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)

Hyperinsulinism has been associated with infection and endotoxin shock in rodents, dogs, and humans. In dogs with Escherichia coli-induced endotoxin shock, this hyperinsulinism was in response to glucose administration. To determine the role of endogenous opiates in endotoxin-induced glucose-stimulated hyperinsulinism, plasma beta-endorphin, Met-enkephalin, Leu-enkephalin, insulin, and glucose concentrations were measured for 6 h in fasted, anesthetized dogs given LD70 of E. coli endotoxin; endotoxin and glucose; endotoxin, glucose, and naloxone (an opiate antagonist); glucose and naloxone; or glucose alone. Plasma endogenous opiate immunoreactivity was elevated in dogs that received endotoxin, regardless of the presence of glucose or naloxone. The elevation of plasma Met-enkephalin and beta-endorphin preceded the onset of hyperinsulinism, but the elevation of plasma Leu-enkephalin did not. Plasma insulin was elevated 100-fold by 360 min in dogs given endotoxin and glucose. The magnitude of this hyperinsulinism was markedly reduced by naloxone, supporting the hypothesis that endogenous opiates are involved in the development of the glucose-stimulated hyperinsulinism associated with endotoxin shock. Interestingly, naloxone, given in conjunction with glucose, appeared to have a stimulatory effect on insulin secretion.
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PMID:Involvement of endogenous opiates in glucose-stimulated hyperinsulinism of canine endotoxin shock. Inhibition by naloxone. 295 36

The immunohistochemical distribution of opioid peptides derived from proenkephalin A in the rat pituitary was studied by indirect immunofluorescence; immunoreactive peptides were also characterized by column chromatography followed by specific RIAs. Nerve terminals in the neural lobe were immunoreactive (ir) for Tyr-Gly-Gly-Phe-Met-Arg-Phe (YGGFMRF), Tyr-Gly-Gly-Phe-Met-Arg-Gly-Leu (YGGFMRGL), and met-enkephalin [Tyr-Gly-Gly-Phe-Met (YGGFM)]. All cells in the intermediate lobe were ir for YGGFMRF, while only occasional cells exhibited YGGFMRGL-like immunoreactivity, and YGGFM-ir cells were not detected in this lobe. In the anterior lobe, some large ovoid cells, identified as gonadotrophs, were immunoreactive for enkephalins. The number of YGGFMRF-ir cells was larger than the number of YGGFMRGL- and YGGFM-ir cells, and these opioid peptides were present in cells that did not contain beta-endorphin immunoreactivity. Twenty times more YGGFMRF than YGGFMRGL-immunoreactivity was present in the anterior lobe, whereas the neurointermediate lobe obtained 4 times more ir YGGFMRF than YGGFMRGL. Pituitary lobe extracts contained substantial amounts of high mol wt forms of ir YGGFMRF and YGGFMRGL, but not of YGGFM or Leu-enkephalin (Tyr-Gly-Gly-Phe-Leu). Low mol wt ir peptides present in both lobes consisted largely of the authentic peptides when analyzed by HPLC; however, an unidentified YGGFMRF-ir peptide was also detected. The results indicate that the proenkephalin A molecule may be processed differentially in the various compartments of the pituitary gland and that opioid peptides derived from this precursor may have functional roles in all three lobes. The relatively large amount of YGGFMRF immunoreactivity, which was detected both biochemically and immunohistochemically, indicates that YGGFMRF-ir peptides may be important proenkephalin A-derived products in the pituitary gland.
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PMID:Enkephalins in the rat pituitary gland: immunohistochemical and biochemical observations. 295 13

Ethanol administration has been shown to affect beta-endorphin (beta-E) levels in most brain areas. Chronic ethanol treatment has also lead to changes in the levels of Met- and Leu-enkephalin which may be due to recent finding that enkephalin A activity is significantly altered. To determine if proteolytic enzymes responsible for beta-E metabolism at the pSPM are also altered, we studied the effect of chronic ethanol (7% v/v; 8 days) administration on in vitro central beta-E metabolism in male C57/BL mice. Purified SPM was time-course incubated with beta-E (20 microM) for 30-120 min and subjected to HPLC analyses for determination of beta-endorphin and related fragments. Chronic ethanol significantly reduced the half-life for beta-E at the pSPM (T1/2 = 50/min) versus controls (T1/2 = 100.4 min). Chronic ethanol also caused significant accumulation of the behaviorally active alpha- and gamma-type endorphins formed at the pSPM. These results suggest that chronic ethanol treatment leads to an increase in the activity of peptidases responsible for beta-E metabolism at pSPM leading to an increased formation of both alpha- and gamma-type endorphins which may affect alcohol related behaviors.
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PMID:Ethanol treatment alters beta-endorphin metabolism by purified synaptosomal plasma membranes. 295 86

