Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have reported previously that i.v.t. beta-endorphin increases the release of immunoreactive Met-enkephalin but not Leuenkephalin or dynorphins from the spinal cord. To determine if the effect is specific to beta-endorphin, the present investigation tested i.v.t. beta-endorphin, its analogs and other opiate agonists with different opioid receptor activities for their ability to release Met-enkephalin using an intrathecal perfusion technique. Human beta-endorphin and its analogs, human beta-endorphin-(1-30), -(1-29) and -(1-28) which have an identical amino acid sequence in the NH2-terminus showed reduced stepwise potencies in releasing Met-enkephalin. The results correlated well with their analgesic potencies. Des-Met5-camel beta-endorphin (64 micrograms i.v.t.) which does not have a complete sequence of Met-enkephalin in its NH2-terminus but still retains 20% of camel beta-endorphin analgesic potency caused the spinal release of Met-enkephalin. Morphine (mu opioid receptor agonist, 40 micrograms), D-Ala2-D-Leu5-enkephalin (delta opioid receptor agonist, 80 micrograms) and U-50488H (kappa opioid receptor agonist, 160 micrograms) injected i.v.t. were unable to cause any release of Met-enkephalin. High-performance liquid chromatography after Sephadex G-50 gel chromatography indicated that the immunoreactive Met-enkephalin in the spinal perfusate released by i.v.t. beta-endorphin had a retention time identical to authentic Met-enkephalin. Intraventricular injection of Met-enkephalin, 4 nmol (2.3 micrograms), caused little increase of Met-enkephalin immunoreactivity in the spinal perfusate, whereas 4 nmol of i.v.t. beta-endorphin caused a marked increase of Met-enkephalin in the spinal perfusate. Inhibition of peptidase by i.v.t. aprotinin and bacitracin does not prevent the spinal release of Met-enkephalin induced by i.v.t. beta-endorphin. It is concluded that the release of Met-enkephalin was specific to beta-endorphin and the results were not due to cross-immunoreactivity of beta-endorphin or its metabolites.
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PMID:Spinal release of immunoreactive Met-enkephalin by intraventricular beta-endorphin and its analogs in anesthetized rats. 242 Sep 69

Light microscopic autoradiography was used to visualize the neuroanatomical distribution of rat brain delta opioid receptors. Slide-mounted sections of rat brain were labeled with [3H]-[2-D-penicillamine, 5-D-penicillamine]enkephalin([3H]DPDPE), a highly selective delta opioid agonist. Saturation isotherms of [3H]DPDPE binding to thaw-mounted brain slices gave a maximal number of binding sites of 79.9 fmol/mg of protein and an apparent dissociation constant (Kd) of 6.3 nM. DPDPE and met-enkephalin inhibited [3H]DPDPE binding with high affinity (lC50 values of 6.3 and 13.8 nM, respectively). Putative mu opioid receptor selective ligands such as morphine sulfate, Tyr-D-Ala-Gly-NMePhe-Gyl-ol and [N-MePhe3, D-Pro4]morphiceptin (PL017) were less potent inhibitors of [3H]DPDPE binding. The rat brain areas containing the highest densities of receptors were the claustrum, basolateral amygdaloid nucleus, the caudate-putamen and nucleus accumbens, the external plexiform layer of the olfactory bulb and the olfactory tubercle. Moderate receptor density was characteristic of the hippocampal formation in which grains were seen over the molecular layer of the dentate gyrus and stratum oriens (CA1), and of the different layers of cerebral cortex. Generally, low density of binding was found over the thalamus and the septal nuclei. Low specific binding was also seen in the cerebellum, medulla oblongata and in the dorsal horn of the spinal cord. There was little specific [3H]DPDPE binding over the white matter areas.
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PMID:Light microscopic autoradiographic localization of delta opioid receptors in the rat brain using a highly selective bis-penicillamine cyclic enkephalin analog. 301 47

