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: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to assess changes in enkephalin release and biosynthesis, the levels of the tripeptide Tyr-Gly-Gly (YGG), a characteristic extracellular metabolite of enkephalins, and of the proenkephalin mRNA in mouse striatum were evaluated after a single administration of GABAergic agents. Significant and long-lasting decreases in steady state YGG levels were elicited by muscimol, a gamma-aminobutyric acid-A (GABAA) receptor agonist, diazepam, a benzodiazepine receptor agonist, or aminooxyacetic acid, a GABA-transaminase inhibitor. In addition, muscimol offset the elevation of striatal YGG elicited by bestatin, an aminopeptidase inhibitor, which entirely drives the released enkephalins into the metabolic pathway operated by enkephalinase (EC 3.4.24.11). Diazepam potentiated the effect of muscimol so that the YGG decrease induced by the combination of these two drugs was maximal after 30 min (-60%) and still significant (-40%) after 6 h, this potentiation being antagonized by pre-treatment with Ro 15-1788, a specific benzodiazepine receptor antagonist. By contrast [Met5]enkephalin steady-state levels were marginally affected by GABAergic agents, being only slightly reduced 6 h after the combination of muscimol and diazepam. After 3 h the same treatment also reduced by about 30% the level of proenkephalin mRNA, this change being maximal after 6 h (-45%) and still present after 24 h. These compared changes in various indexes of enkephalin neuron activity suggest that stimulation of GABAA receptors depresses enkephalin release immediately and for several hours, whereas preproenkephalin gene expression is decreased in a somewhat delayed and longer lasting manner. These patterns of temporal changes in biosynthesis and release of the neuropeptide presumably account for the limited changes in its steady state levels.
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PMID:Enkephalin biosynthesis and release in mouse striatum are inhibited by GABA receptor stimulation: compared changes in preproenkephalin mRNA and Tyr-Gly-Gly levels. 217 Aug

An endopeptidase was isolated from bovine adrenomedullary granules by fast protein liquid chromatography, including two ion exchange, one hydrophobic interaction, and one gel filtration step. The enzyme assay was based on the HPLC detection of the degradation of the dodecapeptide BAM 12P from the sequence of proenkephalin. After a 1200-fold purification, the enzyme fraction was homogeneous on polyacrylamide gel electrophoresis. The apparent molecular weight of the monomeric protein was 68,000 and its pH optimum was 5.6, in agreement with the internal pH of the granules. The specificity of the protease was determined initially by analysis of the degradation fragments of BAM 12P which showed that cleavage occurred at the double but not at the single Arg site of BAM 12P. The cleavage pattern of other substrates showed that the enzyme also recognized other pairs of basic amino acids. The behavior of the enzyme toward specific inhibitors showed that it was an acid thiol protease different from serine proteases and from lysosomal cathepsin B. The endopeptidase may act as a maturation enzyme in vivo.
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PMID:Purification of an endopeptidase from bovine adrenal medulla granules which cleaves in vitro at paired but not at single basic residues. 305 95

The endogenous opioid peptides all contain the enkephalin sequence Tyr-Gly-Gly-Phe-Met and Tyr-Gly-Gly-Phe-Leu at their aminoterminus. Three distinct families of these peptides (endorphins, enkephalins and dynorphins) are present in different neuronal pathways within the central nervous system. Molecular genetics have shown that these three families of opioid peptides are derived from three distinct precursors. Pro-opiomelanocortin gives rise to the endorphins, as well as adrenocorticotropic hormone (ACTH) and the melanotropic hormones (MSH's). [Met] enkephalin, [Leu] enkephalin and the related heptapeptide [Met] enkephalin-Arg6-Phe7 and octapeptide [Met] enkephalin-Arg6-Gly7-Leu8 are derived from proenkephalin. The third family is derived from prodynorphin and includes dynorphin A, dynorphin B (also known as rimorphin) and alpha- and beta-neo-endorphin. The structure of the genes coding for these precursors are similar, suggesting the possibility of one common ancestral gene. The most common scheme for enzymatic maturation of precursors proposes the action of a trypsin-like endopeptidase followed by a carboxypeptidase B-like exopeptidase. However, we have provided evidence that this combination of trypsin-like and carboxypeptidase B-like enzymes may not be the only mechanism for liberating enkephalin from low molecular weight enkephalin-containing peptides. Indeed, endo-oligopeptidase A, an enzyme, known to hydrolyze the Phe5-Ser6 bond of bradykinin and the Arg8-Arg9 bond of neurotensin, has been shown to produce, by a single cleavage, [Leu] enkephalin or [Met] enkephalin from small enkephalin-containing peptides, (Camargo et al., 1987, J. Neurochem. 48, 1258-1263).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Biosynthesis of opioid peptides]. 305 81

