UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endogenous opioid peptides derived from several gene families are localized within hypothalamic regions known to be involved in the regulation of reproduction. For example, the proenkephalin gene products, met- and leu-enkephalin, and the proopiomelanocortin (POMC) gene product, beta-endorphin, are found in the rat medial preoptic area (MPOA). Moreover, the expression of these peptides and their receptors varies across the estrous cycle in the female rat. We have examined the gonadal steroid regulation of mu-opiate receptors and opioid peptides in the MPOA, and POMC mRNA expression in neurons that innervate the MPOA. mu-Opiate receptors in the MPOA are sexually dimorphic and gonadal steroid hormone-dependent. Hormonal priming of ovariectomized rats with estrogen and progesterone (P) upregulates MPOA mu-receptors 27, but not 3, hr after P treatment. Inhibition of protein synthesis during the first 6 hr after P prevents receptor upregulation. The density of beta-endorphin fibers in the MPOA also increases following hormone treatment, and POMC mRNA expression in neurons that innervate the MPOA is induced by hormone treatment beginning 13 hr after P treatment. This delayed response might be ubiquitous among POMC neurons, as those innervating the median eminence also exhibit increased POMC mRNA expression along a similar time course. The results suggest that hormonal feedback regulates opioid peptides which act at mu-receptors in the MPOA to influence reproductive behavior and cyclicity. These opioid functions represent an important component in the complex regulatory processes which control reproduction.
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PMID:Gonadal steroid hormones and hypothalamic opioid circuitry. 772 11

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

Valproic acid (VPA) induces abstinence behavior and analgesia and displays an anticonvulsant effect, but its exact mechanism of action is not yet clear. In order to view whether proenkephalin derived-peptides are involved in the mechanism of VPA-induced behavior, we analyzed immunoreactive-met-enkephalin (IR-ME) in rat striatum, midbrain, and amygdala 10, 20, and 45 min after i.p. injection of 200 mg/kg of VPA. VPA induced body shakes that peaked within 5 to 10 min. IR-ME increased in the striatum and decreased in the midbrain at 10, 20, and 45 min, reaching the highest and lowest levels at 10 and 20 min, respectively. No changes occurred in the amygdala. Gel filtration chromatography followed by HPLC of striatum extracts showed that the increased IR-ME levels corresponded to low molecular weight peptides, including ME. These results indicate that VPA produced rapid changes of IR-ME levels in rat brain and suggest peptide participation in the mechanisms of VPA-induced behavior. The anticonvulsant effect of VPA was tested in rats treated with pentylenetetrazol (70 mg/kg) 30 min after VPA (400 mg/kg) administration, and IR-ME was analyzed in striatum 15 min later. No changes in striatal IR-ME levels occurred in protected rats (no behavioral convulsions), compared with those treated only with VPA, but a significant decrease appeared in unprotected animals (clonic convulsions). These results suggest that striatal ME may participate in the mechanism of VPA-induced abstinence behavior and in the anticonvulsant effect. Otherwise, midbrain ME might be involved in other VPA behaviors such as analgesia.
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PMID:Valproic acid-induced rapid changes of met-enkephalin levels in rat brain. Probable association with abstinence behavior and anticonvulsant activity. 781 91

The role of the opioid receptor-endogenous opioid peptide system in mediating analgesia induced by nitrous oxide has been a controversial subject. Most previous studies provided only indirect evidence either to support or refute the involvement of opioid receptors and/or endogenous opioid peptides. To provide more direct evidence, we measured concentrations of five naturally occurring endogenous opioid peptides in third ventricular cerebrospinal fluid from eight acclimated dogs with chronically implanted ventricular catheters. Paired samples of cerebrospinal fluid were obtained from each animal when breathing room air or 66-75 vol% nitrous oxide in oxygen through a face mask. Endogenous opioid peptides were physically separated using reversed phase high-performance liquid chromatography and quantified using radioimmunoassays. Nitrous oxide inhalation increased cerebrospinal fluid concentrations of met5-enkephalin from a control value of 0.30 +/- 0.07 (mean +/- SEM, n = 8) to 42.4 +/- 8.1 pmol/mL (P = 0.0006). Increases ranged from 28 to more than 400 times the control value. Met5-enkephalin-arg6-phe7 concentrations also increased from 14.5 +/- 2.5 to 57.6 +/- 17.8 pmol/mL (P = 0.018). No significant changes were noted in concentrations of dynorphin A, dynorphin B, or beta-endorphin. These results directly support the hypothesis that nitrous-oxide-induced analgesia involves the proenkephalin-derived family of endogenous opioid peptides.
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PMID:Nitrous oxide selectively releases Met5-enkephalin and Met5-enkephalin-Arg6-Phe7 into canine third ventricular cerebrospinal fluid. 789 15