In segments of rabbit ear arteries preincubated with [3H]noradrenaline, Leu-enkephalin, D-Ala2-D-Leu-enkephalin and ethylketocyclazocine concentration dependently reduced the overflow of tritium and the vasoconstriction elicited by field stimulation (120 pulses every 14 min, 1 Hz, 0.3 msec pulse duration). The effects of Leu-enkephalin and ethylketocyclazocine were antagonized by naloxone which, given alone, increased the evoked overflow of tritium at the high concentration of 10 microM. Morphine failed to produce inhibition, and at 100 microM actually increased evoked 3H-overflow. Continued exposure to Leu-enkephalin desensitized the tissue to this opioid; there was no cross-desensitization to ethylketocyclazocine. In arteries not preincubated with [3H]noradrenaline, normorphine, fentanyl and morphiceptin did not change the vasoconstrictor response (5 pulses every min, 5 Hz, 0.3 msec pulse duration). Among various peptide agonists, Leu-enkephalin, D-Ala2-D-Leu-enkephalin and Met-enkephalin were the most potent inhibitors. In a series of peptides with C-terminal extensions of the Met-enkephalin chain, the potency decreased in the order Met-enkephalin greater than Met-enkephalin-Arg-Gly-Leu greater than Met-enkephalin-Arg-Phe greater than BAM-12P greater than beta-endorphin. In a series of peptides with C-terminal extensions of the Leu-enkephalin chain, the potency decreased in the order Leu-enkephalin greater than dynorphin1-13 greater than dynorphin1-9 greater than alpha-neo-endorphin greater than dynorphin1-8 greater than dynorphin1-6 greater than dynorphin1-17. The delta-selective antagonist ICI 154129 counteracted the effect of Met-enkephalin but not that of dynorphin1-13, whereas naloxone counteracted the effect of either agonist.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Presynaptic opioid receptor subtypes in the rabbit ear artery. 298 15

Rat brain membranes were incubated in N-ethylmaleimide (NEM, 0.5-1.0 mM) in the presence and absence of various concentrations of morphine, Leuenkephalin and human beta-endorphin (beta h-EP). After sufficient washing, the binding of dihydromorphine (DHM), [D-Ala-D-Leu]-enkephalin (DADLE) and tritiated beta h-EP was 10-40% above that of membranes treated with NEM alone. There was no additive effect of morphine and Leu-enkephalin with respect to their effect on recovery of beta h-EP binding. Evaluation of beta h-EP as protecting ligand proved to be difficult since preincubation completely inhibits subsequent DHM and DADLE binding unless a more extensive washing protocol is employed. A protocol for washing beta h-EP preincubated membranes using a Tris-phosphate buffer of pH 6 containing 150 mM NaCl, 20 mM MgCl2 and 10% glycerol was used to recover enough binding potential to evaluate the effects of beta h-EP preincubation towards NEM treatment. Preincubation with beta h-EP itself at 0.1-1.0 microM did not result in any increased recovery of opiate binding, in contrast to the findings with the other two ligands.
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PMID:Beta-endorphin does not protect alkylation of opiate receptor by N-ethylmaleimide. 299 Nov 53

The conversion of BAM-12P to Met-enkephalin and the hydrolysis of the Phe-Met and Phe-Leu bonds of met-enkephalin-Arg-Phe and Leu-enkephalin-Arg-Arg, respectively, by rabbit brain endo-oligopeptidase A were demonstrated. Peptide fragments were isolated by high performance liquid chromatography and identified by amino acid analysis. BAM 22P was not hydrolysed by the enzyme. The concentration dependent inhibition of BAM-12P conversion into Met-enkephalin by bradykinin and vice-versa provided additional evidence that endo-oligopeptidase A cleaves both the Phe5-Ser6 bond in bradykinin and the Met5-Arg6 bond of BAM-12P.
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PMID:Conversion and inactivation of opioid peptides by rabbit brain endo-oligopeptidase A. 299 91

Previous studies have provided evidence for adrenocorticotropic hormone (ACTH) effects on a wide variety of behaviors. However, the precise sites of action and the mechanisms by which these effects may be mediated have yet to be clearly elucidated. Although ACTH was shown to augment cyclic AMP levels in glial cells isolated from whole brain, other studies found little or no effect of ACTH peptides on cyclic nucleotide metabolism in slices of cerebral cortex or homogenates of whole brain. In the present study, our objective was to determine whether ACTH peptides regulate intracellular cyclic AMP levels in neurons of the cerebral cortex in primary culture. ACTH peptides stimulated cyclic AMP synthesis up to threefold in a dose-dependent manner; stimulation was complete within 5-10 min of exposure to agonists. Neurohormone efficacy was augmented by 0.1 microM forskolin (which was virtually ineffective alone); potency was unaffected. The order of potency (EC50) for increasing intracellular cyclic AMP levels was as follows: ACTH (1-24), ACTH (1-17) (10 nM) greater than alpha-melanocyte stimulating hormone, beta-melanocyte stimulating hormone (alpha-MSH, beta-MSH) (100 nM) greater than ACTH (1-10) (1 microM) greater than ACTH (4-10) (5 microM). The hexapeptide ACTH (4-9) as well as ACTH (11-24) were inactive at concentrations as high as 10 microM. Other neuropeptides derived from proopiocortin, such as beta-endorphin and Met- and Leu-enkephalin were without effect on basal or hormonally stimulated cyclic AMP synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Corticotropin-peptide regulation of intracellular cyclic AMP production in cortical neurons in primary culture. 299 15

