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)

Pentylenetetrazol (PTZ, 45 mg/kg, ip) impaired retention of a one-trial step-through inhibitory avoidance task when injected into male Swiss mice 10 min after training, as indicated by retention performance 48 h later. The amnestic effect of PTZ was prevented by naltrexone (0.01 or 0.10 mg/kg, ip) administered after training, but prior to PTZ-treatment. On the contrary, neither naltrexone methyl bromide (0.01, 0.10, or 10.0 mg/kg, ip), a quaternarium analog of naltrexone, nor MR2266 (0.01 or 0.10 mg/kg, ip), a putative kappa opiate receptor antagonist, modified the behavioral effects of PTZ. On the other hand, the body seizures produced by PTZ were unaffected by any of the three opiate receptor antagonists that were given before the convulsant. Taken together, these results suggest that the effects of PTZ on retention are mediated, at least in part, by opioid peptides of central origin, and rules out a possible participation of opioid peptides derived from prodynorphin-precursor molecule. Administration of beta-endorphin (0.01 or 0.10 microgram/kg, ip) 10 min prior to testing attenuate the retrograde amnesia caused by PTZ. The effect of beta-endorphin was prevented by the simultaneous administration of naltrexone (0.10 mg/kg, ip) prior to testing. Naltrexone has no effect of its own upon retrieval. These results suggest that the impairment of retention induced by PTZ is probably due, at least in part, to a release of opioid peptides in the brain during the post-training period. PTZ given after training do not affect consolidation or memory storage, as mice thus treated may retrieve the learned information when they are submitted to an appropriate neurohumoral and/or hormonal state in the test session, that is, beta-endorphin injection. Therefore, the action of PTZ would be primarily at the level of the mechanism that make stored information available for late retrieval.
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PMID:The impairment of retention induced by pentylenetetrazol in mice may be mediated by a release of opioid peptides in the brain. 282 89

Mice were trained in a step-through inhibitory avoidance task with a 0.6-mA, 60-Hz, 2-s footshock and were tested for retention 3 or 6 hr later. Posttraining intraperitoneal administration of a high dose (25.0 micrograms per mouse) of epinephrine (Epi) impaired retention; this effect was counteracted by another injection of the same dose of Epi given before retention testing either 3 or 6 hr after training. When administered before the 6-hr test but not the 3-hr test, however, Epi enhanced retention (i.e., above that of controls). The retention enhancement, but not the reversal of impairing effects of posttraining Epi, was antagonized by naltrexone (20.0 micrograms per mouse). Naltrexone, when administered alone, had no effect on retention when given before testing. However, posttraining administration of naltrexone produced an enhancement of retention detectable 6 but not 3 hr after training. Furthermore, posttraining naltrexone also blocked the impairing effect of posttraining Epi otherwise seen 6 hr after training. These results suggest that the impairment of retention caused by posttraining Epi is attributable to the induction of state dependency based on an Epi state. When the animals are tested 3 hr after training, this effect appears alone. But, when tested 6 hr after training, the Epi effect appears together with an opioid, presumably beta-endorphin-mediated, state dependency.
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PMID:Retention impairment by posttraining epinephrine: role of state dependency and of endogenous opioid mechanisms. 282 4

The blood-brain barrier is capable of transporting peptides with anti-opiate (Tyr-MIF-1) and opiate (enkephalins) activity out of the central nervous system. The relationship of this transport system to the various actions of opiates remains unexplored. This study examined the relationship between the rate of transport and opiate-induced analgesia. Both restraint, a stress that provokes an opiate-mediated analgesia, and the administration of morphine (12 mg/kg, i.p.) each induced an inhibition in the rate of transport. Such inhibition exhibited specificity, since the saturable, brain to blood transport of iodide remained unaltered. However, it was possible to dissociate analgesia and inhibition of transport. The onset and peak of analgesia, as measured by tail-flick latency induced by morphine, preceded the onset and peak of the inhibition of transport. Naltrexone, which blocks opiate-mediated analgesia, also induced inhibition of transport without any significant effect on tail-flick latency. (-) Naloxone but not (+) naloxone also weakly inhibited transport. Deprivation of food and water, associated with analgesia possibly mediated by the opiate, beta-endorphin, which is not transported out of the brain by this system, did not alter transport. These results suggest that while inhibition of transport and analgesia may occur together, these events probably represent two separate aspects of the action of opiates, that may even be mediated by separate receptor sites or peptides in the opiate family.
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PMID:Analgesia and the blood-brain barrier transport system for Tyr-MIF-1/enkephalins: evidence for a dissociation. 289 31

