EC:3.4.24.11 - FACTA Search

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Query: EC:3.4.24.11 (CD10)
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The expression of mRNAs encoding endothelin-1 (ET-1) and its receptors (ETA-R and ETB-R) as well as the ET degrading enzyme, neutral endopeptidase 24.11 (NEP), was determined in tissue samples of endometrium, myometrium and leiomyoma by using a reverse transcriptase polymerase chain reaction (RT-PCR) technique. ET-1 mRNA was detected in all samples studied. The level of ET-1 mRNA was higher in endometrium than in myometrium (p < 0.01) and leiomyoma (p < 0.001). The ETA-R mRNA was more abundant in endometrium than in myometrium (p < 0.001). For ETB-R mRNA there was no difference between these tissues. In contrast to ETA-R mRNA, which was more abundant in leiomyoma than in myometrium (p < 0.01), the ETB-R mRNA was less abundant in leiomyoma (p < 0.01). The NEP mRNA was detected in all endometrial samples but not in myometrium and leiomyoma. Our results show that the expression and relative levels of mRNAs encoding ET-1, ETA-R, ETB-R, and NEP vary in different tissue compartments of the human uterus. Since the net biological action of ET-1 in a particular cell type presumably depends on the balance between the peptide itself, its receptors and degrading enzymes, these results suggest different roles for ET-1 action in uterine endometrium, myometrium and leiomyoma. The difference in relative abundance of ETA-R and ETB-R mRNAs between myometrium and leiomyoma suggests that an altered ET-R gene expression may be a contributing factor in myomal growth.
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PMID:Differential expression of mRNAs for endothelin-related proteins in human endometrium, myometrium and leiomyoma. 795 93

We investigated the intrarenal conversion of big endothelin-1 (ET-1) to ET-1 in the isolated perfused rat kidney. Big ET-1 caused a concentration-dependent increase in perfusion pressure, and the pressor molar potency of the peptide was 50-fold less than that of ET-1. The big ET-1 (2 x 10(-8) mol/L)-induced pressor action was accompanied by increases in immunoreactive endothelin levels in both the perfusate and renal tissues. Phosphoramidon (10(-4) mol/L), a metalloproteinase inhibitor, significantly suppressed the big ET-1-induced pressor action and the accumulation of immunoreactive endothelin in renal tissues. On the other hand, phosphoramidon slightly but significantly sustained the ET-1-induced pressor effect. The effect of kelatorphan (10(-4) mol/L), a specific inhibitor of neutral endopeptidase 24.11, on the ET-1-induced pressor effect was the same as that seen with phosphoramidon. When ET-1 was exogenously added to the perfusate, phosphoramidon or kelatorphan significantly increased the immunoreactive endothelin levels in renal tissues after perfusion, without affecting the disappearance rate of immunoreactive endothelin from the perfusate. Therefore, the phosphoramidon-sensitive ET-1-converting enzyme in the kidney seems to contribute to the functional local conversion of big ET-1 to ET-1, and neutral endopeptidase 24.11 may be responsible for the proteolytic degradation of ET-1 in the kidney. In addition, immunoreactive endothelin levels in renal tissues but not in the perfusate can account for the functional conversion of big ET-1 to ET-1 and for the local proteolytic degradation of ET-1 in the kidney.
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PMID:Phosphoramidon-sensitive conversion of big endothelin-1 and degradation of endothelin-1 in rat kidney. 803 48

Endothelin-1 (ET-1), a 21-residue vasoactive peptide, is produced in vascular endothelial cells from the 38-residue inactive intermediate big endothelin-1 via a specific cleavage at Trp-21-Val-22. The protease that catalyzes the conversion, endothelin-converting enzyme (ECE), constitutes a potential regulatory site for the production of the active peptide. We report the identification of ECE-1, a novel membrane-bound neutral metalloprotease that is expressed abundantly in endothelial cells in vivo and is structurally related to neutral endopeptidase 24.11 and Kell blood group protein. When transfected into cultured cells that normally secrete only big ET-1, the ECE-1 cDNA conferred the ability to secrete mature ET-1. In transfected cells, ECE-1 processes endogenously synthesized big ET-1 as well as exogenously supplied big ET-1, which interacts with ECE-1 on the cell surface. ECE-1 may provide a target for pharmacological intervention to alter ET-1 production.
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PMID:ECE-1: a membrane-bound metalloprotease that catalyzes the proteolytic activation of big endothelin-1. 806 89