Steroid hormones modify several brain functions, at least in part by altering expression of particular genes. Of interest are those genes that are involved in cell-cell communication in the brain, for instance neuropeptide genes and genes that code for enzymes involved in synthesis of neurotransmitters. Steroid regulation of mRNA levels for several genes has been reported, including the genes coding for the neuropeptides vasopressin, corticotropin releasing factor, luteinizing hormone-releasing factor, pro-opiomelanocortin; somatostatin, preproenkephalin, and the enzyme tyrosine hydroxylase. Steroid control of releasing factor genes is consistent with classical neuroendocrine concepts of negative feedback. Steroid-induced plasticity of gene expression is sometimes in evidence, with the presence or absence of a particular steroid inducing expression of a neuropeptide gene in neurons that under other conditions do not express the gene. As a means of gaining some insight into the mechanism of action of steroid hormones, several groups have determined some of the neuropeptide profiles of neurons that contain receptors for steroid hormones. Marked heterogeneity is found, in that often only a subpopulation of phenotypically-similar neurons, even within a single brain area, contains receptors for a given steroid.
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PMID:Regulation of neuropeptide gene expression by steroid hormones. 307 66

Changes in brain neuropeptide content in spontaneously hypertensive rats may be primarily related to the development of hypertension or may be secondary consequences of it. We have measured brain concentrations of beta-endorphin, Leu-enkephalin, arginine vasopressin (AVP) and oxytocin (OXT) in stroke-prone spontaneously hypertensive rats (SHRSP) and in age-matched normotensive Wistar Kyoto (WKY) controls, as well as in SHRSP with normalized blood pressure by chronic treatment with clonidine. Opioid peptide contents were measured in 12-, 18- and 24-week-old rats. beta-Endorphin was measured in the neuro-intermediate and anterior lobes of the pituitary, the hypothalamus, mid-brain and brain stem; Leu-enkephalin in the neuro-intermediate lobe of the pituitary, hypothalamus, mid-brain, brain stem, as well as in the spinal cord and adrenal glands. AVP and OXT were measured in the neuro-intermediate lobe of the pituitary, hypothalamus, brain stem and spinal cord. beta-Endorphin in the neuro-intermediate lobe of the pituitary was significantly higher in 12- and 18-week-old SHRSP. Adrenal gland Leu-enkephalin was lower in SHRSP as compared with the WKY. OXT and AVP contents were markedly reduced in all brain regions of SHRSP except the neuro-intermediate lobe of the pituitary, where no significant changes were found. In no case did long-term antihypertensive treatment with clonidine reverse the altered peptide content in the SHRSP. We conclude that alterations in brain neuropeptide content in SHRSP are not secondary to hypertension. The blood pressure lowering activity of clonidine appears not to depend on major alterations of peptide concentrations. A genetic defect in the synthesis of adrenal enkephalins and hypothalamic OXT and AVP seems likely from these studies.
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PMID:Altered neuropeptide concentrations in spontaneously hypertensive rats: cause or consequence? 315 51

A human brain aminopeptidase, which hydrolyses low molecular weight enkephalin-containing peptides (ECPs), was purified to apparent homogeneity from the homogenate of human brain. The enzyme purification involved DEAE-cellulose chromatography and preparative polyacrylamide gel electrophoresis. The purified aminopeptidase hydrolyses only the Tyr1-Gly2 bond of enkephalines and of ECPs. The rate of hydrolysis of Met-enkephalin and Leu-enkephalin was higher than the rate of hydrolysis of ECPs containing 7 to 13 aminoacid residues. Large ECPs such as peptide E and beta-endorphin were not hydrolysed. The molecular weight of this enzyme is about 100,000 daltons, as determined by gel filtration on Sephadex G-200 and by polyacrylamide gel electrophoresis in presence of sodium dodecyl sulfate. The enzyme has an isoelectric point of pH 4.9, is activated by dithiothreitol (DTT) and inhibited by puromycin, bacitracin, p-mercuryacetate, Zn++, Cu++ and Ni++. The optimum pH for enzyme activity is 7.5.
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PMID:Isolation and characterization of human brain aminopeptidase which hydrolysis enkephalin-containing peptides. 318 70

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