EC:3.4.24.11 - FACTA Search

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)

Endothelin-converting enzyme is a phosphoramidon-sensitive membrane metallopeptidase that catalyses the final step in biosynthesis of the potent vasoactive endothelin peptides. Immunomagnetic separation technology and immunohistochemistry have been used to demonstrate the co-localisation of endothelin-converting enzyme with the established ectoenzyme, aminopeptidase N, on the surface of endothelial cells. Unlike aminopeptidase N, however, endothelin-converting enzyme is seen to associate in clusters on the plasma membrane which can be distinguished from caveolae both biochemically and immunologically. Pre-treatment of endothelial cells with the metallopeptidase inhibitors phosphoramidon or thiorphan in the range 0.01-100 microM produced a dose-dependent increase in the levels of endothelin-converting enzyme protein and its accumulation in an intracellular compartment. No corresponding change in the levels of endothelin-converting enzyme-1 mRNA was detected under these conditions, nor in the levels of the closely related metalloenzyme, endopeptidase-24.11. The phosphoramidon and thiorphan-dependent increase is not due to direct inhibition of endothelin-converting enzyme not endopeptidase-24.11 but, rather, to an inhibition of the selective turnover of endothelin-converting enzyme protein.
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PMID:Metallopeptidase inhibitors induce an up-regulation of endothelin-converting enzyme levels and its redistribution from the plasma membrane to an intracellular compartment. 874 39

Leu-enkephalin radiolabelled at the N-terminal tyrosine by two different methods was presented to isolated perfused rat livers. Approximately 10% of a pulse of tritiated Leu-enkephalin was taken up first-pass; this was increased to 62% when the peptide was iodinated with Bolton and Hunter reagent. Uptake of both forms of radiolabelled Leu-enkephalin was inhibited by taurocholate in a concentration-dependent manner. The proportion of internalised radioactivity secreted into bile also differed but in both cases showed a very rapid time-course similar to that of [24-(14)C]taurocholate and suggestive of non-endocytic transfer via membrane transport proteins. Pre-perfusion with the aminopeptidase inhibitor bestatin increased uptake of 3H-labelled Leu-enkephalin from 10% to 23%; no further increase occurred when the endopeptidase 24.11 inhibitor thiorphan was also present. On infusion of the native peptide into rat livers, 80% of Leu-enkephalin immunoreactivity was lost between the pre- and post-hepatic perfusate; this was reduced to 65% in the presence of 10(-5) M bestatin. The almost total release of the N-terminal tyrosine from 3H-labelled Leu-enkephalin which escaped first-pass uptake confirmed that substantial sinusoidal metabolism had occurred. Low levels of aminopeptidase N were visualised in the sinusoidal membrane using a specific monoclonal antibody coupled to peroxidase staining. Thus, hepatic inactivation of Leu-enkephalin is primarily via hydrolysis mediated by cell surface peptidase (including aminopeptidases) whilst uptake of the intact peptide, probably by a bile salt transport protein, is quantitatively minor unless the N-terminus is blocked by Bolton and Hunter reagent or peptidase inhibitors are present.
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PMID:Hepatic inactivation of Leu-enkephalin. 895 78

A recent study determined that cultured human skeletal muscle adult myoblasts, myotubes, and fibroblasts degraded angiotensins and kinins via neutral endopeptidase-24.11 (NEP-24.11: EC 3.4.24.11) and aminopeptidase N (APN: EC 3.4.11.2). Due to the possible importance of other peptides to skeletal muscle blood flow and function, the present study looked specifically at the metabolism of the neurokinins substance P (SP) and neurokinin A (NKA) by skeletal muscle peptidases. The results show that SP is degraded not only by NEP-24.11, but also sequentially by dipeptidyl(amino)peptidase IV (DAP IV: EC 3.4.14.5)/APN. NKA is unaffected by DAP IV but is metabolized by NEP-24.11 and APN. NEP-24.11 was inhibited by phosphoramidon (IC50 = 80 nM), thiorphan and ZINCOV, DAP IV by diprotin A (IC50 = 8 microM), and APN by amastatin (IC50 = 50 nM) and bestatin (IC50 = 100 microM). Skeletal muscle myocyte and fibroblast metabolism of SP and NKA may regulate local skeletal muscle vascular and extravascular functions including SP- and NKA-mediated nerve-induced vasodilation. Inhibition of both NEP-24.11 and DAP IV/APN may increase skeletal muscle blood flow and decrease peripheral vascular resistance via potentiation of local neurokinin levels.
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PMID:Substance P and neurokinin A metabolism by cultured human skeletal muscle myocytes and fibroblasts. 897 37

