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)

Immunohistochemistry of peptide- and dopamine-beta-hydroxylase-(DBH)-containing varicose nerve fibres and ganglion cells, respectively, in the guinea pig inferior mesenteric ganglion was investigated following a) transsection of mesenteric (colonic) branches, b) transsection of central (lumbar splanchnic, intermesenteric and hypogastric) branches, and c) transplantation into the spleen. The findings indicate that pathways of different opioid peptides are not identical. Met-enkephalin- and met-enkephalin-arg-phe- (cleavage products from pre-proenkephalin) containing fibres course in central branches to make contact in the inferior mesenteric ganglion. Dynorphin- and alpha-neo-endorphin- (deriving from pre-prodynorphin) containing fibres as well as leu-enkephalin- (included in the dynorphin sequence) fibres appear to rise not only from central and from enteric somata, but also from intraganglionic noradrenergic neurons. Similar pathways seem to be used by VIP- and by neurotensin-immunoreactive fibres, although intraganglionic neurotensin-immunoreactive cell bodies are rare. Practically all substance P- and most CGRP-immunoreactive fibres enter the ganglion via central branches and, to a large extent, traverse it, but some CGRP-immunoreactive influx appears to come from the intestine. The origin of intraganglionic substance P- and CGRP-immunoreactive fibres after ganglion transplantation remained unidentified. Somatostatin- and neuropeptide Y-immunoreactive fibres predominantly have an intraganglionic origin as have DBH-immunoreactive noradrenergic fibres. The demonstrated alterations in neuropeptide immunoreactivity of intraganglionic and periganglionic nerve fibres following the applied transsection procedures contribute to the present knowledge on origin and destination of peptidergic transmitter segments in the guinea pig inferior mesenteric ganglion. Moreover, the present study provides evidence that intrinsic participation in intraganglionic fibre supply is more extensive than hitherto believed.
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PMID:Immunohistochemistry of biogenic polypeptides in nerve cells and fibres of the guinea pig inferior mesenteric ganglion after perturbations. 336 35

We have developed a method that is based on two HPLC systems and permits the separation of endogenous opioid peptides in tissue extracts. The individual peptides are bioassayed on the mouse isolated vas deferens; naloxone (100 nM) ensures opioid specificity. In the myenteric plexus-longitudinal muscle preparation of the guinea-pig small intestine, the tissue content of prodynorphin-derived peptides is lower than those of proenkephalin-derived peptides. No beta-endorphin was detected. Of the prodynorphin fragments, alpha-neoendorphin, beta-neoendorphin, dynorphin A(1-8), and dynorphin B are present in equimolar concentrations (12-15 pmol/g) whereas the tissue content of dynorphin A is only 0.8 pmol/g. Processing of proenkephalin leads to at least six opioid peptides. The tissue contents of [Leu5]enkephalin, [Met5]enkephalyl-Arg-Gly-Leu, and [Met5]enkephalyl-Arg-Phe are 90-100 pmol/g and the content of [Met5]enkephalin is 405 pmol/g. BAM-18 and [Met5]enkephalyl-Arg-Arg-Val-NH2 are present in much lower concentrations, 24 and 5 pmol/g, respectively. Although present in low amounts, BAM-18 and [Met5]-enkephalyl-Arg-Arg-Val-NH2 have high affinity for the mu-opioid binding site and to a lesser extent for the kappa-site; this binding profile differs from that of the other proenkephalin fragments all of which have high affinities for the mu- and delta-sites.
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PMID:Tissue content of opioid peptides in the myenteric plexus-longitudinal muscle of guinea-pig small intestine. 337 12

The peptides met- and leu-enkephalin were identified in the telencephalon, rombencephalon, diencephalon and hypophysis of Ambystoma mexicanum brain by radioimmunoassay procedure. The met-enkephalin was the predominant peptide present in the axolotl brain in contrast with leu-enkephalin, except in the hypophysis where the ratio MET/LEU was 2.2/l. The clear differences in the concentration between enkephalins through a submammalian brain species as Ambystoma genus and the possibility that leu-enkephalin is derived exclusively from a precursor like prodynorphin offers an excellent model for the opioids biosynthetic processes.
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PMID:IR-Met and IR-Leu enkephalin content in the axolotl brain (Ambystoma mexicanum). 341 59