1. In the anaesthetized, ganglion-blocked rat, intravenous boluses of endothelin-1, endothelin-2 and endothelin-3 induced a transient hypotensive effect followed by a potent long lasting pressor response (ED50 mmHg: 0.72 +/- 0.05, 1.8 +/- 0.2 and 2.7 +/- 0.3 nmol kg-1, respectively). The maximal effect for the three peptides was of a similar order of magnitude (delta MAP: 84 to 89 mmHg). Neither of these effects was influenced by phosphoramidon or thiorphan (10 mg kg-1, i.v.). 2. Intravenously administered big-endothelin-1 and -2 induced a transient (1-2 min) hypotension followed by a potent long lasting (> 25 min) vasopressor effect (ED50 mmHg: 1.8 +/- 0.2 and 6.7 +/- 0.4 nmol kg-1, respectively), with a similar maximal activity (delta MAP: 85 +/- 4 and 81 +/- 2.4 mmHg, respectively). The onset of the big-endothelin-1 vasopressor effect was more rapid (5-6 min) than that of big-endothelin-2 (10-13 min). Big-endothelin-3 was found to induce only a potent, long lasting (> 35 min) hypertension, with a maximal effect of 75 +/- 4.6 mmHg at 10 nmol kg-1 and an ED50 mmHg of 6.5 +/- 0.4 nmol kg-1. The onset of this effect was much slower (20-25 min) than that of the other proendothelins. Pressor responses induced by big-endothelin-1, -2 and -3 (3, 15 and 10 nmol kg-1, respectively) were markedly reduced (60, 80 and 100%) in the presence of phosphoramidon (10 mg kg-1, i.v.). Thiorphan (10 mg kg-1, i.v.) did not inhibit the effects of big-endothelin-1, -2 and -3. 3. In the electrically stimulated rat vas deferens, endothelin-I and -2 were found to be equipotent enhancers of the twitch response (EC100%: 4.0 +/- 0.4 nm and 7.9 +/- 4.8 nm, respectively), both about 3-4 fold as active as endothelin-3 (EC100%: 19 +/- 2.5 nM). Endothelin-1 and -3 showed a comparable maximalstimulatory effect (Emax: 296 +/- 30 and 262 +/- 24%) while endothelin-2 was less active (Emax: 194 +/- 30%).4. Big-endothelin-l and -2 were potent enhancers of the twitch response too (EC 100,%: 10.0 +/- 2.6 nM and 21.6 +/- 3.2 nM, respectively), with a comparable maximal stimulatory effect (Emax: 254 +/- 22 and 264 +/-24%). Big-endothelin-3 was found to be less potent (EC,100%: 275 +/- 21 nM), but retained a marked potentiating effect (Emax: 200 +/- 38%). Phosphoramidon, but not thiorphan, concentration-dependently(10 and 100 microM) reduced big-endothelin-1 (58 and 86% respectively) and big-endothelin-2 (21 and 56%)-mediated responses. Conversely, the big-endothelin-3 effect was reduced by phosphoramidon only at 100 microM (-70%), while thiorphan acts concentration-dependently (31 and 71% at 10 and 100 microM respectively); thus, in the rat vas deferens, big-endothelin-I and -2 were as potent as their corresponding endothelins, while big-endothelin-3 was about 20 times less potent than endothelin-3.5. The increasing effect of endothelin-2 (194 +/- 30% over baseline) was significantly enhanced by either 10 microM phosphoramidon (277 +/- 42%) or thiorphan (318 +/- 15%). The endothelin-I and endothelin-3-mediated twitch enhancement was not affected by the two protease inhibitors (10 microM).6. These results suggest that in vivo big-endothelin-1, -2 and -3, are processed through a similar phosphoramid on-sensitive enzymatic pathway although with different apparent affinity. This enzymatic process is probably attributable to a neutral endoprotease, distinct from neutral-endopeptidase 24.11(NEP). On the other hand, a NEP-like enzymatic activity may be involved, in the rat vas deferens, in the activation of big-endothelin-3 to endothelin-3 and in the metabolism of endothelin-2, but not of endothelin-I or endothelin-3.
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PMID:Comparison of the cardiovascular and neural activity of endothelin-1, -2, -3 and respective proendothelins: effects of phosphoramidon and thiorphan. 810 8

