Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reaction of human beta-endorphin and biotinyl N-hydroxysuccinimide with or without spacer arm, afforded a series of products that were separated by high performance liquid chromatography (HPLC). Liquid secondary ion mass spectrometry of the biotinylated products and their tryptic digests produced abundant protonated molecular ions (MH+), which specified the number and location of biotinylation. Between 1 and 4 biotinyl residues were incorporated per human beta-endorphin molecule, at Lys-9, -19, -24, -28, and -29, but not at the amino-terminal Tyr-1. Three HPLC fractions were isolated for receptor binding studies with monobiotinylation of Lys-9 (B1 beta and B1X beta; X = C6 spacer arm), Lys-19 (B1 gamma), and a mixture of Lys-24, Lys-28, and Lys-29 derivatives (B1 alpha, BX1 alpha). All derivatives displayed tight binding to avidin, and no dissociation from avidin was detectable over several hours at 0 degrees C for the derivatives (BX1 alpha) tested. IC50 values for binding to mu and delta opioid receptor sites were 3-8 times higher for monobiotinylated derivatives than for the parent human beta-endorphin (IC50,mu = 1.5 nM, IC50,delta = 1.3 nM). Association with avidin decreased opioid receptor affinities for the C6 spacer derivative biotinylated at position Lys-9, which is close to the (1-5) enkephalin receptor region. In contrast, avidin did not affect or even increased apparent affinities to mu and delta sites for derivatives biotinylated at the alpha-helical part of the molecule (Lys-19, -24, -28, and -29). Thus, when bound to avidin, the biotinylated human beta-endorphin derivatives with spacer arm (BX1 alpha), substituted near the carboxyl terminal (Lys-24, -28, and -29), displayed mu binding affinities equal to and delta binding affinities only four times lower than underivatized human beta-endorphin. Biotinylated human beta-endorphins also bound to low affinity nonopioid binding sites on NG-108-15 cells; however, affinities to these sites were considerably reduced when derivatives were bound to avidin. The ability of biotinylated human beta-endorphin to cross-link the mu and delta opioid receptors to avidin allows application of the biotin-avidin system as a molecular probe of the opioid receptor.
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PMID:Biotinylated human beta-endorphins as probes for the opioid receptor. 282 53

beta-Endorphin was infused bilaterally into the medial preoptic area-anterior hypothalamic continuum at doses of 5, 10 and 40 pmol each side. The highest dose selectively abolished mounting, intromitting and ejaculating in sexually experienced male rats paired with an oestrous female. Males infused with 40 pmol beta-endorphin still followed the female, investigated her anogenital region and other parts of her body, but made abortive attempts to mount. A dose of 5 pmol beta-endorphin had no effect, but 10 pmol proved partially effective. The same males, in other tests, were allowed to ingest a highly preferred, sweet, non-calorific solution (acesulfame-K) in the absence of a female. beta-Endorphin infusions (up to 40 pmol) into the same area of the hypothalamus had no effect on this behaviour. Control males allowed simultaneous access both to an oestrous female and to the sweet solution copulated normally but reduced their ingestive behaviour, despite there being sufficient time during tests for both to occur. beta-Endorphin (40 pmol) infused into the preoptic area-anterior hypothalamic continuum under these conditions suppressed sexual interaction, but ingestion of acesulfame-K increased to values observed when the female was absent. beta-Endorphin infused into neighbouring areas of the brain had different behavioural effects. Sexual behaviour was not inhibited, and ingestion of acesulfame-K was unaltered, when beta-endorphin was infused either into the bed nucleus of the stria terminalis or the rostral ventromedial hypothalamus. However, infusions of cholecystokinin-8 into the ventromedial hypothalamus suppressed acesulfame-K ingestion in most animals, showing that the cannulae were placed in an area regulating ingestive behaviour. The inhibition of sexual behaviour after preoptic area-anterior hypothalamic continuum infusions of beta-endorphin was prevented by either pretreating rats with 1 mg/kg naloxone intraperitoneally, or by infusing a putative delta opiate receptor blocker (0.5 pmols ICI 174864) into the preoptic area-anterior hypothalamic continuum 5 min prior to beta-endorphin treatment. ICI 174864 administered alone significantly increased mount rate and reduced the post-ejaculatory refractory period in copulating males. These experiments suggest that there is both neurochemical and neuroanatomical specificity relating beta-endorphin to sexual behaviour in the male rat.
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PMID:Selective effects of beta-endorphin infused into the hypothalamus, preoptic area and bed nucleus of the stria terminalis on the sexual and ingestive behaviour of male rats. 283 May 62