The effect of chronic fenfluramine (20 mg/kg, once daily) injections on the brain and peripheral immunoreactive (ir) dynorphin (DYN), alpha-neoendorphin (ANEO) and beta-endorphin (BE) was studied in rats. Fenfluramine injected repeatedly for 5 and 9 days induced anorexia. In the same animals there were no significant changes in the ir-DYN and ir-ANEO contents in the brain and pituitary. However, the ir-DYN and ir-ANEO contents in the gastrointestinal tract (duodenum) were markedly decreased after 5 and 9 days of fenfluramine injection. In contrast to ir-DYN and ir-ANEO, there was an increase in the hypothalamic and a decrease in the anterior lobe of pituitary ir-BE content. There was no significant change in the neurointermediate (NI) lobe of the pituitary. The results of our study suggest that part of the fenfluramine anorexia may be mediated by the peripheral prodynorphin and central beta-endorphin systems.
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PMID:Involvement of endogenous opioid peptides in fenfluramine anorexia. 346 88

Five opioid peptides (immunoreactivity) derived from their respective opioid precursors were measured in neuroblastoma-glioma hybrid cells (NG 108CC15; pmol/g protein): heptapeptide (Tyr-Gly-Gly-Phe-Met-Arg-Phe), 13.0 +/- 2.6; alpha-neoendorphin, 6.6 +/- 0.8; dynorphin A, 4.4 +/- 1.5; dynorphin A 1-8, 1.3 +/- 0.29; beta-endorphin, 0.3 +/- 0.13. These peptides originate from preproenkephalin A (heptapeptide), prodynorphin (alpha-neonedorphin, dynorphin A, dynorphin A 1-8) and proopiomelanocortin (beta-endorphin). The data suggest the expression of all three known opioid precursors in a single hybrid cell line, permitting a simultaneous investigation of the processing of different opioid peptides under identical experimental conditions.
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PMID:Evidence for the expression of peptides derived from three opioid precursors in NG 108CC15 hybrid cells. 356 21

Opioid peptides derived from prodynorphin were localized immunocytochemically to dentate granule cells and mossy fibers of the rat hippocampus with antisera against dynorphin A(1-17) and dynorphin B. Extracts of microdissected hippocampal regions were resolved by reverse phase and molecular exclusion chromatography to identify the molecular forms of the dynorphin A immunoreactivity and to quantify regional contents. Results demonstrated that the relative concentration of dynorphin A within each dissected region of hippocampus agreed well with the distribution of dynorphin A detected by immunocytochemical methods. Immunostaining of proenkephalin-derived opioid peptides, [Leu5]enkephalin and bovine adrenal medullary peptide-22P, was concentrated in cell bodies of the entorhinal cortex, nerve fibers in the perforant pathway, and terminals in the outer molecular layer of the dentate gyrus. Light immunostaining of granule cells and mossy fibers with these antisera was also found. The relative concentration of [Leu5]enkephalin immunoreactivity in each microdissected region of the hippocampus also agreed well with the distribution of [Leu5]enkephalin immunostaining. Chromatography of hippocampal regional extracts demonstrated that the immunoreactivity measured was due to the presence of authentic [Leu5]enkephalin. The probable neurotransmitter function of both [Leu5]enkephalin and dynorphin A was shown by their calcium-dependent release after in vitro depolarization of hippocampal tissue. The reported presence of beta-endorphin in hippocampus was not verified. Comparison of the hippocampal distribution and content of prodynorphin and proenkephalin-derived opioids suggests that separate populations of neurons containing these two peptide families form distinct neurotransmitter systems of roughly equal concentration.
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PMID:Characterization of the prodynorphin and proenkephalin neuropeptide systems in rat hippocampus. 383 45

