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)

Transplantable mouse melanomas possess a melanotropin-sensitive adenylate cyclase system which is responsive to alpha-melanotropin, beta-melanotropin, adrenocorticotropin (ACTH) and prostaglandin E1. It was found that sensitivity to ACTH was not directed towards the ACTH activity but to the intrinsic melanotropin activity of the ACTH molecule. Therefore, the melanotropin-sensitive adenylate cyclase system is hormonally specific to the intrinsic melanotropin activity of peptide hormones and is unique in the melanoma tissue. The significance of the sensitivity to prostaglandin E1 is obscure at present. The melanotropin-sensitive adenylate cyclase requires the presence of Mg2+ or Mn2+, for its enzymic activity. Ca2+ inhibit the enzyme in the presence of a wide range of concentrations of Mg2+. The enzymic activity is ATP concentration-dependent and the saturation concentration appears to be 1 mM. The enzyme is very labile in the unfractionated tumor homogenates. A washed 11000 X g particulate fraction, representing about 30-60% of the total enzymic activity, was found to be more stable and could be stored at 5 degrees C for 2 h without appreciable loss of the activity. This fraction retained sensitivity to melanotropin, prostaglandin E1 and NaF. About 20% of the activity of the tumor homogenate could not be sedimented by centrifugation at 105000 X g for 60 min. This "soluble" fraction was not responsive to melanotropin, prostaglandin E1 and NaF and might be a degradative product produced by the fractionation. Cyclic AMP and alpha-melanotropin were able to increase the tyrosinase activity of isolated mouse melanoma-cells in vitro under the same conditions.
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PMID:PHrmonal specificity of the melanotropin-sensitive adenylate cyclase of mouse melanoma and effect of cyclic AMP on the tyrosinase activity of mouse melanoma cells, in vitro. 0 31

The interaction of beta-endorphin with opiate receptors was studied by using the radioiodinated, metabolically stable D-Ala2 derivative of human beta-endorphin. This analog binds specifically to rat brain membrane preparations with an apparent Kd of about 2.5 x 10-9 M. The ability of various enkephalin analogs, as well as opiate agonists and antagonists, to inhibit the binding of beta-endorphin clearly demonstrates that this peptide can bind to opiate receptors. However, the effects of various cations on the binding of 125I-[D-Ala2]beta-endorphin are markedly different from those found for enkephalin binding. Sodium ion at physiological concentrations decreases substantially the binding of enkephalins but only slightly decreases endorphin binding, whereas manganese enhances enkephalin binding but has no effect on endorphin binding. Moreover, potassium (100 mM) decreases the binding of beta-endorphin but does not affect enkephalin binding. These results suggest that beta-endorphin and enkephalin bind differently to the same receptor or bind to different receptors with overlapping specificity.
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PMID:Interaction of iodinated human [D-Ala2]beta-endorphin with opitate receptors. 21 69

We studied the effects of psychosocial stress (S) and diazepam (D) on plasma lipids, adrenocorticotropin (ACTH), and corticosterone (B) levels of cockerels fed an atherogenic diet (AD) consisting of 2% cholesterol plus 5% cottonseed oil added to plain mash (PM). Seventy-six eight-week-old DeKalb cockerels were randomly assigned to the following groups: I. PM; II. PM + D; III. PM + S; ;IV. PM + S + D; V. AD; VI. AD + D; VII. AD + S and VIII. AD + S + D. S was induced by housing two birds to a cage and pairing them to a different bird daily. D was administered daily by gavage. Plasma ACTH and B levels were analyzed by RIA. Aortic atherosclerosis was grossly graded on a scale of 0-4 and also by gravimetric planimetry. After 10 weeks: 1. S birds had a significantly higher incidence and severity (p less than 0.04) of aortic atherogenesis and elevated ACTH and B levels (p less than 0.001) compared to unstressed PM groups. 2. AD significantly elevated the plasma levels of cholesterol, triglycerides, and the lipoprotein cholesterol that was precipitated by heparin-manganese (LDL-C + VLDL-C), compared to initial and/or PM levels (p less than 0.001). AD birds had a greater incidence and more severe aortic lesions in comparison to PM groups (p less than 0.002). Plasma hormone levels were significantly lower in birds fed AD alone compared to controls and stressed birds. 3. D significantly reduced the severity of aortic atheroma as well as decreased hormone levels in all treated groups (p less than 0.001). Therefore, we conclude that aortic atherosclerosis in cockerels can be induced by S and/or AD, and D can markedly reduce atherogenesis under these conditions. Since both AD and D decreased plasma ACTH and B levels, the anti-atherogenic action of D in these birds does not seem to directly involve these pituitary-adrenocortical hormones.
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PMID:Effects of diazepam, psychosocial stress and dietary cholesterol on pituitary-adrenocortical hormone levels and experimental atherosclerosis. 185 May 93