Conformationally constrained cyclic enkephalin analogs which possess a high selectivity for the delta opioid receptor were used to determine the relative contribution of mu and delta receptors to brain-mediated changes in small intestinal propulsion and increases in hot-plate response time. Receptor preferences were determined by comparing the relative potencies of several opioid agonists in suppressing the electrically evoked contractions of the guinea-pig ileum and mouse vas deferens preparations. The ratio of IC50 values obtained in the guinea-pig ileum and the mouse vas deferens was used as an index of delta receptor selectivity. Effects on intestinal transit were determined in rats in which a silastic cannula had been implanted in the proximal duodenum and a polyethylene cannula in the right lateral cerebral ventricle (i.c.v.). Movement of a radioactive marker along the length of the small intestine after instillation into the duodenum was used to evaluate drug-induced changes in intestinal transit. The analgesic effects of i.c.v. administered opioids were determined in a second group of rats in which i.c.v. cannulas alone had been implanted. After i.c.v. administration of the agonist, the rats were placed on a 55 degrees C hot plate and the latency to rear paw-lick was timed. Compounds which showed a preference for the mu receptor [( D-Ala2, N-methyl-Phe4, Gly5 -ol]enkephalin and morphine/normorphine) were the most potent agonists at producing thermal analgesia and inhibition of small intestinal transit, whereas nonselective compounds (beta-endorphin and [D-Ala2, Met5]enkephalinamide) were slightly less potent in these assays.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cerebral delta opioid receptors mediate analgesia but not the intestinal motility effects of intracerebroventricularly administered opioids. 632 67

Murine thymocytes activated with the mitogen Con A express proenkephalin A mRNA (PEA mRNA) and met-enkephalin and/or met-enkephalin-containing peptides ("enkephalins"). This Con A-induced expression of PEA mRNA is modulated by the delta opioid receptor agonist, deltorphin I, in a biphasic, dose-dependent manner. That is, 10(-13) M to 10(-11) M deltorphin enhanced PEA mRNA expression 3- to 3.5-fold over the level induced by Con A alone, and 10(-9) M to 10(-7) M deltorphin inhibited it 40 to 70%. delta opioid receptor antagonists recognizing the delta-2 (naltrindole (NTI) and naltriben (NTB)), but not the delta-1 (7-benzylidenenaltrexone (BNTX)), subtype of opioid receptor described in brain, reversed both the enhancing and inhibiting effects of deltorphin on Con A-induced PEA mRNA expression. In addition, the delta-2 receptor-specific antagonists, NTI and NTB, directly inhibited Con A-induced PEA mRNA expression. The function of the enkephalins expressed by thymocytes was examined by using 1) delta opioid receptor antagonists, 2) PEA mRNA-specific antisense cDNA, and 3) Ab to met-enkephalin, and measuring cell proliferation. All three reagents caused enhancement of Con A-induced proliferation, with effects ranging from two- to fourfold over the response to Con A alone. Again, the delta-2 subtype-specific antagonists, NTI and NTB, were functional and the delta-1 subtype-specific antagonist, BNTX, was not. The PEA mRNA-specific antisense cDNA blocked translation but not transcription of PEA mRNA. The data suggest that 1) endogenous enkephalins induced in thymocytes modulate their own expression through delta-2-like opioid receptors, and 2) these endogenous enkephalins function to inhibit the proliferation of activated thymocytes.
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PMID:Met-enkephalin-containing peptides encoded by proenkephalin A mRNA expressed in activated murine thymocytes inhibit thymocyte proliferation. 773 Jun 11