The endogenous opioid receptor-like1 (ORL1) ligand, nociceptin/orphanin FQ (FGGFTGARKSARKLANQ), a heptadecapeptide structurally resembling dynorphin A, has recently been identified. The wide distribution of ORL1 mRNA and nociceptin/orphanin FQ precursor in the CNS, particularly in the limbic system regions and in several areas known to be involved in pain perception, suggests that nociceptin/orphanin FQ is potentially endowed with various central functions. In general, activation and/or inactivation of regulatory peptides occur through the action of cell surface peptidases. The physiological mechanisms under which nociceptin/orphanin FQ is metabolized should lead to a better understanding of its physiological functions. Mouse brain cortical slices were incubated in medium containing the heptadecapeptide in the presence or in the absence of peptidase inhibitors. The critical sites of enzymatic cleavage are Phe1-Gly2, Ala7-Arg8, Ala11-Arg12, and Arg12-Lys13 bonds. The major role played by metallopeptidases was confirmed by the complete protection of metabolism in the presence of EDTA. Aminopeptidase N and endopeptidase 24.15 are the two main enzymes involved in nociceptin/orphanin FQ metabolism, whereas endopeptidase 24.11 (involved in enkephalin [YGGFM(L)] catabolism) does not appear critically involved in nociceptin/orphanin FQ metabolism. The physiological relevance of aminopeptidase N and endopeptidase 24.15 in the heptadecapeptide metabolism remains to be determined.
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PMID:Nociceptin/orphanin FQ metabolism: role of aminopeptidase and endopeptidase 24.15. 897 46

Cholesteatoma is a destructive process involving an accumulation of desquamated keratin arising from squamous epithelium that pathologically has invaded the middle ear or mastoid process. The clinical hallmarks of cholesteatomas, namely invasion of healthy tissues, migration, unrestrained proliferation, aggressiveness, recidivism, and uncoordinated differentiation predict the existence of defects in the normal biology and biochemistry of the cellular constituents that compose a cholesteatoma, as well as in the cellular interactions between these cells, the surrounding normal tissue, and the host. In the current report, we analyzed 11 cholesteatomas and matched healthy tissue for altered expression in four different cell surface peptidases, aminopeptidase A, aminopeptidase N, dipeptidyl peptidase IV, and neutral endopeptidase. We suggest that peptidases may modulate cell growth and differentiation by inactivating stimulatory signals (or conversely, by activating inhibitory signals).
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PMID:Altered regulation of cell surface peptidases in human cholesteatoma. 901 59

Drugs which act upon central dopamine receptors alter the level, mRNA expression and in vitro degradation of neuropeptides associated with dopamine neuron regulation. Changes in the degradation of certain neuropeptides are correlated with significant alterations in the activity of specific neuropeptidases, namely aminopeptidase N (APN) and neutral endopeptidase 24.11 (NEP 24.11). In the present study, we sought to examine the molecular mechanism of neuropeptidase activity changes in response to dopaminergic drug treatment. The effects of dopaminergic drugs on the mRNA level of APN and NEP 24.11 were determined by RNase protection assays of RNA extracted from rat frontal cortex and caudate-putamen. Additionally, the effects of dopaminergic drugs on the mRNA expression for the neuropeptide processing enzymes, prohormone convertase 1 (PC1) and PC2, were determined. After 7-day administration of the dopamine receptor antagonist, haloperidol (1 mg/kg), no effect on the mRNA expression of APN, NEP 24.11, PC1 or PC2 was observed in either of the rat brain regions studied. Administration of the dopamine receptor agonist, apomorphine (5 mg/kg, bid), altered only the expression of APN mRNA in rat caudate-putamen, where the greatest effect on APN activity has been previously observed. These results suggest that alterations in other post-transcriptional events, such as mRNA translation or insertion of neuropeptidase protein into the membrane, likely play a larger role than changes in mRNA expression in the modulation of neuropeptidase activity.
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PMID:Effect of dopaminergic drugs on processing and degradative neuropeptidase mRNA in rat frontal cortex and caudate-putamen. 913 56