We have investigated the role of adrenal steroids and the opiates in regulating arginine vasopressin (AVP) secretion into the pituitary stalk blood of the rat. The portal plasma concentration of AVP in urethane-anesthetized male rats was 532 +/- 68 pg/ml (mean +/- SEM), while the peripheral plasma AVP concentration in intact urethane-anesthetized rats was 20.7 +/- 5.7 pg/ml. Column chromatography on Sephadex G-25 of an extract of a pool of portal plasma revealed that the material being assayed comigrated with synthetic AVP. Bilateral adrenalectomy (ADX) 5 days before the collection of portal blood elevated portal plasma AVP concentrations approximately 6-fold (655 +/- 124 pg/ml in controls vs. 4090 +/- 504 pg/ml in adrenalectomized animals). Dexamethasone administration (15 micrograms/kg X day) for 5 days prevented the ADX-induced increase in portal plasma AVP concentrations without significantly changing portal plasma AVP concentrations in intact rats. Portal plasma concentrations of beta-endorphin were not changed by ADX or dexamethasone treatment. The iv infusion of morphine sulfate (3 mg/kg) dramatically decreased the concentration of AVP in the portal plasma of the rat (501 +/- 101 pg/ml before morphine vs. 185 +/- 50 pg/ml after morphine). The inhibitory effect of morphine was reversed by naltrexone (1.0 mg/kg), whereas naltrexone alone did not alter AVP secretion. Morphine administration also decreased systemic plasma AVP concentrations in urethane-anesthetized rats (27.1 +/- 6.6 pg/ml in controls vs. 3.3 +/- 1.3 pg/ml in morphine-treated rats). Naltrexone treatment reversed this effect. These results suggest that AVP secretion into pituitary stalk blood is under the inhibitory influence of the adrenal steroids, and the increased concentration of AVP found in portal blood may be partially responsible for the elevated levels of ACTH after ADX. Furthermore, morphine-induced activation of the pituitary-adrenal axis is apparently independent of hypothalamic AVP secretion.
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PMID:The concentration of arginine vasopressin in pituitary stalk plasma of the rat after adrenalectomy or morphine. 293 37

The effect of peak concentrations of beta-endorphin on hepatic portal and peripheral levels of plasma catecholamines, free serotonin, glucose, insulin, and glucagon was studied in trained, conscious, normal adult dogs fitted with an indwelling portal catheter. An injection of synthetic human beta-endorphin (20 micrograms/kg BW) into a cephalic vein produced a significant rise in the portal concentration of dopamine, norepinephrine, and epinephrine. The rise was accompanied by a reduction of portal free serotonin levels. The changes were not seen in the peripheral circulation. No appreciable changes in plasma insulin, glucagon, and glucose concentrations were noticed either in the hepatic portal or in the peripheral circulation. The response of the biogenic amines to beta-endorphin was abolished by pretreatment with Naltrexone (1 mg/kg BW). A dose of somatostatin antiserum given before beta-endorphin did not alter the biogenic amine response to the opioid peptide. When beta-endorphin was administered to pancreatectomized dogs devoid of exogenous and endogenous insulin supply, the biogenic amine response remained virtually the same as in normal intact dogs. It is concluded that in the dog a pulse of beta-endorphin causes profound alterations of splanchnic biogenic amine concentrations that are independent of the ambient levels of insulin, somatostatin, and pancreatic glucagon.
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PMID:The effect of beta-endorphin on biogenic amines, insulin, and glucagon levels in the hepatic portal circulation of normal and pancreatectomized dogs. 294 91

Plasma levels of beta-endorphin-like immunoreactivity (beta-ELI) were measured in premature infants with apnea (n = 11) and compared to those in nonapneic controls (n = 9). Naltrexone (1-3 mg/kg) was given to the infants with apnea, 6 of whom were also receiving methylxanthines. Chest wall movements, nasal airflow, transcutaneous PO2 and electrocardiogram were recorded for 4-6 h prior to and for 4-6 h after administration of naltrexone. Samples for beta-ELI were taken prior to and 1 h post naltrexone. beta-ELI levels were significantly higher (p less than 0.007) in infants with apnea of prematurity than in control infants. No significant difference was found in beta-ELI levels before and after naltrexone. Naltrexone did not decrease the incidence of apnea.
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PMID:Effect of naltrexone on apnea of prematurity and on plasma beta-endorphin-like immunoreactivity. 294 62

