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 release of the neuropeptide Met-enkephalin (Met-ENK) from isolated nerve terminals (synaptosomes) of the rat forebrain was characterized with respect to the subcellular distribution, the release upon addition of various stimulatory agents, the release kinetics, the cation-dependence of release and the relationship between Met-ENK release and elevations of the intraterminal free Ca(2+)-concentration ([Ca]i). A highly specific radioimmunoassay was developed for determination of Met-ENK (H-Tyr-Gly-Gly-Phe-Met-OH). Truncated and elongated forms of Met-ENK, Leu-enkephalin, beta-endorphin and dynorphin displayed negligible cross-reactivity. Met-ENK-like immunoreactivity (Met-ENK-LI) is enriched in the purified synaptosomal fraction of rat forebrain homogenates and is released in a strictly Ca(2+)-dependent manner upon chemical depolarization or stimulation with the Ca2+ ionophore, ionomycin. A correlation exists between the release of Met-ENK-LI and the elevations of [Ca]i. Barium ions are able to replace Ca2+ in triggering Met-ENK-LI release. The release of Met-ENK-LI is initiated within 20 s after depolarization and is terminated after 3-5 min, although depolarization and [Ca]i elevation are maintained. At this time, > 90% of the initial Met-ENK-LI is still present inside the synaptosomes. Repolarization and renewed stimulation again evokes Ca(2+)-dependent release of this retained Met-ENK-LI. It is concluded that Met-ENK release from isolated nerve terminals is exocytotic, and that exocytosis is terminated by a regulatory mechanism in synaptosomes after 3-5 min of depolarization, a process which can be reversed by repolarization.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the release of Met-enkephalin from isolated nerve terminals: release kinetics and cation-dependence. 148 89

The effects of sulfated cholecystokinin octapeptide (CCK8s) given intrathecally (i.t.) or intracerebroventricularly (i.c.v.) on inhibition of the tail-flick and paw-licking hot-plate responses induced by beta-endorphin, morphine, D-Ala2-N-Me-Phe4-Gly-ol-Enkephalin (DAMGO) and D-Pen2-D-Pen5-Enkephalin (DPDPE), given i.t. or i.c.v., were studied in male ICR mice. CCK8s (1 ng) given i.t. effectively antagonized inhibition of the tail-flick response induced by i.c.v. administered beta-endorphin (2 micrograms) and DPDPE (10 micrograms) but not morphine (4 micrograms) or DAMGO (0.02 microgram). However, CCK8s given i.t. did not affect inhibition of the hot-plate response induced by any of the opioid agonists. CCK8s (0.2-40 ng) in combination with beta-endorphin (2 micrograms) or morphine (4 micrograms) given i.c.v. did not affect beta-endorphin- or morphine-induced inhibition of the tail-flick and hot-plate responses. CCK8s and its fragments given i.t. attenuated i.c.v. beta-endorphin-induced tail-flick inhibition with different potencies and efficacies. CCK8s was the most potent compound in antagonizing i.c.v. beta-endorphin-induced tail-flick inhibition. The rank order of potencies was CCK8s greater than CCK(27-33) much greater than caerulein. All three compounds were efficacious, whereas CCK(30-33) was not, in antagonizing beta-endorphin-induced tail-flick inhibition. Intrathecal administration of CCK8s (1 ng) significantly attenuated the tail-flick inhibition induced by i.t. beta-endorphin (0.5-1 microgram) and DPDPE (5 micrograms) but not morphine (0.5-1 microgram), DAMGO (5 ng), norepinephrine (5 ng) or serotonin (16 micrograms).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cholecystokinin administered intrathecally selectively antagonizes intracerebroventricular beta-endorphin-induced tail-flick inhibition in the mouse. 154 80