Certain general principles determine the biosynthesis of most biologically active peptides, including the opioid peptides, from large protein precursors. In almost all instances, the active peptide is embedded in the precursor flanked on both sides by pairs of basic amino acids. The first step in processing involves a trypsinlike enzyme, cleaving to the carboxyl terminus of basic amino acids, and leaving the active peptide with a basic amino acid on the carboxyl terminus. A carboxy-peptidase peptidase B-like enzyme then removes the remaining basic amino acid. It has been unclear whether any endopeptidases with trypsinlike activity are selective for one or another basic amino acid. Recently a soluble endopeptidase has been identified that can cleave to both the carboxyl and amino termini of basic amino acids. Enkephalin convertase (carboxypeptidase E, H) (EC 3.4.17.10) has considerable selectivity, and appears to be physiologically associated with the biosynthesis of enkephalin as well as a limited number of other neuropeptides. The turnover of opioid peptides and other neuropeptides is most effectively ascertained by measuring levels of mRNA either biochemically or by in situ hybridization. Striking dynamic alterations include a pronounced increase in levels of proenkephalin mRNA in the corpus striatum after blockade of dopamine receptors, but changes in opioid peptide mRNA after opiate addiction are less clear.
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PMID:Opioid peptide biosynthesis: enzymatic selectivity and regulatory mechanisms. 311 27

Tyr-Gly-Gly (YGG) was recently shown to be an extraneuronal metabolite of opioid peptides derived from proenkephalin A, formed in brain by the action of "enkephalinase" (membrane metalloendopeptidase, EC 3.4.24.11) and degraded by aminopeptidases. The dynamic state of YGG in mouse striatum was studied by evaluating the changes in its level elicited by inhibitors of these peptidases. Inhibition of YGG synthesis by Thiorphan or acetorphan reduced YGG levels with a t1/2 (mean +/- SEM) of 12 +/- 2 min, indicating an apparent turnover rate (mean +/- SEM) of 18 +/- 2 pmol/mg of protein per hr. An apparent turnover rate of 18 +/- 2 pmol/mg of protein per hr was derived from the rate of YGG accumulation elicited by the aminopeptidase inhibitor bestatin. In addition, accumulation of Tyr-Gly-Gly-Phe-Met (YGGFM) in an extrasynaptosomal fraction after blockade of its degradation by Thiorphan and bestatin occurred at a rate of 18 +/- 3 pmol/mg of protein per hr, which is likely to reflect the rate of enkephalin release in vivo. Hence, the three series of data suggest that striatal enkephalins rapidly turn over--e.g., with a t1/2 in the 1-hr range. Pentobarbital anesthesia reduced by about 60% the rate of YGG accumulation elicited by bestatin and the extrasynaptosomal YGGFM accumulation elicited by Thiorphan and bestatin. This suggests that the activity of striatal enkephalin neurons is depressed during anesthesia. Pentobarbital (and chloral hydrate) did not affect the steady-state level of YGGFM but rapidly reduced that of YGG. Hence, the steady-state levels of YGG seem a reliable index of changes in enkephalin release, and measuring levels of characteristic fragments might therefore provide a general means of evaluating neuropeptide release in vivo.
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PMID:Steady-state level and turnover rate of the tripeptide Tyr-Gly-Gly as indexes of striatal enkephalin release in vivo and their reduction during pentobarbital anesthesia. 352 54

