EC:3.4.24.11 - FACTA Search

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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-1 (ET- 1) is a potent vasoconstrictor. Its biosynthesis is catalyzed by endothelin converting enzyme (ECE). In contrast, atrial natriuretic peptide (ANP) is a potent vasorelaxant and diuretic, and it is mainly degraded by neutral endopeptidase 24.11 (NEP). Therefore, compounds that can suppress the production of ET-1 by inhibiting ECE while simultaneously potentiating the levels of ANP by inhibiting NEP may be novel agents for the treatment of cardiovascular and renal dysfunction. CGS 34043 is one such compound, which inhibited the activities of ECE-1a and NEP with IC50 values of 5.8 and 110 nM, respectively. In vivo, it inhibited the pressor response induced by big ET-1, the precursor of ET-1, dose-dependently in rats, and the inhibition was sustained for at least 2 hr. In addition, CGS 34043 increased plasma ANP by 150% up to 4 hr after an intravenous dose of 10 mg/kg in conscious rats infused with ANP. However, this compound had no effect on the angiotensin I-induced pressor response. These results demonstrate that CGS 34043 is a potent and long-lasting dual inhibitor of ECE-1 and NEP. Consequently, it may be beneficial for the treatment of diseases in which an overproduction of ET-1 and/or enhanced degradation of ANP plays a pathogenic role. The activity of CGS 34753, an orally active prodrug of CGS 34043, is also described.
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PMID:CGS 34043: a non-peptidic, potent and long-acting dual inhibitor of endothelin converting enzyme-1 and neutral endopeptidase 24.11. 1095 36

Invertebrates use a wide range of peptides as transmitters and hormones to regulate complex behaviour, physiology and development. These animals, especially those that are amenable to genetic study and are the subject of genome-sequencing projects, provide powerful model systems for understanding the functions of peptidases in controlling the bioactivity of peptides. Neprilysin, a zinc metallopeptidase and a key enzyme in the metabolism of mammalian peptides, is also implicated in the inactivation of peptides at synapses and of circulating peptide hormones in insects and nematodes. A family of neprilysin-like genes are present in the genomes of both Drosophila melanogaster and Caenorhabditis elegans; in C. elegans it seems that individual family members have evolved to take on different physiological functions, because they are expressed in a tissue-specific manner. Angiotensin I-converting enzymes (peptidyl dipeptidase A, angiotensin-converting enzyme) are another group of zinc metallopeptidases found in some invertebrates that lack angiotensin peptides. In D. melanogaster there are two functional angiotensin-converting enzymes that are essential for normal development. One of these (Acer) is expressed in the embryonic heart, whereas the second enzyme (Ance) is expressed in several tissues at different stages of the life cycle. The accumulation of Ance within secretory vesicles of some peptide-synthesizing cells suggests a role for the enzyme in the intracellular processing of insect peptides. Ance is very efficient at cleaving pairs of basic residues from the C-terminus of partly processed peptides, suggesting a novel role for the enzyme in prohormone processing. Invertebrates will continue to provide insights into the evolutionarily conserved functions of known peptidases and of those additional family members that are expected to be identified in the future from genome-sequencing projects.
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PMID:Conserved roles for peptidases in the processing of invertebrate neuropeptides. 1096 40