The possible existence of a feedback control by endogenous opioids of the spinal release of met-enkephalin-like material was assessed in vivo, in halothane-anesthetized rats whose intrathecal space was continuously perfused with an artificial cerebrospinal fluid supplemented with various opioid-related drugs. Both the intrathecal perfusion of the mu agonist D-Ala2-D-MePhe4-Gly-ol5-enkephalin (DAGO) (10 microM) and the delta agonist Tyr-D-Thr-Gly-Phe-Leu-Thr (DTLET) (10 microM) produced a significant inhibition of the spinal outflow of met-enkephalin-like material. The effect of DAGO, but not that of DTLET, could be prevented by naloxone (10 microM), and, conversely, the effect of DLTET, but not that of DAGO, was no longer observed in the presence of naltrindole (10 microM). Therefore naloxone and naltrindole acted as potent and selective mu and delta antagonists, respectively, when perfused at 10 microM in the intrathecal space of halothane-anesthetized rats. As expected from the lack of a tonic opioid control of spinal enkephalinergic neurones, neither naloxone nor naltrindole alone affected the spontaneous outflow of met-enkephalin-like material. However, naltrindole, but not naloxone, markedly increased the spinal overflow of met-enkephalin-like material due to intrathecal administration of either porcine calcitonin (10 microM) or the peptidase inhibitors thiorphan (10 microM) plus bestatin (20 microM). These data suggest that delta, but not mu, receptors are involved in a phasic opioid inhibitory control of the release of met-enkephalin-like material in the rat spinal cord.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Feedback inhibition of met-enkephalin release from the rat spinal cord in vivo. 160 25

The effect of opiate peptides on basal and potassium-stimulated endogenous dopamine (DA) release from striatal slices was studied in vitro. Dual stimulation of the striatal slices gave a reproducible increase in DA release that was calcium dependent. Addition of the delta-opiate receptor agonists Met5-enkephalin, [D-Ala2,D-Leu5]enkephalin (DADLE), and [D-Ser2]Leu-enkephalin-Thr (DSLET), increased the basal DA release without affecting potassium-stimulated release in a dose-dependent manner. The effect of DADLE was antagonized by the addition of naloxone. In contrast, the mu-opioid receptor agonist [D-Ala2,N-MePhe4,Gly-ol5]enkephalin (DAGO) and the epsilon-opioid agonist beta-endorphin inhibited the stimulated DA release without changing the basal release. The inhibitory effect of DAGO on potassium-stimulated release was antagonized by naloxone. The addition of ethanol (75 mM) to the incubation media produced a delayed increase of both the basal and stimulated DA release. There was no change in stimulated DA release when the change in basal release was subtracted, suggesting that ethanol produced a dose-dependent, selective increase in basal DA release. Naloxone and the selective delta-opiate antagonist ICI 174864 inhibited the ethanol-induced increase in basal DA release. Naloxone and ICI 174864 added alone did not alter either basal or stimulated DA release. We therefore suggest that the ethanol-induced increase in basal DA release is an indirect effect involving an endogenous delta-opiate agonist.
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PMID:Ethanol-induced increase in endogenous dopamine release may involve endogenous opiates. 161 96

Adrenocorticotropic (ACTH) and melanocyte stimulating (MSH) hormones have been demonstrated in the same cells in the cephalic half of the pars distalis of the chicken pituitary glands in three ways: (I) immunohistochemistry, (II) radioimmunoassay (RIA) using both anti-human or porcine ACTH and synthetic alpha-MSH antibodies, and (III) isolation and purification, followed by the determination of amino acid compositions of both hormones. The contents of ACTH and alpha-MSH are estimated by RIA to be 1600 and 10 ng/gland, respectively. ACTH missed 1 (des-Phe39-ACTH) or 2 residues (des-Glu38, Phe39-ACTH) from the C-terminal portion was also isolated. The recoveries of these ACTHs are differed from preparation to preparation. The complete amino acid sequence of chicken ACTH (39 residues) has been determined as NH2-Ser-Tyr-Ser-Met-Glu-His-Phe-Arg-Trp-Gly-Lys-Pro-Val-Gly-Arg-Lys-Arg- Arg- Pro-Ile-Lys-Val-Tyr-Pro-Asn-Gly-Val-Asp-Glu-Glu-Ser-Ala-Glu-Ser-Tyr-Pro- Met-Glu-Phe-OH Strikingly the amino acid sequence of chicken ACTH shows a closer resemblance to that from an amphibian, Xenopus (3 residue substitution) than that from another bird, the ostrich (7 residue substitution) or the turkey (at least 9 residue substitution).
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PMID:Characterization of chicken ACTH and alpha-MSH: the primary sequence of chicken ACTH is more similar to Xenopus ACTH than to other avian ACTH. 165 32