A Golgi enriched fraction from rat brain was prepared. The preparation has no carboxypeptidase activity and is not contaminated with cytosol, mitochondria and lysosomes as judged by marker enzyme activities for these constituents. Associated with the Golgi membranes a putative opioid peptide processing activity was demonstrated, which acts on Dynorphin 1-13, alpha- and beta-Neoendorphin. The enzyme cleaves the bond between the paired basic residues, releasing Leucine-enkephalin-Arg6. The activity has a pH-optimum around 9 and is inhibited by serine-protease inhibitors. Intracellular location and substrate specificity suggest that this endopeptidase activity may be involved in proenkephalin processing.
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PMID:A putative opioid-peptide processing activity in enriched Golgi fraction from rat brain. 352 60

Using a sensitive radioimmunoassay, the tripeptide Tyr-Gly-Gly (YGG) which corresponds to the N-terminal sequence of opioid peptides was detected in rat brain and identified by HPLC. Its regional distribution paralleled that of (Met5)enkephalin (YGGFM), a marker of enkephalin neurons. Ablation of these neurons in the striato-pallidal pathway by intrastriatal kainate, induced a significant decrease in YGG levels in caudateputamen and globus pallidus (-49%), consistent with the hypothesis that YGG originates from enkephalin neurons. When pallidal slices were incubated under various conditions, YGG was mainly found in the incubation medium indicating a predominantly extracellular localization. Depolarization of these slices by a K+-stimulus elicited a release of YGGFM accompanied by a marked increase in YGG levels. Bestatin and amastatin further enhanced YGG levels, reflecting the participation of aminopeptidases in the metabolism of the tripeptide and its precursor. Captopril, an inhibitor of the angiotensin-converting enzyme (ACE) showed no effect on the recovery of YGGFM and YGG. In contrast, the formation of YGG was completely prevented by Thiorphan (IC50 value = 9 nM) and phosphoramidon, two inhibitors of "enkephalinase" (EC 3.4.24.11; membrane metallo-endopeptidase), thus identifying the latter as the YGG-forming enzyme. The K+-induced increase in YGG + YGGFM levels in medium containing bestatin exceeded by about 60% the amount of YGGFM released from tissues, suggesting that YGG was mainly formed by extracellular hydrolysis of the various opioid fragments of the proenkephalin molecule. In vivo, YGG levels of cerebral regions were also markedly reduced in rats treated with acetorphan, a parenterally active "enkephalinase" inhibitor. All data suggest that YGG levels constitute an index of opioid peptide release.
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PMID:The endogenous tripeptide Tyr-Gly-Gly as a possible metabolite of opioid peptides in rat brain: identification, regional distribution, effects of lesions and formation in depolarized slices. 353 54

In a previous paper we demonstrated that the heptapeptide [Met]enkephalyl-Arg6-Phe7 was released from rat striatal slices by high K+ concentration and rapidly degraded by peptidases, even in the presence of the neutral endopeptidase 24.11 ("enkephalinase")-inhibitor, thiorphan (0.1 microM), the angiotensin-converting enzyme inhibitor, captopril (1 microM), and the aminopeptidase inhibitor, bestatin (20 microM). In this study the pattern of degradation of exogenous [3H]heptapeptide by rat striatal slices has been studied. The angiotensin-converting enzyme and aminopeptidase(s) were partly responsible for this degradation. In addition an enzymatic activity that cleaved the Phe4-Met5 bond was involved in the degradation of the heptapeptide by striatal slices. This activity was inhibited by the dipeptide Leu-Arg (1 mM) and the tripeptide Leu-Arg-Leu (1 mM). The simultaneous presence of thiorphan (0.1 microM), captopril (1 microM), bestatin (20 microM) and Leu-Arg (1 mM) almost completely inhibited the degradation of [3H]heptapeptide by striatal slices. In the presence of these peptidase inhibitors a concomitant release of [Met]enkephalin, the heptapeptide [Met]enkephalyl-Arg6-Phe7 and the octapeptide [Met]enkephalyl-Arg6-Gly7-Leu8 was evoked by KCl or veratridine. The K+-evoked release was by a Ca2+-dependent mechanism and the release evoked by veratridine was blocked by tetrodotoxin. In both cases the ratio of [Met]enkephalin to heptapeptide amounts released was close to that found in their common precursor, proenkephalin. Thus the enkephalinergic neuron appears to be capable of synthesizing, from a unique precursor, four different putative opioid neurotransmitters, namely [Met]enkephalin, [Leu]enkephalin, the heptapeptide [Met]enkephalyl-Arg6-Phe7 and the octapeptide [Met]enkephalyl-Arg6-Gly7-Leu8, to store these peptides and to release them upon depolarization.
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PMID:Release of proenkephalin-derived opioid peptides from rat striatum in vitro and their rapid degradation. 404 98