Some of the functional effects of beta-endorphin on immune cells are resistant to inhibition by naloxone. To further characterize the beta-[125I]endorphin-binding site mediating these effects and its response to cations and GTP, the human monocyte-like cell line U937 was used. Incubation of intact cells and beta-[125I]endorphin for 60 min at 4 C demonstrated a saturable, high affinity binding site [Kd = 1.2 +/- 0.5 X 10(-8) M (mean +/- SE; n = 4] competed by equimolar beta-endorphin and N-acetyl (Ac)-beta-endorphin but not by naloxone, morphine, or selective opiate receptor agonists. Competition studies showed that beta-endorphin-(6-31) and beta-endorphin-(28-31) were approximately 5- and 100-fold less potent, respectively, whereas beta-endorphin-(1-16) or -(1-27) was ineffective. Covalent cross-linking of beta-[125I]endorphin to intact cells and resolution by gel electrophoresis showed dominant bands at 59K and 44K and a minor band at 66K. The bands at 44K and 66K were completely displaced by increasing equivalent concentrations of beta-endorphin and N-Ac-beta-endorphin. Increasing concentrations of mono (Na+, K+)- and divalent (Ca2+, Mg2+, Mn2+) cations reduced the binding of beta-[125I]endorphin to U937 membrane; beta-[125I]endorphin binding to rat brain membrane showed similar cation sensitivity. GTP gamma-sulfate (GTP gamma S; 10(-4) M) alone reduced binding to U937 membrane by 25%. In the presence of Na+ (100 or 150 mM) or Mg2+ (10 mM), GTP gamma S reduced binding by an additional 50%. Moreover, GTP gamma S (10(-8)-10(-4) M) in the presence of Na+ (100 mM) reduced binding in a dose-dependent manner, whereas GMP was ineffective. In conclusion, beta-endorphin binds to sites on human U937 cells similar to those observed on normal murine splenocytes. Although naloxone insensitive, these sites exhibit properties, such as size, salt sensitivity, and coupling to a GTP-binding protein, that are similar to those observed for agonist binding to brain opiate receptors.
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PMID:Beta-endorphin binding to naloxone-insensitive sites on a human mononuclear cell line (U937): effects of cations and guanosine triphosphate. 216 44

In this study we examined the interaction of opiates with kappa binding sites in the bovine adrenal medulla. [3H]Ethylketocyclazocine (EKC), [3H]etorphine, and [3H]bremazocine stereoselective bindings were used to assay these interactions. The kappa sites were found to be heterogeneous: [3H]bremazocine identified with high affinity all subtypes of these sites. [3H]EKC, in the presence of saturating concentrations of [D-Ala2, D-Leu5]-enkephalin (DADLE) (5 microM), was used to identify kappa 1 sites, on which dynorphin A (1-13) bound with high affinity. Either [3H]EKC or [3H]etorphine in the presence of 5 microM DADLE identified the kappa 2 subtype. This subtype was found to interact with beta-endorphin and especially with the octapeptide Met5-enkephalyl-Arg6-Gly7-Leu8. Furthermore, [3H]etorphine identified in the bovine adrenal medulla a third high-affinity component, in the presence of 5 microM DADLE. This residual interaction was found to be equally stereoselective and presenting kappa selectivity. Met5-enkephalyl-Arg6-Phe7 interacted preferentially with this site. The three kappa subtypes interacted differentially with monovalent (Na+, K+, and Li+) and divalent (Ca2+, Mg2+, and Mn2+) ions by modification of the apparent concentration of the accessible sites and/or by changes of the apparent KD for radioligands. Modifying agents (proteolytic enzymes, thiol-modifying reagents, and A2-phospholipase) produced different effects on each subtype of the kappa site, suggesting a different protein (or protein-lipid?) composition.
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PMID:Interaction of opiates with opioid binding sites in the bovine adrenal medulla: II. Interaction with kappa sites. 299 10