This investigation was conducted to evaluate the potential capacity of the human fetal membranes-decidua parietalis, and in particular the chorion laeve, to degrade uterotonins that are produced in amnion, are present in amniotic fluid, or both. The four uterotonins that have been evaluated most frequently as myometrial contractants potentially involved in the initiation of human parturition are prostaglandins, oxytocin, endothelin-1, and platelet-activating factor. We assessed the levels of mRNA and the specific activities (SAs) of enkephalinase (the plasma membrane endopeptidase that degrades endothelins) and prostaglandin dehydrogenase (PGDH) in human fetal membranes, i.e. amnion and chorion leave, and in decidua parietalis. The SA of oxytocinase (which inactivates oxytocin) in these tissues also was determined. The SA of enkephalinase in chorion laeve from all anatomical sites (singleton and diamnionic-dichorionic twin placentae) in all pregnancies studied (mean +/- SEM, 95 +/- 7.9 ng/min.mg protein; n = 28) is similar to that in human fetal kidney (89.5 +/- 2.8; n = 6). Kidney tissue is believed to be one of the richest sources of enkephalinase. The SAs of enkephalinase in amnion (18.3 +/- 2.3 nmol/min.mg protein; n = 29) and in decidua parietalis (31.8 +/- 6.7; n = 20) also were high, but significantly less than that in chorion leave. The level of enkephalinase mRNA in chorion laeve in singleton pregnancies is high, as is the SA of enkephalinase (111.9 +/- 10.6 nmol/min.mg protein; n = 17). In paired chorion laeve tissues from five diamnionic-dichorionic twin placentae, the SAs of enkephalinase in reflected chorion laeve (74 +/- 12.8; P < 0.06 compared with singletons) and fused chorion laeve (64.8 +/- 6.5; P < 0.001 compared with singletons) were similar. The SA of PGDH in reflected chorion leave (46.3 +/- 6.9 nmol/min.mg protein; n = 19) was significantly greater than that in decidua (16 +/- 5.5; n = 15). There was a significant correlation between the levels of PGDH mRNA and PGDH enzyme SA. In fused chorion laeve of diamnionic-dichorionic twin placentae, the SA of PGDH (14.9 +/- 7.3; n = 4) was much less than that in reflected chorion laeve of the same twin pregnancy (70.5 +/- 14.7; n = 4). PGDH mRNA was not detectable in amnion tissue (n = 5) by northern analysis, and the SA of PGDH (< 1.2 +/- 1.0; n = 6) in amnion was undetectable or near the lower limit of assay detection.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Human fetal membrane contribution to the prevention of parturition: uterotonin degradation. 810 36

Endothelin, a potent vasoactive peptide originally isolated from cultured porcine endothelial cells, (1) elicits hemodynamic and glycogenolytic actions in perfused rat liver; (2) evokes phosphoinositide signaling in hepatic cells; and (3) stimulates synthesis of mediators in Kupffer cells and glucose production in hepatocytes. Recently, we characterized receptor(s) for endothelin on hepatocytes (C. R. Gandhi, R. H. Behal, S. A. K. Harvey, T. Nouchi, and M. S. Olson, Biochem. J. 287, 897-904, 1992). Both hepatocytes and Kupffer cells rapidly internalize [125I]endothelin-1 ([125I]ET-1). In the present study we exposed primary cultures of hepatocytes or Kupffer cells to [125I]ET-1 and analyzed the radiolabeled metabolites which appeared in the cell medium. Six metabolites were separated by high-performance liquid chromatography (HPLC) from hepatocyte medium; these peaks had approximate elution times of 5 (free iodide), 22, 35, 37, 38, and 41 min, respectively, whereas the elution time for [125I]ET-1 was 43 min. The kinetics of formation of the metabolites, and experiments using excess unlabeled ET-1, both showed that internalization of the native peptide by hepatocytes is required for the metabolism of [125I]ET-1 into metabolite, and for the subsequent deiodination of metabolite. The formation of metabolites does not require internalization of the native peptide. In Kupffer cells, the cell medium contained only metabolite and metabolite. Internalization of the native peptide was required for the formation of metabolite but not for metabolite. Three classes of [125I]ET-1 metabolites from hepatic cells also were separated by sequential precipitation with trichloroacetic acid (TCA) and with silver nitrate. This procedure facilitated multiple rapid assays of [125I]ET-1 metabolism. Phosphoramidon, an inhibitor of neutral metalloendopeptidases, did not affect significantly the binding or the metabolism of [125I]ET-1 by hepatocytes or Kupffer cells. The aminopeptidase inhibitor bacitracin strongly attenuated [125I]ET-1 metabolism by hepatocytes, with a concomitant increase in the intracellular content of [125I]ET-1. These data suggest that enzymes capable of endothelin degradation are present both on the surface and in the intracellular compartment of hepatic cells, and that endothelin is not metabolized by neutral endopeptidase 24.11 in the liver.
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PMID:Hepatic effects of endothelin: metabolism of [125I]endothelin-1 by liver-derived cells. 834 54