The modulation by morphine of the spinal release of met-enkephalin-like material (MELM) was investigated in anaesthetized rats whose intrathecal space was perfused with an artificial CSF (ACSF). Morphine (10 microM in the ACSF), as well as a mu- (DAGO, 10 microM) or delta opioid receptor agonist (DTLET, 10 microM), significantly decreased the outflow of MELM. The effects of morphine and DTLET were prevented by the delta antagonist, naltrindole (10 microM), but not by naloxone (10 microM). Conversely, naloxone, but not naltrindole, prevented the inhibitory effect of DAGO. Although neither the kappa 1 agonist, U 50488H (10 microM), nor the kappa 1 antagonist, norbinaltorphimine (10 microM), exerted on their own any significant effect, norbinaltorphimine enhanced the inhibitory action of morphine. In contrast to the inhibition induced by morphine (with or without naloxone) which was preventable by 10 microM naltrindole, the inhibition of MELM release by morphine plus norbinaltorphimine was only partly reduced by naltrindole. Thus, concomitant stimulation of mu, delta and kappa 1 receptors might account for the apparent delta opioid receptor-dependent inhibition of MELM release by morphine. Indeed, its potential inhibitory effect through the stimulation of mu receptors (normally prevented by the concomitant stimulation of kappa 1 receptors) becomes efficient only when kappa 1 receptors are blocked.
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PMID:Morphine reduces the release of met-enkephalin-like material from the rat spinal cord in vivo by acting at delta opioid receptors. 796 22

A polyclonal antiserum directed against the first 16 amino acids of the N-terminal sequence of the murine delta opioid receptor was raised in rabbits. The intracerebroventricular (i.c.v.) injection to mice of the anti delta receptor IgGs impaired the antinociception produced by DPDPE, [D-Ala2]-Deltorphin II, DADLE and beta-endorphin-(1-31) when studied 24 h later in the tail-flick test. Antinociception produced by morphine and DAMGO was fully expressed in mice undergoing this treatment. The selective delta antagonist ICI 174864 (0.8 nmols/mouse, i.c.v.) significantly reduced the antinociceptive activity of opioids to the extent observed after giving the antibodies. ICI 174864 did not decrease further the antinociception that remained after the anti delta receptor serum. The specific binding displayed by 3 nM [3H]-DPDPE was reduced in membranes pre-incubated with the antiserum, whereas no change could be detected for 0.6 nM [3H]-DAMGO labelling mu receptors. This experimental approach revealed the delta component of opioid-evoked supraspinal antinociception in mice.
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PMID:Antibodies raised against the N-terminal sequence of delta opioid receptors blocked delta-mediated supraspinal antinociception in mice. 810 15

We have previously reported that met-enkephalin has dual immunomodulatory properties in vitro. We have continued this investigation using an in vivo system. In this study, Alzet miniosmotic pumps were loaded with either met-enkephalin, DTLET or FK 33-824 and were surgically implanted into BAF1/J mice. Twenty-four hours after pump implantation, mice were challenged with sub-optimal, optimal or supraoptimal immunizing doses of antigen. The immune response was assessed 4 or 5 days after primary immunization. FK 33-824, a met-enkephalin analogue, had no effect on the response of mice challenged with a suboptimal antigen dose. However, FK 33-824, at a pump concentration of 10(-3) M, suppressed the response against optimal challenge doses of antigen. At a pump concentration of 10(-8) M, FK 33-824 suppressed, enhanced or had no effect on the supraoptimal antigen dose-induced immune response. The suppressive effect of FK 33-824 in mice immunized with either optimal or supraoptimal doses of antigen was blocked by naloxone. Met-enkephalin and its delta opioid receptor specific analogue, DTLET, had no effect on the immune response to optimal antigen immunization. These results indicate that FK 33-824 has in vivo immunomodulatory activity and provide evidence that opioid peptides may either upregulate or downregulate the in vivo immune response depending on the strength of the response.
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PMID:The in vivo effects of opioid peptides on the murine immune response. 820 86

The antinociception induced by beta-endorphin given intracerebroventricularly (i.c.v.) has been previously demonstrated to be mediated by the release of Met-enkephalin and subsequent stimulation of delta receptors in the spinal cord for antinociception. The present study was designed to determine what type of opioid receptor, delta 1 or delta 2, in the spinal cord is involved in i.c.v. beta-endorphin-induced antinociception. Antinociception was assessed by the tail-flick test in male ICR mice. NTB (0.2-20 nmol) and NTI (0.22-2.2 nmol), selective delta 2 receptor antagonists, given intrathecally (i.t.) dose-dependently attenuated i.c.v. beta-endorphin-induced inhibition of the tail-flick response. On the other hand, BNTX (0.02-2.2 nmol), a selective delta 1 receptor antagonist, given i.t., did not block i.c.v. beta-endorphin-induced antinociception. The tail-flick inhibition induced by DAMGO, a mu receptor agonist, or U50,488H, a kappa receptor agonist, was not blocked by i.t. BNTX, NTB or NTI. It is concluded that delta 2 but not delta 1 receptors in the spinal cord are involved in i.c.v. beta-endorphin-induced antinociception.
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PMID:Spinal delta 2 but not delta 1 opioid receptors are involved in intracerebroventricular beta-endorphin-induced antinociception in the mouse. 838 38