[Gly8]beta hEP(1-27)NH2 and [L-Leu8]beta hEP(1-27)NH2, two analogs of human beta-endorphin, were synthesized by both all-stepwise solid phase synthesis and peptide segment coupling. For the peptide segment coupling method, two thiocarboxyl peptides. Msc-[Gly8]beta hEP(1-8)SH and Msc-[L-Leu8]beta hEP(1-8)SH, were synthesized by standard solid phase method on 4-[alpha-(Boc-Gly-S)benzyl]phenoxyacetamidomethy-resin and 4-[alpha-(Boc-L-Leu-S)benzyl]phenoxyacetamidomethy-resin. These two thiocarboxyl peptides were coupled to H-[Lys(Cit)9,19,24]-beta hEP(9-27)NH2. [Gly8]beta hEP(1-27)NH2 and [L-Leu8]beta hEP(1-27)NH2 were obtained after removal of Msc groups and citraconyl groups from products of the segment coupling reaction. The yields of both [Gly8]beta hEP(1-27)NH2 and [L-Leu8]beta hEP(1-27)NH2 in the segment coupling reaction were approximately 18%. Less than 1% of racemization of Leu-8 occurred during coupling of Msc-[L-Leu8]beta hEP(1-8)SH to H-[Lys(Cit)9,19,24]-beta hEP(9-27)NH2. Results of amino acid composition analysis, analysis by reverse phase high pressure liquid chromatography and receptor binding activity assays of the analogs showed that peptide analogs prepared by segment coupling method and those prepared by all-stepwise solid phase synthesis were identical. Results of receptor binding activity assays suggested that the molecular charge properties of beta-endorphin(1-27) and its analogs influenced the receptor binding activity.
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PMID:Chemical synthesis of human beta-endorphin(1-27) analogs by peptide segment coupling. Leucine and glycine residues bearing thiocarboxyl functions as junctions for peptide segment coupling. 165 7

The periaqueductal gray is a brain region of considerable interest. It is innervated by monoamine-containing neurons as well as by a variety of peptidergic fiber systems, and it participates in the regulation of various functions. Virtually nothing is known about monoamine release in the periaqueductal gray and its receptor-mediated modulation. We therefore studied the release of radioactivity from periaqueductal gray slices preloaded with tritriated monoamines, using an in vitro superfusion method. The release of radioactivity from superfused periaqueductal gray slices after preloading of the tissue with [3H]noradrenaline increased upon electrical stimulation in a frequency-dependent manner. The stimulus-evoked release of radioactivity was Ca(2+)-dependent. Clonidine reduced and yohimbine enhanced the release. The inhibition curve for the effect of clonidine was shifted to the right in the presence of 10(-6) M yohimbine. While phenylephrine, isoprenaline, SK & F 38393, quinpirole, carbachol, [Arg8]vasopressin, alpha-MSH and ACTH-(1-24), at a concentration of 10(-6) M, did not influence the electrically evoked release of radioactivity, [Leu5]enkephalin reduced it. The selective mu-opioid receptor agonists [D-Ala2,NMePhe4,Gly-ol5]enkephalin and [D-Arg2,Lys4]-demorphin-(1----4)-amide reduced the release of radioactivity, whereas the selective delta opioid receptor agonist [D-Pen2,D-Pen5] enkephalin and the selective kappa opioid receptor agonist U-69593 had no effect. In the presence of naloxone, which by itself had no effect on the release of radioactivity, the effect of [D-Arg2,Lys4]dermorphin-(1-4)-amide was abolished. These results show that the release of noradrenaline from periaqueductal gray slices is via a Ca(2+)-dependent exocytotic process, and that it is modulated through alpha 2-adrenoceptors as well as via mu-opioid receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulus-evoked release of tritiated monoamines from rat periaqueductal gray slices in vitro and its receptor-mediated modulation. 165 61

