UNIPROT:P01189 - FACTA Search

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)

Cortisol administered at a dose of 25 mg/kg 24 h before measurements decreased the prolactin secretion induced by intraventricularly given opioids (dynorphin, beta-endorphin, Met-enkephalin or D-Met-Pro-enkephalinamide). The effect of cortisol was depressed by actinomycin D pretreatment. The cortisol-induced inhibition of the action of morphine was facilitated in adrenalectomized animals; measuring the effects of increasing doses of cortisol a maximal inhibition was obtained at a dose of 5 mg/kg. The opioid-induced corticosterone secretion was not affected 24 h after a single administration of cortisol. The present results show that the cortisol-induced inhibition of opioid-induced prolactin secretion is dependent on protein synthesis and independent of changes in drug metabolism, and of the type of opiate receptor preferentially affected by the opiate agonists employed.
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PMID:Prolactin release induced by opiate agonists, effect of glucocorticoid pretreatment in intact and adrenalectomized rats. 290 15

1. The changes in FMRFamide (Phe-Met-Arg-Phe-NH2) immunoreactivity in response to incubation in dopamine, serotonin, met-enkephalin, oxytocin, arg-vasopressin and FMRFamide were examined in the central nervous system of the snail, Achatina fulica. 2. When the central nervous system was cultured in medium which contained dopamine and in medium which contained serotonin, the number of immunoreactive neurons increased in the anterior part of the cerebral ganglion and decreased in the sub-esophageal ganglion. 3. When arg-vasopressin was added to the culture medium, the number of immunoreactive neurons increased in the pedal ganglion and decreased in the other sub-esophageal ganglion. 4. By contrast, when the central nervous system was cultured in medium which contained oxytocin, the number of immunoreactive neurons did not increase, but rather decreased, in each ganglion. 5. No changes in immunoreactivity were detected in the central nervous system when it was cultured in medium which contained FMRFamide. 6. It appears, from these results, that the production and release of FMRFamide from different neurons are differentially affected by the physiologically active substances tested.
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PMID:Dynamics of FMRFamide immunoreactivity in response to physiologically active substances in the central nervous system of the snail, Achatina fulica. 290 40

The degradation of opioid peptides by human placental aminopeptidase M was studied by measuring liberated amino acids by high performance liquid chromatography. The purified placental aminopeptidase M actively degraded Met-enkephalin (Met-Enk) and Leu-enkephalin (Leu-Enk) completely into constituent 5 amino acids. The activities as a function of tyrosine liberation were observed for Met-Enk followed by Leu-Enk, beta-neoendorphin, dynorphin, and beta-endorphin.
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PMID:In vitro degradation of opioid peptides by human placental aminopeptidase M. 290 92

The regional distribution of the three opioid peptide neuronal systems--proopiomelanocortin (POMC), proenkephalin A, and proenkephalin B--was investigated in the lower brainstem of Japanese monkeys (Macaca fuscata) by immunocytochemical techniques. Antiserum to beta-endorphin/beta-lipotropin, [Met]-enkephalin-Arg6-Gly7-Leu8, and human leumorphin were used to identify the POMC and the proenkephalin A and B systems, respectively. POMC-related immunoreactive material was not found in the neuronal perikarya in the lower brainstem; reactive fibers and apparent terminals were distributed in the substantia nigra, lemniscus lateralis, midbrain central gray, the nucleus raphes, nucleus parabrachialis lateralis, ventral area of the spinal trigeminal nerve, nucleus tractus solitarii, and in the reticular formation throughout the lower brainstem. Proenkephalin A-related immunoreactive neuronal perikarya were detected in the central gray, reticular formation, nucleus raphes, trapezoid body, nucleus parabrachialis lateralis and medialis, nucleus spinalis nervi trigemini, nucleus dorsalis nervi vagi, and in the nucleus tractus solitarii. Densely packed immunoreactive fibers were widely distributed in the substantia nigra, nucleus interpeduncularis, nucleus raphes, superior colliculus, periaqueductal central gray, nucleus parabrachialis lateralis and medialis, locus coeruleus, trapezoid body, nuclei cochleares, nucleus spinalis nervi trigemini, tractus spinalis nervi trigemini, nucleus tractus solitarii, nucleus dorsalis nervi vagi, nucleus gracilis, nucleus cuneatus, nucleus cuneatus accessorius, and in the reticular formation throughout the lower brainstem. Neuronal perikarya containing immunoreactive material related to proenkephalin B were found in the periaqueductal central gray, nucleus parabrachialis lateralis and medialis, nucleus tractus solitarii, and nucleus spinalis nervi trigemini. In addition, immunoreactive fibers were detected in the ventral tegmental area, substantia nigra, nucleus parabrachialis lateralis and medialis, nucleus vestibularis lateralis and medialis, and in some areas of the reticular formation. These anatomical findings demonstrate that these three opioid peptide neuronal systems are widely but uniquely distributed in the lower brainstem of the monkey.
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PMID:Comparative distribution of three opioid systems in the lower brainstem of the monkey (Macaca fuscata). 291 80