Peptides derived from both proenkephalin and prodynorphin have been identified in guinea pig adrenal medulla. In extracts of whole adrenal glands radioimmunoassays directed to the prodynorphin-derived peptides alpha-neoendorphin, dynorphin A, and dynorphin B detected high concentrations of immunoreactive material ranging from 113 to 216 pmol/gm. The concentrations measured by radioimmunoassays directed to the proenkephalin products met-enkephalin-Arg-Gly-Leu and met-enkephalin-Arg-Phe were 878 and 484 pmol/gm, respectively. No metorphamide or dynorphin(1-8) could be detected in the adrenals. Leucine-enkephalin immunoreactivity which can be generated from either prodynorphin or proenkephalin could also be measured in the extracts. Gel filtration showed the immunoreactive material, with the exception of that measured by the alpha-neoendorphin radioimmunoassay, to be predominantly of high molecular weight ranging from Mr = 3,000 to 12,000. Immunocytochemistry, using well characterized antisera to alpha-neoendorphin and met-enkephalin-Arg-Gly-Leu, demonstrated that the prodynorphin and proenkephalin products were present in the same cells in the medulla region of the gland. The results show that two opioid peptide precursors can be localized in the same cells and exhibit some common features in their processing. As a relatively homogeneous, localized system, the guinea pig adrenal gland should prove a valuable, in vivo model for the study of co-localized opioid precursors.
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PMID:Co-localization and characterization of immunoreactive peptides derived from two opioid precursors in guinea pig adrenal glands. 390 23

The three endogenous opioid precursors of almost 30000 Da are pro-opiocortin, proenkephalin and prodynorphin. Pro-opiocortin contains beta-endorphin, melanotropins and ACTH. Proenkephalin yields one [Leu5]enkephalin, three [Met5]enkephalins, one [Met5] enkephalyl-Arg-Arg-Val-NH2 (metorphamide or adrenorphin), one [Met5]enkephalyl-Arg-Gly-Leu and one [Met5]enkephalyl-Arg-Phe. [Leu5]enkephalin is common to all fragments of prodynorphin; its carboxyl extension by Arg-Lys leads to alpha- and beta-neo-endorphin and its carboxyl extension by Arg-Arg gives two dynorphins A and B of 17 and 13 amino acids, respectively. Another endogenous peptide is dynorphin A (1-8). The three main opioid binding sites are mu, delta and kappa. Their analysis has been facilitated by the synthesis of analogues of peptides and non-peptide compounds, which have selective agonist or antagonist action at only one site. The various physiological roles of the three types of the opiate receptor have so far not been sufficiently investigated.
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PMID:Radioligands for probing opioid receptors. 609 50

The nucleotide sequence of a 6.8-kb region of human DNA containing the proenkephalin gene and flanking regions is reported. The gene consists of four exons separated by three introns and spans approximately 5.3 kb of DNA. Location and identification of several repetitive DNA sequences within and flanking the gene are also described. The distribution of CpG dinucleotides as well as the extent of CpG methylation at several restriction sites within and surrounding the gene is also presented. The structural organization of the human proenkephalin gene exhibits striking similarities to the organization of the human pro-opiomelanocortin (POMC) gene. Nucleotide sequence homologies suggest that two opioid peptide precursors, proenkephalin and prodynorphin, may have arisen by duplication from a common ancestral gene.
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PMID:Primary structure of the human proenkephalin gene. 631 26

Opioid peptides are synthesized in the form of large precursors, which contain the information for more than one biologically active peptide. Using recombinant DNA technology, three opioid precursors have been sequenced: pro-opiomelanocortin (POMC), proenkephalin and prodynorphin. Analysis of the structures of these three precursors and their corresponding genes show striking similarities suggesting a common evolutionary mechanism. Regulation of POMC gene expression has been analyzed in different rat tissues. Detection of POMC mRNA in brain tissues supports the hypothesis that ACTH and endorphin peptides are synthesized in these tissues. Quantitation of POMC mRNA levels in pituitaries of rats subjected to adrenalectomy and glucocorticoid treatment shows that the feedback effect of the glucocorticoids occurs at the level of the rate of transcription of POMC mRNA.
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PMID:Regulation of opioid gene expression. 631 1

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