1. Inhibitors of neutral endopeptidase EC.3.4.24.11 (NEP) have been shown to attenuate the hypertensive effect of big-endothelin-1 (BET-1) in rats. To determine whether NEP converts BET-1 to endothelin-1 (ET-1), the effect of a recombinant NEP (rNEP) on BET-1 and on ET-1 was assessed in vitro. 2. Incubation of [125I]-ET-1 with 1 microgram ml-1 of rNEP resulted in degradation of the peptide within minutes. Increase in the amount of rNEP to 10 micrograms ml-1 led to total cleavage of [125I]-ET-1 within seconds. 3. Phosphoramidon (10 microM) or SQ-28,603 (100 microM) totally suppressed the degradation of [125I]-ET-1 by rNEP. 4. The degradation of [125I]-BET-1 by either 1 or 10 micrograms ml-1 of rNEP was much slower than that of [125I]-ET-1. Again, both phosphoramidon and SQ 28,603 protected the peptide from degradation. 5. Intact [125I]-ET-1 was not observed when [125I]-BET-1 was incubated with rNEP. 6. These data show that neutral endopeptidase EC.3.4.24.11 is not an endothelin converting enzyme.
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PMID:Metabolism of endothelin-1 and big endothelin-1 by recombinant neutral endopeptidase EC.3.4.24.11. 840 14

The effect of phosphoramidon on the increase in pulmonary inflation pressure (PIP) induced by endothelin-1 (ET-1) administered by aerosol in ovalbumin (OA)-sensitized and challenged guinea-pigs was investigated after pretreatment or not of the animals with the neutral endopeptidase inhibitor, phosphoramidon, the cyclooxygenase inhibitor, indomethacin or the platelet activating factor (PAF) antagonist, BN 50730. When guinea-pigs were pretreated by phosphoramidon (0.1 mM, aerosol for 15 min), a significant enhancement of PIP was observed after administration of ET-1 (1 or 3 micrograms ml-1, aerosol for 2 min), whereas these doses of the peptide were only slightly active in control animals. In sensitized and unchallenged guinea-pigs, ET-1 (1 or 3 micrograms.ml-1, aerosol for 2 min) induced, as in controls, a moderate increase in PIP. In contrast, aerosol exposure of OA in sensitized guinea-pigs developed an increased PIP following ET-1 (1 and 3 micrograms.ml-1, aerosol for 2 min) administration, that was non significantly affected by pretreatment of the animals with phosphoramidon after the dose of 3 micrograms ml-1 ET-1. Guinea-pigs exposed to phorphoramidon and treated with indomethacin (10 mg kg-1, i.v.) or BN 50730 (25 mg kg-1, per os) significantly reduced the increase in PIP upon administration of ET-1 (3 micrograms.ml-1, aerosol for 2 min). No inhibitory effect of indomethacin was noted when ET-1 (3 micrograms.ml-1, aerosol for 2 min) was administered to sensitized and OA-exposed guinea-pigs, pretreated or not with phosphoramidon. In contrast, BN 50730 significantly reduced the increase in PIP induced by ET-1 observed in sensitized and OA-exposed guinea-pigs. Moreover, this drug was moderately active in reducing the increase in PIP induced by ET-1, when the animals were pretreated by phosphoramidon. These results suggest that a phosphoramidon-sensitive endopeptidase-like enzyme, present in the airway tissue modulates the effect of ET-1. Furthermore, the increase in PIP to ET-1 observed in aerosol-sensitized and antigen-exposed guinea-pigs appears to be mediated by PAF rather than cyclooxygenase metabolites, even though the participation of other mediators in this process is open.
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PMID:Bronchopulmonary responses to endothelin-1 in sensitized and challenged guinea-pigs: role of cyclooxygenase metabolites and platelet-activating factor. 840 92

