like cells and the stimulation of nifedipine-sensitive calcium channels. Using a combination of reversed-phase and size-exclusion high performance liquid chromatography and an HP-1 radio-immunoassay, three immunoreactive peptides were detected and isolated from the promyelocyte-like cell line, HL-60, and from leukocytes of patients with chronic myelogenous and chronic lymphocytic leukemias. One of these peptides was HP-1 itself. A second was identified by gas-phase Edman microsequencing as an amino-terminally extended fragment of the HP-1 precursor which we call HP1-56. The third is likely to arise from enzymatic cleavage of the precursor at a dibasic site. Of the leukemic cells the greatest amount of HP1-56 relative to HP-1 was found in cells from a patient in myeloblastic crisis but overall the richest source of HP1-56 relative to HP-1 was found to be in fetal lung tissue. HP1-56 is difficult to detect in normal peripheral neutrophils and its presence in cells that are actively biosynthesizing primary granule components such as HL-60 may make it useful for studying the biosynthesis of granule polypeptides, their ontogeny, and possibly as a marker protein for leukemic diseases.
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PMID:The isolation and identification of multiple forms of the neutrophil granule peptides from human leukemic cells. 201 82

In the hematopoietic system a pluripotent stem cell generates precursors for lymphoid and myeloid lineages. Proenkephalin-derived peptides were previously detected in differentiated lymphoid cells. We have studied whether the proenkephalin system is expressed in a typical differentiated cell of the myeloid lineage, the neutrophil. Human peripheral polymorphonuclear cells contain and release proenkephalin-derived peptides. The opioid portion of proenkephalin (met-enkephalin-containing peptides) was incompletely processed, resulting in the absence of low molecular weight products. The nonopioid synenkephalin (proenkephalin 1-70) molecule was completely processed to a 1.0-kD peptide derived from the COOH-terminal. This molecule was characterized in neutrophils by biochemical and immunocytochemical methods. The chemotactic peptide FMLP and the calcium ionophore A23187 induced the release of the proenkephalin-derived peptides, and this effect was potentiated by cytochalasin B. The materials secreted were similar to those present in the cell, although in the supernatant a higher proportion corresponded to more processed products. The 1.0-kD peptide was detected in human, bovine, and rat neutrophils, but the chromatographic pattern of synenkephalin-derived peptides suggests a differential posttranslational processing among species. These findings demonstrate the existence of the proenkephalin system in human neutrophils and the production and release of a novel 1.0-kD peptide derived from the synenkephalin molecule. The presence of opioid peptides in neutrophils suggests their participation in the inflammatory process, including a local analgesic effect.
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PMID:Proenkephalin system in human polymorphonuclear cells. Production and release of a novel 1.0-kD peptide derived from synenkephalin. 211 23

To determine the neurosecretory activity of hypothalamic beta-endorphin (beta EP)-containing neurons, rat fetal hypothalamic cells were mechanically dispersed and maintained in primary cultures for periods up to 24 days; their electrophysiological properties and regulation by depolarization, calcium and sodium channel-active agents were studied. Under culture conditions, the majority of the cells were immunopositive to neurofilament antibody, and a significant number (7-10%) were reactive to beta EP antibody. Cultured cells were often electrically excitable and possessed voltage-activated ionic conductances. In culture, there was a progressive increase in immunoreactive beta EP (IR-beta EP) in both cells and media, reaching maximum values at 12-16 days. The majority of IR-beta EP in both cells and media corresponded to [125I]beta EP on gel chromatography and was similar to the form previously found in the hypothalamus. These findings suggest viability of the beta EP neurons and continuing synthesis of IR-beta EP during the culture period. To evaluate the influence of membrane depolarization on IR-beta EP release, the cells were challenged with 56 mM potassium. This treatment induced a significant increase in medium IR-beta EP. The depolarization-induced IR-beta EP release was dependent upon calcium, since a calcium channel blocker, verapamil (0.1 microM), prevented the release; also a calcium ionophore, A23187 (1 microM), stimulated IR-beta EP release in the cultures. Activation of the sodium channel by veratridine (100 microM) also increased the medium content of IR-beta EP, and this effect was blocked by tetrodotoxin (1 microM). These results suggest that the beta EP neurons in primary culture respond to the well defined physiological challenges and that the culture system can be used in determining the regulation of hypothalamic beta EP activity.
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PMID:Characterization of the neurosecretory activity of hypothalamic beta-endorphin-containing neurons in primary culture. 213 25