One of the functions of glial receptors is to regulate synthesis and release of a variety of neuropeptides and growth factor peptides, which in turn act on neurons or other glia. Because of the potential importance of these interactions in injured brain, we have examined the role of two different receptors in the regulation of astrocyte neuropeptide synthesis. Stimulation of beta-adrenergic receptors on type 1 astrocytes resulted in increased mRNA and protein for the proenkephalin (PE) and somatostatin genes. This receptor also increased expression of nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF). The potential role of opiate receptors was examined in several ways. Treatment of newborn rats for 7 days with the opiate antagonist naltrexone, prior to preparation of astrocytes, had no effect on PE mRNA or met-enkephalin content but resulted in a significant increase in NGF content. However, treatment of astrocytes in culture with met-enkephalin, morphine, or naltrexone had no effect on any of these parameters. No opiate binding could be detected, using either etorphine or bremazocine, to membranes of astrocytes prepared from cortex, cerebellum, striatum, or hippocampus of 1-day, 7-day, or 14-day postnatal rats. Thus we conclude that type 1 astrocytes do not express opiate receptors and that the in vivo effects of naltrexone are mediated indirectly via some other cell type/receptor.
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PMID:Receptor-mediated regulation of neuropeptide gene expression in astrocytes. 792 46

In addition to the release of adenohypophysial hormones adrenocorticotropin and beta-endorphin, most types of acute stress induce rapid release of prolactin (PRL) from the anterior pituitary lobe. Endogenous opioid peptides are believed to participate in the stress-induced PRL secretion via an action within the central nervous system. In the present study, we have investigated the effect of acute stress on anterior pituitary PRL secretion and the hypothalamic expression of messenger ribonucleic acids (mRNAs) encoding precursors of the endogenous opioids Met-enkephalin and beta-endorphin. Adult male rats were subjected to 1 h of restraint and the stress-induced rise in plasma PRL was measured both during and after termination of the stress paradigm. Using quantitative in situ hybridization histochemistry, it was observed that levels of proenkephalin A mRNA increased significantly within the medial parvocellular subset of the hypothalamic paraventricular nucleus, and within the arcuate nucleus levels of proopiomelanocortin (POMC) mRNA were slightly, but significantly, increased. The employed stress paradigm also induced an elevation of anterior pituitary levels of PRL and POMC mRNAs. The present data suggest that restraint stress activates gene expression of endogenous opioid systems in the hypothalamus and that the employed stress paradigm is of sufficient magnitude to stimulate both mRNA expression and release of PRL in the anterior pituitary lobe.
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PMID:Effect of acute stress on the expression of hypothalamic messenger ribonucleic acids encoding the endogenous opioid precursors preproenkephalin A and proopiomelanocortin. 798 95

AtT-20 cells, which make and release beta-endorphin, or AtT-20/hENK cells, an AtT-20 cell line transfected with the human proenkephalin gene and secreting enkephalin as well as presumably beta-endorphin, were implanted in mouse spinal subarachnoid space. Cell implants did not affect the basal response to thermal nociceptive stimuli. Administration of isoproterenol, believed to stimulate secretion from these cells, produced antinociception in groups receiving AtT-20 or AtT-20/hENK cell implants but not in control groups receiving no cells. The antinociceptive effect of isoproterenol was dose related and could be blocked by the opioid antagonist naloxone. Implantation of these cells offers a novel approach for the study of tolerance. Mice receiving AtT-20 cell implants developed tolerance to beta-endorphin and the mu-opioid agonist DAMGO, whereas mice receiving genetically modified AtT-20/hENK cell implants developed tolerance to the delta-opioid agonist DPDPE. Genetically modified AtT-20/hENK cell implants, but not AtT-20 cell implants, reduced the development of acute morphine tolerance in the host mice. This finding is consistent with the suggestion that enkephalin alters development of opioid tolerance. These results suggest that opioid-releasing cells implanted around mouse spinal cord can produce antinociception and may provide an alternative therapy for chronic intractable pain.
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PMID:Implantation of AtT-20 or genetically modified AtT-20/hENK cells in mouse spinal cord induced antinociception and opioid tolerance. 804 51