The intracerebroventricular (i.c.v.) injection to mice of a polyclonal antibody raised against the peptide sequence 208-216 (TKYRQGSID) of cloned rat mu opioid receptor, reduced the analgesic potency of DAMGO, morphine and beta-endorphin-(1-31) when studied 48 h later in the tail-flick test. Antinociception elicited by delta agonists, DPDPE and [D-Ala2]-Deltorphin II, and by the kappa agonist U-50488H, was fully expressed in mice undergoing this treatment. The specific binding displayed by 0.6 nM [3H]-DAMGO was reduced in membranes preincubated with the antiserum, whereas no change could be detected for 3 nM [3H]-DPDPE or 2 nM [3H]-U-69593 labelling delta and kappa opioid receptors respectively. Naloxonazine, irreversible antagonist of the pharmacologically defined mu 1 opioid receptor, and beta-funaltrexamine (beta-FNA), that also displays irreversible antagonism at mu 1/2 receptors, when injected i.c.v. 24 h before the opioids significantly reduced the activity of DAMGO and morphine. In mice treated with naloxonazine, but not with beta-FNA, the antibody further reduced the remaining analgesic effect of DAMGO and morphine. Thus, both the antibody and beta-FNA blocked a wider population of mu opioid receptors than that tagged by naloxonazine.
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PMID:In vivo injection of antibodies directed against the cloned mu opioid receptor blocked supraspinal analgesia induced by mu-agonists in mice. 747 89

Previous reports show the tail-flick inhibition induced by bremazocine given i.c.v. is mediated by supraspinal stimulation of both epsilon and kappa opioid receptors and the spinal activation of descending serotonergic and opioid systems. The present studies questioned what endogenous opioid peptides in the spinal cord were involved in i.c.v. bremazocine-induced antinociception in male ICR mice. beta-Endorphin, trans(+-)-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)cyclohexyl]- benzene-acetamide methane sulfonate (U50,488H) and morphine were used as reference compounds for epsilon, kappa and mu opioid receptor activity, respectively. Intrathecal pretreatment with antibody to Met-enkephalin dose-dependently attenuated the antinociception induced by i.c.v. bremazocine or beta-endorphin but not morphine or U50,488H; whereas intrathecal (i.t.) pretreatment with antibody to dynorphin A (1-13) dose-dependently blocked the antinociception induced by i.c.v. bremazocine or U50,488H but not beta-endorphin or morphine. Intrathecal Leu-enkephalin and beta-endorphin antibodies did not block i.c.v. bremazocine, beta-endorphin or morphine antinociception. Intrathecal Met-enkephalin or dynorphin A (1-17) increased the tail-flick latency at 1 to 2 min. Met-enkephalin given i.t. blocked the antinociception induced by i.c.v. DPDPE, bremazocine and beta-endorphin but not morphine or U50,488H whereas i.t. dynorphin A (1-17) pretreatment blocked the inhibition induced by i.c.v. U50,488H and bremazocine but not DPDPE, beta-endorphin or morphine. Bremazocine given i.c.v. did not exhibit antianalgesic activity in our studies. The dynorphin released by i.c.v. bremazocine for antinociception appears to be different from the dynorphin released by morphine for antianalgesia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Spinal involvement of both dynorphin A and Met-enkephalin in the antinociception induced by intracerebroventricularly administered bremazocine but not morphine in the mouse. 810 94

beta-Endorphin(1-27) (i.c.v.) has been reported to inhibit the antinociceptive activity of i.c.v. administered beta-endorphin in mice. In this study the antagonist activity of beta-endorphin(1-27) has been confirmed and the antagonism appears to be mediated at delta 1 opioid receptors. At higher doses than that used for antagonism, i.c.v. administered beta-endorphin(1-27) was a full antinociceptive agonist. The antinociceptive activity of beta-endorphin is attributed to the release of met-enkephalin in the spinal cord and is antagonized by the selective delta 2 opioid receptor antagonist, naltriben (NTB) but not by the selective delta 1 opioid receptor antagonist, 7-benzylidenenaltrexone (BNTX). In contrast, the antinociceptive activity of i.c.v. administered beta-endorphin(1-27) was not affected by either NTB or BNTX administered i.c.v. or i.t. Also, the antinociceptive activity of beta-endorphin(1-27) was unaffected by the selective mu opioid receptor antagonist, beta-funaltrexamine (beta-FNA) or the selective kappa opioid receptor antagonist, norbinaltorphimine (norBNI). Thus, beta-endorphin(1-27) appears to mediate antinociception supraspinally through the interaction of a unique receptor, i.e. a receptor that is different from mu, kappa, delta 1 or delta 2 opioid receptors. Alternatively, a non-opioid mechanism may be considered.
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PMID:The mixed antinociceptive agonist-antagonist activity of beta-endorphin(1-27) in mice. 839 88