To characterize the effect of beta-endorphin on T-lymphocyte activation, we examined its influence on membrane currents, intracellular calcium flux, and c-myc mRNA levels during mitogenic stimulation of Jurkat cells. While beta-endorphin weakly enhanced voltage-activated K+ currents of Jurkat cells by itself, it suppressed these currents in the presence of mitogen. Naloxone, by itself, also enhanced K+ current amplitude, but in the presence of mitogen partially reversed the suppressive effect of beta-endorphin. A 5-30 min exposure to beta-endorphin resulted in an increase in the rate of mitogen-stimulated intracellular calcium release and an increase in c-myc mRNA levels relative to controls. Longer exposure (1-2 h) to beta-endorphin retarded intracellular calcium release, and suppressed c-myc expression. The suppressive effects were reversed by naloxone and mimicked by the K+ channel blocker, tetraethylammonium ion. These data suggest that opiate receptors and K+ channels of Jurkat cells are functionally coupled in a way that modulates intracellular calcium release and c-myc expression - two key processes in T-cell mitogenesis.
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PMID:Beta-endorphin modulates T-cell intracellular calcium flux and c-myc expression via a potassium channel. 213 66

Adrenocorticotropin (ACTH), an opiomelanocortin peptide, is secreted from anterior pituitary corticotrophs upon stimulation with corticotropin-releasing hormone (CRH), arginine vasopressin (AVP) and several other neuropeptides. CRH, the most potent secretagogue of ACTH, stimulates ACTH secretion and biosynthesis by increasing the production of cyclic adenosine 3',5'-monophosphate (cAMP) within corticotrophs. AVP, which is a weak secretagogue of ACTH but strongly potentiates CRH-stimulated ACTH secretion, operates through the phosphatidylinositol (PI) transduction pathway. Both CRH and AVP increase cytosolic free [Ca2+] within normal corticotrophs indicating a role for Ca2+ in ACTH secretion. Glucocorticoids inhibit ACTH synthesis by suppressing transcription of the proopiomelanocortin (POMC) gene and attenuate ACTH release by decreasing cAMP accumulation stimulated by CRH. This review focuses on the roles of these intracellular messengers in ACTH secretion from normal anterior pituitary cells in vitro, and discusses the possible interactions between the cAMP, calcium and PI transduction pathways. Future areas of research are suggested such as identification of protein substrates of cAMP-dependent and Ca2(+)-dependent kinases within normal corticotrophs and evaluation of their role in ACTH biosynthesis and secretion.
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PMID:The role of intracellular messengers in adrenocorticotropin secretion in vitro. 215 70

The adrenal cortisol response to corticotropin appears to involve both calcium and cyclic adenosine 3',5'-monophosphate (cAMP) as intracellular mediators. In 10 healthy male volunteers, the short-term administration of theophylline, which affects both intracellular calcium and cAMP, lowered basal cortisol levels but augmented the in vivo cortisol response to short-term corticotropin stimulation. Short-term administration of nifedipine, a calcium channel antagonist, had no effect on basal or peak cortisol levels but reduced the incremental cortisol response to corticotropin. The effects of both theophylline and nifedipine, although statistically significant, were modest and of questionable clinical significance but should be considered in the interpretation of the clinical corticotropin stimulation test. They may also provide some insight into the post-receptor actions of corticotropin.
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PMID:The effects of theophylline and nifedipine on corticotropin-stimulated cortisol secretion. 215 6

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