The effects of lithium on the activity of adenylate cyclase stimulated by hormones, which act via the stimulatory guanine nucleotide binding subunit (Ns), by forskolin, which acts at the catalytic subunit, and by guanyl-5'-yl imidodiphosphate (GppNHp), which locks the enzyme into a permanently active state, have been compared in a preparation of membranes from the cerebral cortex of the rat. Lithium ions (Li+) in vitro at 2-4 mM inhibited cyclase stimulated by isoproterenol and forskolin, but had no effect on the inhibition induced by met-enkephalin of the enzyme stimulated by forskolin, mediated by the inhibitory guanine nucleotide binding subunit (Ni). Inhibition of the activity stimulated by forskolin and GppNHp was competitive with magnesium (Mg++). In a preparation of slices of cerebral cortex Li+ at 1-2 mM inhibited accumulation of cyclic AMP stimulated by forskolin in a non-competitive manner. In a preparation of membranes from the caudate nucleus, Li+ at 2-4 mM inhibited dopamine-stimulated adenylate cyclase, but this effect was not observed in the presence of additional sodium (Na+). Membranes prepared from animals fed with Li+ to give a mean serum level of 0.52 mM and a mean brain level of 1.32 mM, showed a reduced response to manganese (Mn++), forskolin, isoproterenol and GppNHp in the cerebral cortex, but no change in the degree of activation of the enzyme by either dopamine or forskolin, or the degree of inhibition by met-enkephalin, in the caudate nucleus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of lithium in vitro and ex vivo on components of the adenylate cyclase system in membranes from the cerebral cortex of the rat. 303 12

To study the relative roles of sodium (Na+) and calcium ions (Ca2+) in the response of adrenal glomerulosa cells, we investigated the effects of different Na+ concentrations in the incubation media and the actions of substances that interfere with Ca2+ fluxes. Basal aldosterone secretion and response to angiotensin II (AII), adrenocorticotropic hormone (ACTH), or potassium (K+) were dependent on extracellular Na+ concentration. Veratridine, a Na+ channel opener that dissipates Na+ gradients, blocked the stimulated steroidogenic response. Mersalyl acid and tetracaine, which are potent Ca2+ antagonists, blocked the effects of aldosterone secretagogues. Divalent cations with Ca2+ antagonistic action such as manganese M(n2+), nickel (Ni2+), and cobalt (Co2+) blocked the aldosterone secretory response to AII, ACTH, and K+. Barium (Ba2+) and strontium (Sr2+), known to mimick Ca2+ effects, increased or did not affect responses of the glomerulosa cells. Sodium vanadate, an inhibitor of ATP-dependent Ca2+ translocation, did not alter the stimulated aldosterone responses. Trifluoperazine (10(-6) M), an inhibitor of calmodulin, blocked AII and K+-induced aldosterone secretion, but was partially effective on ACTH-stimulated aldosterone output only at a concentration of 10(-5) M. The actions of ouabain on aldosterone biosynthesis were similarly affected by all these drugs. Thus, both extracellular Na+ and Ca2+ appear to play a role in the steroidogenic response of isolated glomerulosa cells. The intracellular action of Ca2+ may involve a calmodulin-like protein. The effects of ACTH are only partially dependent on Ca2+ as a second intracellular messenger.
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PMID:Relative roles of sodium and calcium ions in the steroidogenic response of isolated rate adrenal glomerulosa cells. 627 6