The mu opioid receptor is implicated in the reward, tolerance and withdrawal effects of alcohol and other drugs of abuse. This hypothesis is supported by the effects of alcohol on beta-endorphin release, of mu opioid receptor agonists and antagonists on alcohol consumption, and by the activation of the dopaminergic reward system by both alcohol and opiates. In addition, the murine mu opioid receptor locus, Oprm, is implicated as the major quantitative trait locus (QTL) affecting the different levels of morphine consumption between two inbred mouse strains that also exhibit differences in alcohol and cocaine consumption. Detection of genetic variation affecting OPRM1 expression or mu opioid receptor function would be an important step towards understanding the origins of inter-individual variation in response to mu opioid receptor ligands and in diseases of substance dependence. We directly sequenced the human mu opioid receptor locus, OPRM1, to detect natural variation that might affect function and/or be associated with psychiatric phenotypes related to opioid function. Four DNA sequence variants were found: three non-synonymous substitutions (Ala6Val [rare], Asn40Asp, [0.10-0.16], Ser147Cys [rare]) and one intronic variant (IVS2+691G/C [0.55-0.63]). OPRM1 alleles, genotypes and haplotypes from three psychiatrically characterized population samples (US Caucasian [USC, n=100], Finnish Caucasian [FC, n=324] and Southwestern American Indian [SAI, n=367]), were used to perform association and sib-pair linkage analyses with alcohol and drug dependence diagnoses. No significant association of OPRM1 genetic variation to phenotype was observed. This analysis has 80% power to detect a small to moderate effect of OPRM1 variation on alcohol dependence and 100% power to detect effects of the magnitude of the ALDH2*2 variant. While these data do not support a role of the mu opioid receptor in susceptibility to alcohol dependence, the potential relationship between OPRM1 genetic variation and response to endogenous opioids and exogenous opiates can now be investigated.
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PMID:Mu opioid receptor gene variants: lack of association with alcohol dependence. 939 94

Beta-funaltrexamine (beta-FNA), a selective mu opioid receptor antagonist, when administered in doses of 10.0, 15.0, and 20.0 mg/kg b.wt., decreased alcohol but not water intake in a dose-dependent manner in rats selectively bred for high alcohol intake (HAD line). Beta-FNA also suppressed the intake of a saccharin solution containing alcohol without altering the intake of a similar solution without alcohol. The results suggest that beta-FNA may prove useful as a pharmacotherapeutic agent for the treatment of alcohol dependence. In a second study, pituitary beta-endorphin gene expression (proopiomelanocortin or POMC messenger ribonucleic acid-mRNA) was compared in another pair of rat lines selectively bred for high or low alcohol intake (alcohol-preferring or P and alcohol-nonpreferring or NP lines). A repeated alcohol challenge (1.0 g/kg b.wt./day, IP for 4 days) produced a greater increase in POMC mRNA in the anterior and neurointermediate lobes of the pituitary of P rats compared with NP rats. The results suggest that a genetic predisposition toward high alcohol drinking may be associated with increased responsiveness of the opioid system to alcohol.
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PMID:Effect of mu opioid receptor blockade on alcohol intake in rats bred for high alcohol drinking. 951 64