Endogenous opioids, including methionine enkephalin, have been implicated in the control of adrenocorticotrophic hormone release by acting through mu-opiate receptors in the hypothalamus. Recently, alterations in the central opioid system have been postulated to occur in cholestasis. In addition, alterations in hypothalamic corticotropin-releasing hormone content and messenger RNA levels, as well as basal release, have been described in bile duct-resected rats, and hypothalamic methionine enkephalin is colocalized with corticotropin-releasing hormone in hypothalamic neurons. Therefore hypothalamic and pituitary methionine enkephalin content and hypothalamic proenkephalin messenger RNA levels, as well as hypothalamic mu-opiate receptor-mediated responses in vitro and in vivo, were studied in rats with acute cholestasis caused by bile duct resection and in respective controls. Hypothalamic and pituitary methionine enkephalin levels were similar in bile duct-resected, sham-resected and unoperated control rats. In addition, hypothalamic proenkephalin steady state messenger RNA levels were similar in the three groups of animals. mu-Opiate receptor stimulation of hypothalamic explants in vitro with the specific mu-opiate receptor agonist ligand [D-Ala2,N-Me-Phe4,Gly-ol]-Enkephalin resulted in 8.2% and 16.9% inhibition of corticotropin-releasing hormone release in sham-resected and unoperated control rats, respectively. In contrast, treatment of hypothalamic explants from bile duct-resected rats with [D-Ala2,N-Me-Phe4,Gly-ol]-Enkephalin resulted in a significant 22.5% increase in corticotropin-releasing hormone release. Systemic administration of the mu-opiate receptor agonist morphine to rats in vivo resulted in significantly higher incremental rises in plasma adrenocorticotropic hormone levels in sham-resected and unoperated control animals than in bile duct-resected rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in hypothalamic mu-opiate receptor-mediated responses but not methionine enkephalin or proenkephalin messenger RNA levels in rats with acute cholestasis. 807 27

The immediate-early gene c-fos (a nuclear transcription factor) has been viewed as a nuclear "third messenger" or cellular "master switch." Both in vitro and in vivo studies have suggested that the proenkephalin (Penk) and tyrosine hydroxylase (TH) genes are potential targets of this immediate-early gene. We investigated the relationships between the activation of the c-fos gene and the activation of the Penk and TH genes in both rat hippocampus and adrenal using a commonly used model, metrazole (MTZ)-induced convulsions. The administration of MTZ produced a sequential elevation in c-fos, preproenkephalin (PPenk), and TH mRNAs. One hour after MTZ administration, c-fos mRNA was increased about 10-fold in rat hippocampus and about 5-fold in rat adrenal, without a significant change in spinal cord levels. Immunocytochemistry revealed that Fos-like immunoreactivity was greatly increased in both hippocampus and adrenal medulla at 3 hr after MTZ administration. The levels of PPenk and TH mRNAs were significantly increased (5-fold and 3-fold, respectively) in the adrenal 6 hr after MTZ treatment. The effects of MTZ on c-fos, PPenk, and TH mRNAs were dose dependent in both adrenal and hippocampus. In the adrenal, both the basal levels and the MTZ induction of PPenk mRNA were significantly attenuated by hypophysectomy (hypox) and were partially reinstated by adrenocorticotropic hormone (ACTH) replacement. In contrast, the basal levels of c-fos and TH mRNAs were not altered in hypox rat adrenal. ACTH treatment completely blocked the MTZ induction of adrenal c-fos mRNA and the subsequent induction of Fos-like immunoreactivity, whereas MTZ increased PPenk and TH mRNAs nearly 3-fold. Thus, in hypox rats MTZ can increase adrenal c-fos and TH mRNA levels without a corresponding increase in PPenk mRNA, whereas in ACTH-treated rats PPenk and TH mRNA levels in adrenal can be increased by MTZ without a preceding increase in c-fos mRNA. The MTZ induction of c-fos appears neither sufficient nor always necessary for the subsequent MTZ induction of Penk and TH gene expression. We conclude that c-fos, Penk, and TH genes can be differentially regulated in the adrenal of hypox rats or animals treated with ACTH, although they are co-localized in the same medullary cells.
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PMID:Metrazole induces the sequential activation of c-fos, proenkephalin, and tyrosine hydroxylase gene expression in the rat adrenal gland: modulation by glucocorticoid and adrenocorticotropic hormone. 810 82

AtT-20 cells, which produce beta-endorphin, and AtT-20/hENK cells, which are AtT-20 cells transfected with a proenkephalin gene, were implanted in the rat spinal subarachnoid space in an effort to produce an antinociceptive effect. Host rats were tested for antinociceptive activity by standard nociceptive tests, tail flick and hot plate. Although cell implants had minimal effect on the basal response to thermal nociceptive stimuli, administration of the beta 2-adrenergic agonist isoproterenol produced antinociception in the cell-implanted group but not in the control group. The antinociceptive effect of isoproterenol was dose-related and could be blocked by the opioid antagonist naloxone. Immunohistochemical analysis of spinal cords revealed the presence of enkephalin-negative cells surrounding the spinal cord of rats receiving AtT-20 cell implants, and enkephalin-positive cells surrounding the spinal cord of rats receiving AtT-20/hENK cell implants. These results suggest that opioid-releasing cells implanted around rat spinal cord can produce antinociception and may provide an alternative therapy for chronic pain.
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PMID:Antinociception following implantation of AtT-20 and genetically modified AtT-20/hENK cells in rat spinal cord. 811 Aug 61

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