Synaptosomal membrane (SPM) bound exo- and endopeptidases cleave the dynorphins and Met-enkephalin-Arg-Gly-Leu at several sites to produce shorter fragments; among these are dynorphin 1-8 from 1-17, and Met-enkephalin from Met-enkephalin-Arg-Gly-Leu. The most vulnerable site is the Tyr-Gly bond cleaved by membrane-bound aminopeptidase(s), with the shorter peptides degraded more rapidly than the longer ones. A purified metalloendopeptidase sensitive to phosphoramidon inactivates the shorter peptide sequences at the Gly3-Phe4 bond, and the 1-13 and 1-17 sequences also at the Arg7-Ile8 bond. The kcat/Km ratios for purified metalloendopeptidase were 20-30 times higher for Leu-enkephalin and the proenkephalin octapeptide than for dynorphins 1-8, 1-13, and 1-17. Dynorphins 1-13 and 1-17 may serve as precursors for the widely distributed CNS neuropeptide dynorphin 1-8 since they were cleaved by a separate SPM endopeptidase insensitive to phosphoramidon. SPM monocarboxypeptidase converted dynorphin 1-13 to 1-12 (release of Lys) and dipeptidyl carboxypeptidase converted dynorphin 1-8 to 1-6; enkephalin octapeptide served as a precursor of Met-enkephalin by sequential action (release of Leu and Arg-Gly) of both carboxypeptidases.
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PMID:Membrane-bound enzymes and their role in processing of the dynorphins and of the proenkephalin octapeptide Metenkephalin-Arg-Gly-Leu. 614 75

The heptapeptide Met-enkephalin-Arg6-Phe7 (MERF) and the octapeptide Met-enkephalin-Arg6-Gly7-Leu8 (MERGL) are potent opioid peptides present in the sequence of proenkephalin, the common precursor of Met- and Leu-enkephalin (ME and LE). We demonstrate that MERF and MERGL are released concomitantly with ME and LE from rat striatal slices following a depolarisation by K+. This release is a Ca2+-dependent process. While the ratios of ME to LE, MERF and MERGL found in the tissue (ME/LE = 2.6; ME/MERF = 3.1; ME/MERGL = 4.5) are in good agreement with the ratios found in the proenkephalin molecule (ME:LE:MERF:MERGL = 4:1:1:1), the amounts of MERF and MERGL recovered from the medium are low compared to those of ME and LE, suggesting a rapid degradation of released MERF and MERGL. In fact, when incubated with striatal slices, (3H-Tyr)-MERF is rapidly degraded by four classes of peptidases: the "enkephalinase", the angiotensin-converting enzyme (ACE), aminopeptidase(s) and an endopeptidase releasing the tetrapeptide Tyr-Gly-Gly-Phe (YGGF). Whereas the activities of the three former peptidases are reduced or abolished in the presence of thiorphan (0.1 microM), captopril (1 microM) and bestatin (20 microM), the amount of YGGF formed by the endopeptidase is not reduced in these conditions but actually increased.
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PMID:Release of the heptapeptide Met-enkephalin-Arg6-Phe7 and of the octapeptide Met-enkephalin-Arg6-Gly7-Leu8 from rat striatum in vitro and their rapid inactivation. 666 13


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