Intracellular calcium mobilization is an important early event involved in T cell activation. The endogenous opioid peptide beta-endorphin is known to modulate immune functions that depend on T cell activation, therefore its effect on intracellular calcium mobilization was investigated. The intracellular calcium concentration ([Ca2+]i) of T cell-enriched splenocytes was measured by flow cytofluorometric analysis using the calcium-sensitive dye, Fluo-3. By gating on the T cell marker, Thy-1, a 95%-pure population of T cells was identified for study. Cells preincubated with beta-endorphin showed significantly enhanced [Ca2+]i responses to the mitogen, Concanavalin A (Con A). This was detectable with concentrations of beta-endorphin as low as 10(-13) M; maximal enhancement required 10(-10) to 10(-9) M doses. The efficacy of beta-endorphin was dependent on the duration of pretreatment. beta-Endorphin amplified the Con A-induced increase in [Ca2+]i by reducing the lag time for the response to Con A and by increasing the mean [Ca2+]i of the cells. N-Ac-beta-endorphin, which shows minimal potency at neuronal opiate receptors, was unable to substitute for beta-endorphin. Naltrindole, a highly selective delta opiate receptor antagonist, inhibited the action of beta-endorphin, whereas a selective mu opiate receptor antagonist was ineffective. Although less potent than beta-endorphin, the delta opiate receptor agonist D-Ala2-D-Leu5-enkephalin also significantly enhanced [Ca2+]i responses. In summary, concentrations of beta-endorphin, within the physiological range found in the systemic circulation, modulate the increase in T cell [Ca2+]i induced by Con A. Both the efficacy of D-Ala2-D-Leu5-enkephalin alone and the antagonism of beta-endorphin by naltrindole suggest that a delta-type opiate receptor may mediate these effects.
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PMID:Beta-endorphin enhances Concanavalin-A-stimulated calcium mobilization by murine splenic T cells. 875 65

Endogenous opioid peptides are present in cerebral perivascular nerves and in the CSF, and their concentrations are changing in response to stimuli that activate regulatory mechanisms of the cerebral circulation (e.g., alterations of the perfusion pressure or changes of the arterial O2 tension). Opiate receptors are expressed in the cells of the CNS and the cerebrovascular bed, and their activation modulates the function of other vasoregulatory mechanisms (i.e., the autonomic nervous system, nitric oxide, prostanoids, vasopressin) that are involved in the control of the cerebrovascular tone. The direct vasomotor effects of opioid peptides and opiates on the cerebral arteries under in vitro or in situ conditions appear to be weak or absent in several species. However, Met- and Leu-enkephalin induce pial arterial vasodilation in the newborn pig. In this species, beta-endorphin acts as a constrictor, whereas dynorphin may induce either dilation or constriction depending on the experimental conditions. The influence of exogenously applied natural and synthetic opioids on the cerebral blood flow (CBF) is determined mainly by their metabolic, neuronal, and respiratory effects. Hypothalamic and pituitary circulations are especially sensitive to opioids. Under resting conditions, endogenous opioid peptides do not participate in the regulation of the cerebrovascular tone and CBF. On the other hand, mu and delta opiate receptor stimulation by endogenous opioid peptides, interacting with other vasoactive factors, obviously contributes to the hypoxia- and hypercapnia-induced cerebral vasodilation. Furthermore, endogenous opioid mechanisms are involved in the autoregulation of the hypothalamic blood flow. Thus, the endogenous opioid system may well represent a latent regulatory mechanism, which is of limited importance under basal conditions, but becomes more important under conditions of stress. Synthetic exogenous opioids do not appear to influence the hypoxic or hypercapnic CBF responses or the cerebral autoregulatory process.
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PMID:Opiate receptor-mediated mechanisms in the regulation of cerebral blood flow. 896 68


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