Opioid drugs play important roles in the clinical management of pain, as well as in the development and treatment of drug abuse. The mu opioid receptor is the primary site of action for the most commonly used opioids, including morphine, heroin, fentanyl, and methadone. By sequencing DNA from 113 former heroin addicts in methadone maintenance and 39 individuals with no history of drug or alcohol abuse or dependence, we have identified five different single-nucleotide polymorphisms (SNPs) in the coding region of the mu opioid receptor gene. The most prevalent SNP is a nucleotide substitution at position 118 (A118G), predicting an amino acid change at a putative N-glycosylation site. This SNP displays an allelic frequency of approximately 10% in our study population. Significant differences in allele distribution were observed among ethnic groups studied. The variant receptor resulting from the A118G SNP did not show altered binding affinities for most opioid peptides and alkaloids tested. However, the A118G variant receptor binds beta-endorphin, an endogenous opioid that activates the mu opioid receptor, approximately three times more tightly than the most common allelic form of the receptor. Furthermore, beta-endorphin is approximately three times more potent at the A118G variant receptor than at the most common allelic form in agonist-induced activation of G protein-coupled potassium channels. These results show that SNPs in the mu opioid receptor gene can alter binding and signal transduction in the resulting receptor and may have implications for normal physiology, therapeutics, and vulnerability to develop or protection from diverse diseases including the addictive diseases.
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PMID:Single-nucleotide polymorphism in the human mu opioid receptor gene alters beta-endorphin binding and activity: possible implications for opiate addiction. 968 28

Decrease in activity of hypothalamic beta-endorphin (beta-EP) is an important factor for inducing the preovulatory LH surge. To study whether hypothalamic mu opioid receptor is involved in this process, changes in densities of hypothalamic mu opioid receptors were observed in this study by autoradiography and image process during cupric acetate (CuAC)-induced preovulatory LH surge in rabbits. New Zealand female rabbits were injected 1% CuAC 0.9 ml or saline 0.9 ml and sacrificed at different times after the injection. The densities of mu opioid receptor in the medial basal hypothalamus (MBH) and the medial preoptic area (MPO) were measured. A transient increase in densities of MPO mu opioid receptor were observed 1 h after CuAC injection (P < 0.05). The densities of MPO mu opioid receptor decreased significantly before the onset of the LH surge (P < 0.05) and remained at a low level during the surge. The change in densities of mu opioid receptor in the MBH was similar to those in the MPO. No change was observed in the saline control group. There was a negative correlation between the changes in densities of MBH mu opioid receptor and serum LH levels in the process of LH surge. The results suggest that the decrease of hypothalamic mu opioid receptor may be involved in the preovulatory LH surge.
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PMID:[Changes in densities of hypothalamic mu opioid receptor during cupric acete-induced preovulatory lh surge in rabbit]. 981 24

The importance of the amino-terminal domain of the mu opioid receptor (MOR) as a component of the high affinity ligand-binding pocket was evaluated. A deletion mutant lacking 64 amino acids from the amino-terminus of MOR (DeltaN64) was constructed and expressed in HEK 293 cells. The affinities of bremazocine and cyclazocine were similar for the truncated and full-length MORs. Affinities of the mu receptor antagonist, naloxone, and the mu receptor agonist, morphine, were decreased 3.5-fold and 6-fold, respectively, for the truncated receptor relative to the wild-type MOR. Similarly, the affinities of the opioid peptide agonists, DAMGO (Tyr-D-Ala-Gly-MePhe-Gly-ol), beta-endorphin, and DADL (Tyr-D-Ala-Gly-Phe-D-Leu), for the DeltaN64 receptor were decreased from 3- to 8-fold as a result of the deletion. In contrast, the affinities of the alkaloid agonists, methadone and fentanyl, and the peptide agonists, endomorphin 1 and endomorphin 2, for the truncated receptor relative to MOR were reduced dramatically by 20- to 60-fold. MOR is glycosylated when expressed in HEK 293 cells; however, analysis of N-glycosidase F-treated membranes indicated that N-glycan chains within the amino-terminal domain of MOR do not contribute significantly to ligand affinities. These results indicate that amino acid residues within the amino-terminal domain of MOR play a crucial role in the composition of the binding pocket for a select group of agonists.
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PMID:mu Opioid receptor: role for the amino terminus as a determinant of ligand binding affinity. 1071 16


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