A critical processing step in endothelin biosynthesis is the conversion of the intermediate "big endothelin" to its biologically active product catalysed by endothelin converting enzyme (ECE). In this commentary we discuss critically the cellular location, structure, and activity of the isoforms of ECE. The current evidence supporting a metallopeptidase ECE as the physiological regulator of endothelin production is described. Its sensitivity to inhibition by the fungal metabolite phosphoramidon and subsequent cloning of the enzyme indicate it to be a type II integral membrane protein homologous with neural endopeptidase-24.11 (E-24.11), the major neuropeptide-degrading ectoenzyme in brain and other tissues. Unlike E-24.11, however, ECE exists as a disulphide-linked dimer of subunit M(r) 120-130 kDa and is not inhibited by other E-24.11 inhibitors such as thiorphan. Alternative splicing produces two forms of ECE with distinct N-terminal tails. These isoforms of ECE-1 show similar specificity converting big endothelin-1 (ET-1) to ET-1 but big ET-2 and big ET-3 are converted much less efficiently. This suggests that additional forms of ECE remain to be isolated. Immunocytochemical studies indicate a predominant cell-surface location for ECE-1, like E-24.11. This is consistent with the conversion of exogenous big ET-1 when administered in vivo and the inhibition of this event by phosphoramidon. However, mature ET-1 can be detected in intracellular vesicles in endothelial cells, suggesting that some processing occurs in the constitutive secretory pathway. This may be mediated by ECE-2, a recently cloned member of the E-24.11/ECE family which has an acidic pH optimum. Selective inhibitors of ECE may have therapeutic applications in cardiovascular and renal medicine.
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PMID:Molecular pharmacology of endothelin converting enzymes. 861 90

Increasing evidence suggests that endothelin, a potent vasoconstrictor, is implicated in cyclosporin A (CsA)-induced nephrotoxicity. Increased levels of urinary and circulating endothelin have been described in CsA-treated humans and animals. The exact mechanisms by which CsA induces these increases are still unknown, and no data indicate whether these elevated levels reflect increased synthesis or decreased clearance of endothelin. In the present study, we investigated the effects of CsA administration (50 mg/kg per day i.p. for 6 days) to rats on plasma and urinary levels of endothelin; expression of endothelin-1 (ET-1), ET-3, and endothelin-converting enzyme in renal tissue; clearance of infused 125I-ET-1; and degradation of 125I-ET-1 by recombinant neutral endopeptidase. Rats given CsA for 6 days developed severe renal insufficiency, as shown by a 74% decrease in creatinine clearance rate (Ccr) (P < .006). Ccr was remarkably improved in CsA-treated rats that received bosentan, the combined antagonist of both endothelin A and endothelin B receptors. Urinary excretion of endothelin increased from an undetectable level to 31.7 +/- 6.0 pg/24 h (P < .001), and plasma levels of endothelin were unchanged (2.8 +/- 0.2 to 3.1 +/- 0.2 pg/mL). Reverse transcription followed by quantitative polymerase chain reaction revealed that ET-1 mRNA in the renal medulla increased by 59% (P < .006), whereas the expression of both ET-3 and endothelin-converting enzyme was unchanged. In other rats, neither acute nor chronic treatment with CsA affected either the clearance of 125I-ET-1 from the blood or the renal and pulmonary uptake of the peptide. Moreover, CsA did not affect the degradation of 125I-ET-1 by highly purified recombinant neutral endopeptidase, a well-known endothelinase. Taken together, these data suggest that the elevated urinary endothelin levels obtained after CsA treatment originate from the kidney and reflect increased renal synthesis of ET-1. Moreover, the production of endothelin appears to be regulated at the mRNA transcription level, and expressions of ET-1 and ET-3 are regulated independently.
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PMID:Effects of cyclosporin A on the synthesis, excretion, and metabolism of endothelin in the rat. 862 Dec 8

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