The i.c.v. administration of opioid peptides having selectivity for the mu receptor (D-Ala2-NMePhe4-Gly5(ol)enkephalin and FK 33,824) produced effects on the locomotor activity of nondependent and morphine-dependent rats that differed both quantitatively and qualitatively from those effects produced by peptides having selectivity for the delta receptor (D-Ala2-D-Leu5enkephalin and metkephamid) and beta-endorphin, which has similar affinity for both receptors. Peptides selective for the mu receptor: had a biphasic effect on locomotor activity of nondependent rats, inducing an increase at low doses and an initial decrease followed by a later increase at higher doses and had an enhanced stimulant effect on locomotor activity with tolerance to the depressant effect in morphine-dependent rats. Peptides selective for the delta receptor and beta-endorphin: induced only a dose-related increase in the locomotor activity of nondependent rats and had effects on the locomotor activity of morphine-dependent rats that did not differ substantially from those in nondependent rats. Naltrexone (0.1 mg/kg s.c.) and beta-funaltrexamine (5.0 micrograms/rat i.c.v.), an irreversible antagonist, each blocked to a comparable extent the effects of D-Ala2-NMePhe4-Gly5(ol)enkephalin and DAla2-D-Leu5enkephalin on the locomotor activity of nondependent rats. Thus, effects of opioid peptides that act predominantly at mu or delta receptors on locomotor activity cannot be differentiated in nondependent rats by antagonists but can be differentiated in morphine-dependent rats. These results suggest that the depressant and stimulant effects of opioid peptides on locomotor activity are mediated by distinct neuronal sites.
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PMID:Behavioral effects of opioid peptides selective for mu or delta receptors. II. Locomotor activity in nondependent and morphine-dependent rats. 301 31

Naltrexone, an opioid antagonist, had an inhibitory effect on the growth of murine S20Y neuroblastoma in BALB/c nude mice. Daily injections of 0.1 mg naltrexone/kg, which invoked a receptor blockade for 6-8 hours/day, resulted in 31-92% delay in latency time prior to tumor expression and a 27-49% increase in mean survival time; the magnitude of antitumor response was governed by tumor burden. Inoculation of neuroblastoma (10(6)-2.5 X 10(4) cells) resulted in measurable tumors in 10-13 days and mean survival times of 30-34 days. Immunoreactive beta-endorphin was detected in tumor tissue (39.7 pg/mg protein). Receptor binding assays revealed specific saturable binding of ligands related to delta- and kappa-binding sites, but not for the mu-binding site. These results demonstrate that opioid antagonist modulation of neuro-oncogenesis is not dependent on the integrity of T-cell-mediated immunity and suggest the feasibility of utilizing the nude mouse model in exploring the role of endogenous opioids in human cancers.
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PMID:Modulation of murine neuroblastoma in nude mice by opioid antagonists. 302 1

The role of endogenous opioid systems in preweaning development after intrauterine exposure to X-irradiation or ethylnitrosourea (ENU) was explored in rats using naltrexone, a potent antagonist of beta-endorphin. After daily s.c. injections of 50 mg/kg naltrexone only the prenatally untreated controls had body weights increased by 11% from control level on day 28 (weaning). In the X-irradiated as well as the ENU-treated pups no significant effects of naltrexone on body weight gain were observed. However, brain weight increased in all animals under the influence of naltrexone, irrespective of prenatal treatment or the severity of brain lesions: 9.5% above control values in untreated offspring and 14% after X-irradiation (1 Gy) on gestation day 14. The brain weight of ENU-treated rats (50 mg/kg on gest. day 14) was 13% higher after postnatal naltrexone application than that of their postnatally untreated counterparts. ENU (80 mg/kg) effects on the brain when given on gestation day 18 were ameliorated to 9.2% by naltrexone in the weaning period. Naltrexone significantly increased the thymus weight in controls. Prenatally treated animals also showed an increased thymus weight at weaning, presumably due to compensatory growth. In these cases naltrexone revealed a suppressive effect on the thymus, whereas spleen weight was apparently not influenced by naltrexone treatment. These results provide compelling evidence that endogenous opioid systems play a crucial role not only in normal development, but also in reparative growth events of the brain after prenatal injuries. The thymus, predominantly containing T-lymphocytes, seems to represent another sensitive system which is regulated under the influence of opioids.
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PMID:Effects of naltrexone in postnatal rats on the recovery of disturbed brain and lymphatic tissues after X-irradiation or ethylnitrosourea treatment in utero. 356 9

The endogenous opiate system is involved in the regulation of numerous bodily functions, but the literature suggests that the effects of endogenous opioids differ among species and between animals and man. Naltrexone, a relatively pure opiate antagonist, appears to have significant effects on the secretion of the gonadotropins (luteinizing hormone and follicle-stimulating hormone), adrenocorticotropin (ACTH), cortisol, and probably catecholamines. Naltrexone appears to have minor or no effects on prolactin, the pituitary-thyroid axis, growth hormone, insulin, glucagon, vasopressin, and the gut hormones. Naltrexone also seems to reduce food intake and cause weight loss in humans. The dosages of opiate antagonist and the presence of other variables play a major role in the responses seen in various studies.
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PMID:Endocrine and metabolic effects of opiate antagonists. 608 67


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