The possibility that divalent cations may antagonize opiate peptide analgesia and stress-induced analgesia was examined. Intracerebroventricular injection of low doses of Ca2+, Mn2+ and Mg2+ antagonized beta-endorphin and methionine-enkephalin analgesia. Ba2+ and Cd2+ were without effect. The ionophore, A23187, significantly antagonized beta-endorphin analgesia and the effect was increased when a low dose of Ca2+ was injected at the same time as the ionophore. Ethylene glycol tetraacetic acid (but not ethylenediamine tetraacetic acid) significantly potentiated endorphin analgesia. Stress-induced analgesia, as determined by increased tail-flick latencies following intraperitoneal injection of acetic acid, was effectively antagonized by naloxone, Ca2+ and Mn2+. The frequency of writhing following acetic acid injection was increased by both naloxone and divalent metal ions, again suggesting antagonism of endogenous opiates. These results confirm previous findings indicating that divalent metal ions (and especially Ca2+) may be involved in the actions of opiates.
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PMID:Modification of endorphin/enkephalin analgesia and stress-induced analgesia by divalent cations, a cation chelator and an ionophore. 682 Nov 93

An aminopeptidase with specificity directed toward peptides with acidic N-terminal amino acid residues has been isolated from mouse brain cytosol. Purification by ion-exchange chromatography and gel filtration resulted in an enzyme that hydrolyzed aspartyl-phenylalanine methyl ester at a rate of 13.2 mumols/min/mg protein at pH 7.5, an increase in specific activity of 1000-fold over that of brain homogenate. Its apparent molecular weight, determined by gel filtration, is approximately 450,000. Dipeptides with N-terminal aspartyl residues are cleaved preferentially to glutamic-containing analogs, and a neutral amino acid (or histidine) is necessary in the adjacent position. For peptides of the form aspartyl-X, relative activity was 100, 81, 71, 66, 19, or 0, where X was alanine, serine, leucine, phenylalanine, histidine, or proline, respectively. Tripeptides were more rapidly hydrolyzed than dipeptides; however, activity tended to decline with increasing chain length. The acidic aminopeptidase can account for almost all of the activity of brain cytosol toward the N-terminal aspartyl residue of angiotensin II, aspartyl-phenylalanine methyl ester or aspartyl-alanine, and the N-terminal glutamyl residue of adrenocorticotropin(5-10). The enzyme was unaffected by bestatin or amastatin. It was inhibited by o-phenanthroline and EDTA. The latter effect could be reversed completely by Zn2+ and partially by Mn2+ or Mg2+; Co2+ and Fe2+ had no effect; Ca2+ was inhibitory. These properties distinguish the brain acidic aminopeptidase from aminopeptidase A isolated from human serum or pig kidney and the aspartyl aminopeptidase of dog kidney.
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PMID:An aminopeptidase from mouse brain cytosol that cleaves N-terminal acidic amino acid residues. 685 30

Carotid body glomus cells produce and release acetylcholine (ACh), catecholamines, and neuropeptides, and there is biochemical evidence that these cells possess receptors for these substances. Thus, we studied the effects of cholinergics [ACh, nicotine (Nic), bethanechol (BN)] and peptides [met-enkephalin (ME), substance P (SP)] on the membrane potential (Em), voltage noise (Erms), and input resistance (Ro) of glomus cells. Sliced carotid bodies (for cell visualization) of cats, rabbits, and mice were used. The mean Em and Ro of rabbit glomus cells were lower than those of cat and mouse. Ro of mouse cells was the largest, whereas Erms was similar in all species. The various agents had qualitatively similar effects on the cells of the three species although some quantitative differences were sometimes observed. But, for simplicity, results were pooled. ACh depolarized most cells (effect depressed by zero [Ca2+]o and Mn2+), reduced their resistance, and induced variable changes in Erms. Different ACh doses produced non-linear effects on DeltaEm. Nic and BN also depolarized most cells, reducing Ro and Erms. Atropine depressed the cell responses to BN; alpha-bungarotoxin the depolarizing response to Nic. ME and SP depolarized most cells, but only ME significantly reduced Ro. Neither peptide significantly changed voltage noise. Comparing the effects of all drugs showed that BN was the most effective depolarizing agent, producing the largest reductions in Ro. There were negative correlations between DeltaEm and DeltaRo with the cholinergics and SP; correlations between DeltaErms and DeltaRo were significant and positive only with the cholinergics. These results confirm the presence of nicotinic, muscarinic, and peptidergic receptors in glomus cells. The similar effects of cholinergics and peptides and those of flow interruption and anoxia suggest that the latter may partly act via autoreceptors for the released transmitters.
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PMID:Effects of Putative Neurotransmitters of the Carotid Body on its Own Glomus Cells. 1210 5

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