To study the physiological roles of endogenous opioid peptides in drinking and feeding behaviors, the effects of water deprivation and fasting on plasma immunoreactive (IR) beta-endorphin (beta-end), IR-Antidiuretic hormone (ADH) and IR-Prolactin (Prl), pituitary IR-beta-end and IR-methionine-enkephalin (IR-Met-enk) and IR-ADH, and hypothalamic IR-beta-end and IR-Met-enk were observed in rats. The effects of water deprivation on hypothalamic dopaminergic system was also studied. In water deprived rats, plasma IR-beta-end and Prl were decreased significantly. In the neurointermediate lobe, IR-Met-enk, but not IR-beta-end, was decreased, although these peptides did not change in the anterior lobe and hypothalamus. Intraperitoneal injection of haloperidol reversed the decrease in plasma IR-beta-end in water deprived rats but did not change it in control rats. Subcutaneous injection of CB-154, on the other hand, decreased the plasma IR-beta-end in control rats but not in water deprived rats. The dopamine (DA) turnover rate in hypothalamus, in addition, was increased in water deprived rats as compared with controls. In fasted rats, IR-beta-end in plasma, but not in pituitary lobes and hypothalamus, was increased. The present results suggest that the increase of hypothalamic dopaminergic activity, in part, is related to the suppressed secretions of pituitary IR-beta-end and Prl in water deprivation, and plasma IR-beta-end play some roles in feeding behavior in rats.
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PMID:Influences of water deprivation and fasting on hypothalamic, pituitary and plasma opioid peptides and prolactin in rats. 294 40

We have recently shown that in addition to beta-endorphin the opioid peptides Met- and Leu-enkephalin and their apparent precursors are localized in islet endocrine cells of the rat pancreas. To begin evaluating a possible role for these pancreatic opiates in the pathophysiology of genetic diabetes in rodents, immunoreactive beta-endorphin and Met- and Leu-enkephalins were measured in acetic acid extracts of pancreas and pituitary of C57BL/KsJ db/db mice and their lean littermates. Groups of animals were studied during three phases of development of the diabetic syndrome in the mutant mice: at 4 (hyperinsulinemic and prediabetic); 6, 9, and 12 (frankly obese and diabetic); and 30 (hypoinsulinemic) wk of age. Elevations or decreases (P less than .05) were found in db/db mice (vs. lean littermates) as follows: pituitary content of Met-enkephalin was twofold higher at all ages studied; pituitary free Leu-enkephalin was lower at 4 wk and reversed to higher at 6-30 wk; pancreatic beta-endorphin was 30% lower at 4 wk and reversed to threefold higher at 6-12 wk; Met- and Leu-enkephalin-containing larger peptides were elevated at one or more points between 6 and 12 wk in both the pancreas and the pituitary. Thus, the onset of overt obesity between 4 and 6 wk of age was accompanied by a marked rise in both pancreatic beta-endorphin and pituitary Leu-enkephalin; similar elevations in these parameters have been reported previously in C57BL/6J ob/ob mice at approximately 12 wk of age.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered beta-endorphin, Met- and Leu-enkephalins, and enkephalin-containing peptides in pancreas and pituitary of genetically obese diabetic (db/db) mice during development of diabetic syndrome. 294 83

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

An in-vitro superfusion system was used to study the effects of the endogenous opioid peptides [Met]-enkephalin (and its long-lasting analogue [D-Ala2,Met]-enkephalinamide), [Leu]-enkephalin and beta-endorphin and of the opiate antagonist naloxone, on the secretion of LHRH from the mediobasal hypothalamus of the cockerel. The effects of the compounds on both basal release of LHRH and on release stimulated by a depolarizing pulse of increased extracellular potassium ion (64 mmol/l) were investigated. None of the endogenous opioid peptides altered basal release of LHRH; however, both [Met]-enkephalin (10 mumol/l) and [D-Ala2,Met]-enkephalinamide (1 mumol/l) significantly (P less than 0.05) reduced the response to depolarization. Neither [Leu]-enkephalin nor beta-endorphin (0.1-10 mumol/l) were effective. Naloxone (1 mumol/l) administered alone significantly (P less than 0.05) increased basal release of LHRH and abolished the inhibitory effects of [Met]-enkephalin and [D-Ala2,Met]-enkephalinamide on depolarization-induced release. These results suggest that the endogenous opioid peptides exert a tonic inhibitory influence on LHRH secretion by the mediobasal hypothalamus of the cockerel.
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PMID:Modulation by endogenous opioid peptides of the secretion of LHRH from cockerel (Gallus domesticus) mediobasal hypothalamic tissue. 295 76

Lymphocytes stimulated by mitogens or antigens exhibit an enhanced calcium uptake early in the proliferation or activation response. Modulation of this calcium uptake results in alterations of proliferation and immunocompetence. beta-endorphin and other opioids affect several parameters of lymphocyte competence. Limited data are available concerning the mechanism(s) of these effects. This study examines whether a possible opioid mechanism is the modification of the early calcium influx into stimulated lymphocytes. The time course of both concanavalin A (Con A) and phytohemagglutinin (PHA)-stimulated 45Ca2+ uptake into thymocytes was characterized to determine the optimal time for testing the effects of opioids. beta-Endorphin 1-31 significantly enhanced Con A-stimulated 45Ca2+ uptake into rat thymocytes. This peptide had no significant effect on PHA-stimulated 45Ca2+ uptake or on basal thymocyte 45Ca2+ flux. The beta h-endorphin stimulatory effect was titratable in the range of 0.1 nM to 10 microM. Naloxone did not reverse the enhancement. Met-enkephalinamide and other opioid agonists did not duplicate the stimulatory effect. Thus, the beta h-endorphin 1-31 enhancement of Con A-stimulated 45Ca2+ uptake by rat thymocytes does not operate via classical opioid receptor mechanisms. beta h-endorphin 1-31 appears to be acting on a subset of T cells that are responsive to Con A but not to PHA.
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PMID:Beta-endorphin modulation of mitogen-stimulated calcium uptake by rat thymocytes. 295 69

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

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