Intermediate pituitaries of the reptile, Anolis carolinensis, were separately pulse labeled with [3H]Trp and [3H]Tyr. The major form of alpha-MSH was purified by immunoprecipitation and isolated by reverse phase HPLC. Tryptic peptide analysis indicated that the [3H]Trp-labeled C-terminal fragment of Anolis alpha-MSH had the same retention time as mammalian ACTH(9-13) amide; however, the [3H]Tyr-labeled N-terminal fragment did not coelute with either mammalian ACTH(1-8) or N-acetyl-ACTH(1-8). Purification of alpha-MSH from 76 Anolis intermediate pituitaries confirmed that a sequence change had occurred in the N-terminal region of Anolis alpha-MSH. The tissues were acid extracted and purified by Sephadex G-25 chromatography and reverse phase HPLC to yield 4.5 micrograms of purified Anolis alpha-MSH for amino acid composition analysis and automated Edman degradation sequence analysis. The major form of Anolis alpha-MSH is nonacetylated and has the following novel primary sequence: Ser-Tyr-Ala-Met-Glu-His-Phe-Arg-Trp-Gly-Lys-Pro(Val-amide). The presence of Val-amide was verified by immunological analysis, tryptic peptide analysis and amino acid composition analysis.
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PMID:Detection of a novel sequence change in the major form of alpha-MSH isolated from the intermediate pituitary of the reptile, Anolis carolinensis. 166 89

The electrically stimulated release of [3H]noradrenaline ([3H]NA) from slices of the nucleus tractus solitarii (NTS) from the rat in vitro was inhibited by the alpha 2-adrenoceptor agonist, clonidine, in a concentration-dependent manner and enhanced by the alpha 2-adrenoceptor antagonist, yohimbine. Phenylephrine, isoprenaline, carbachol, quinpirole and SKF 38393, all at 10(-6) M, did not affect the stimulus-evoked release of [3H]NA. The opioid peptides, alpha- and gamma-endorphin, did not have a significant effect on the stimulus-evoked release of [3H]NA; however, beta-endorphin reduced it in a concentration-dependent manner. [Leu5]Enkephalin also reduced [3H]NA release, but higher concentrations were necessary. The selective delta opioid receptor agonists, [D-Pen2,D-Pen5]enkephalin (DPDPE) and [D-Ser2(O-tert-butyl),Leu5]enkephalyl-Thr6 (DSTBULET), as well as the selective kappa opioid receptor agonist, U-69593, were not effective. The selective mu opioid receptor agonist, [D-Ala2,NMePhe4,Gly-ol5]enkephalin (DAGO), concentration dependently reduced the stimulus-evoked release of [3H]NA to the same extent as beta-endorphin did. Naloxone, while having no effect on stimulus-evoked [3H]NA release, antagonized the effect of DAGO. These results corroborate that the release of NA from noradrenergic terminals in the NTS region of the medulla oblongata of the rat is modulated via alpha 2-adrenoceptors and suggest that the release of NA in the NTS in rats is also modulated via mu opioid receptors.
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PMID:The electrically stimulated release of [3H]noradrenaline from nucleus tractus solitarii slices in vitro is modulated via mu-opioid receptors. 167 75

In the presence of physiological cations (in Krebs-4-(2-hydroxyethyl)-1- piperazineethanesulfonic acid buffer) at 37 degrees C the Ki value's of beta-endorphin for mu- and delta-opioid receptor binding sites in rat neocortical membranes, labeled with [3H][D-Ala2,MePhe4,Gly- ol5]enkephalin (DAMGO) and [3H][D-Ala2-D-Leu5]enkephalin (in the presence of unlabeled DAMGO), respectively, amounted to about 9 and 22 nM. Surprisingly, a very different selectivity pattern for the endogenous opioid peptide was found when the affinity of beta-endorphin for functional presynaptic opioid receptors was examined. Thus, beta-endorphin strongly inhibited the electrically evoked release of [3H]NE from rat neocortical slices with an IC50 value of about 0.5 nM, whereas [14C] acetylcholine release from neostriatal slices was inhibited with an IC50 value of about 100 nM. On the other hand, the electrically evoked release of [3H]dopamine from striatal slices was not affected by beta-endorphin. The inhibitory effects of DAMGO and beta-endorphin on [3H]NE release from neocortical slices were equally well antagonized by naloxone. Moreover, 10 nM of the highly selective mu-opioid receptor antagonist D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen- Thr-NH2 antagonized competitively the inhibitory effect of beta-endorphin on [3H]NE release.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Beta-endorphin: a highly selective endogenous opioid agonist for presynaptic mu opioid receptors. 167 39


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