This study concerns whether the pancreatic beta cell expresses cell-surface ectopeptidases that are capable of proteolysis of peptide hormones and neuropeptides that modify glucose-dependent insulin release. These biochemical investigations of the RINm5F cell line found that these cells express ectopeptidases. We have characterized the limited endoproteolysis of GLP-1 (7-36) amide that occurs in the presence of RINm5F plasma membranes. The products and the sensitivity to specific peptidase inhibitors of the proteolysis is characteristic of neutral endopeptidase (NEP) 24.11. Vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase-activating peptide (PACAP), amylin, glucagon, glucose-dependent insulinotropic polypeptide (GIP), and exendin-4 also undergo proteolysis in the presence of RIN cell membranes. NEP 24.11-activity in RIN cell membranes was confirmed using a specific fluorogenic assay, by histochemistry, and by comparison with the recombinant enzyme with respect to the kinetics of proteolysis of GLP-1 (7-36) amide and of a fluorogenic substrate. Specific fluorogenic assays revealed the presence of aminopeptidase N and the absence of aminopeptidase A and of dipeptidylpeptidase IV.
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PMID:Endoproteolysis of glucagon-like peptide (GLP)-1 (7-36) amide by ectopeptidases in RINm5F cells. 921 54

Three cell surface peptidases have been shown to be present in the human endometrium. Aminopeptidase N and neutral endopeptidase are detected on the endometrial stromal cells and decidual cells, while dipeptidyl peptidase IV is detected on the endometrial glandular cells and surface epithelium. As these cell surface peptidases can degrade a variety of biologically-active peptides including cytokines and growth factors, they are considered to be involved in the local metabolism of these molecules. In addition, recent studies have indicated that they are involved in local immune responses, cell attachment, and cellular maturation/ differentiation of endometrial cells, and suggest an important role of these endometrial cell surface peptidases in implantation processes.
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PMID:Cell surface peptidases in human endometrium. 923 12

The biologically active vasoactive peptides, the endothelins (ETs), are generated from inactive intermediates, the big endothelins, by a unique processing event catalysed by the zinc metalloprotease, endothelin converting enzyme (ECE). In this overview we examine the actions of endothelins in the brain, and focus on the structure and cellular locations of ECE. The heterogeneous distribution in the brain of ET-1, ET-2, and ET-3 is discussed in relation to their hemodynamic, mitogenic and proliferative properties as well as their possible roles as neurotransmitters. The cellular and subcellular localization of ECE in neuronal and in glial cells is compared with that of other brain membrane metalloproteases, neutral endopeptidase-24.11 (neprilysin), angiotensin converting enzyme and aminopeptidase N, which all function in neuropeptide processing and metabolism Unlike these ectoenzymes, ECE exhibits a dual localisation in the cell, being present on the plasma membrane and also, in some instances, being concentrated in a perinuclear region. This differential localization may reflect distinct targeting of different ECE isoforms, ECE-1 alpha, ECE-1 beta, and ECE-2.
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PMID:The endothelin system and endothelin-converting enzyme in the brain: molecular and cellular studies. 923 59

RB 101 (N-((R,S)-2-benzyl-3[(S)(2-amino-4-methylthio)butyldithio]-1-oxopr opyl)-L-phenylalanine benzyl ester) is a full inhibitor of the enkephalin-catabolizing enzymes, which induces strong naloxone-reversible antinociceptive responses after i.v. or i.p. administration, but is only slightly active after oral administration. Chemical modifications were introduced on this compound, resulting in molecules such as RB 120 (N-((S)-2-benzyl-3[(S)(2-amino-4-methylthio)butyldithio]-1-oxoprop yl)-L-alanine benzyl ester), which was selected for a complete study, after oral administration, in various assays commonly used to select analgesics: mouse hot plate test, rat tail-flick test, electrical stimulation of the tail in rats, paw pressure test on inflamed paws in rats, acetic acid-induced writhing test and the formalin test in mice. RB 120 induced potent dose-dependent antinociceptive responses in all these tests after oral administration. The differences in antinociceptive effects induced by RB 120 in the various assays is probably related to the amount of enkephalins released and to the efficiency of peptidase inactivation in particular brain regions implicated in the control of a given nociceptive input. The goal of discovering orally active analgesics endowed with a potency similar to that of morphine but devoid of its major side-effects, seems now to have been reached with mixed neutral endopeptidase/aminopeptidase N (NEP/APN) inhibitors, although these compounds have yet to be evaluated in clinical trials.
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PMID:Pain-suppressive effects on various nociceptive stimuli (thermal, chemical, electrical and inflammatory) of the first orally active enkephalin-metabolizing enzyme inhibitor RB 120. 946 29

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