We exposed 63 adult spontaneously hypertensive rats (SHR) and 10 (mRen-2)27 transgenic hypertensive rats to a 12-day regimen of either a normal diet (0.5%) or a low-salt diet (0.05%) to evaluate the hypothesis that the vasodepressor heptapeptide, angiotensin-(1-7) [Ang-(1-7)], buffers the pressor effects of angiotensin II during endogenous stimulation of the renin-angiotensin system. Catheters were inserted into a carotid artery and jugular vein under light anesthesia the day before the experiment. Separate groups of conscious instrumented SHR were given short-term infusions of an affinity-purified monoclonal Ang-(1-7) antibody or the neprilysin inhibitor SCH 39370. In addition, SHR and (mRen-2)27 rats were given the Ang-(1-7) receptor antagonist [D-Ala(7)]Ang-(1-7). Exposure to the low-salt diet increased plasma renin activity and elevated plasma levels of angiotensin I and angiotensin II in SHR by 81% and 68%, respectively, above values determined in SHR fed a normal salt diet. Concentrations of angiotensin I and angiotensin II were also higher in the kidney of salt-depleted SHR, whereas plasma and renal tissue levels of Ang-(1-7) were unchanged. Infusion of the Ang-(1-7) antibody produced dose-dependent pressor and tachycardic responses in salt-depleted SHR but no effect in SHR maintained on a normal-salt diet. A comparable cardiovascular response was produced in salt-depleted SHR given either SCH 39370 or [D-Ala(7)]Ang-(1-7). These agents had negligible effects on SHR fed a normal-salt diet. Blockade of Ang-(1-7) receptors produced a similar cardiovascular response in (mRen-2)27 transgenic hypertensive rats fed a low-salt diet. Injections of the heat-inactivated antibody or the subsequent infusion of the antibody to rats given [D-Ala(7)]Ang-(1-7) produced no additional effects. The data support the hypothesis that the hemodynamic effects of neurohormonal activation after salt restriction stimulate a tonic depressor action of Ang-(1-7).
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PMID:Contribution of angiotensin-(1-7) to blood pressure regulation in salt-depleted hypertensive rats. 1098 75

Bradykinin (BK) is a potent hepato-portal hypertensive agent although it is efficiently inactivated by the liver. The organ converts angiotensin I to AII, but at a much slower rate than it inactivates BK. We had previously identified EC 3.4.24.15 as an hepatic bradykinin inactivating endopeptidase that hydrolyzes BK at the F5-F6 bond. The aim of this study was to determine the relative importance of BIE, as compared to other kininases, in normal, cirrhotic or inflamed rat livers, as well as in samples of human liver. Using specific substrates and inhibitors we showed that: 1) purified BIE preparation hydrolyzed BK and a BK analogue (BK-Q) with similar efficacy; BK-Q was functionally active since it caused an increase in hepato-portal pressure, as did BK itself. 2) BK degradation in rat serum was performed by ACE since BIE and prolylendopeptidase (PEP) activities were negligible. 3) normal rat liver homogenate contained a large amount of BIE activity which was eliminated by a specific EC 3.4.24.15 inhibitor; ACE and PEP activities were negligible. 4) There was no difference (p>0.05) in BIE activity in the liver homogenates from rats with normal, inflamed or cirrhotic livers. 5) BIE activity was efficiently removed from livers (normal, inflamed or cirrhotic) that were perfused with TritonX-100.6) Human liver had an similar enzymatic pattern although ACE activity was detected. We concluded that in normal, inflamed or cirrhotic rat livers, as well as in the human liver, the bradykinin inactivating endopeptidase (EC 3.4.24.15), and not ACE, is the major hepatic kininase.
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PMID:Thimet oligopeptidase EC 3.4.24.15 is a major liver kininase. 1099 16

Endogenous peptidases participate in a major way in the formation of peptide pressor substances such as angiotensin II (A II) and endothelin (ET) as well as in the degradation of depressor substances, e.g. atrial natriuretic peptide (ANP) or bradykinin. They include on the one hand the angiotensin converting enzyme (ACE) and endothelin converting enzyme (ECE), on the other hand kinase II for bradykinin and neutral endopeptidase 24.11 (NEP) for ANP. Inhibition of these enzymatic reactions leads to a decline of vasopressors A II and ET and conversely delays the break-down of vasodilatating bradykinin and ANP. The main haemodynamic consequence of this double inhibition is a reduced peripheral vascular resistance and decline of the blood pressure. The concurrent block of both systems (dual inhibition) is more effective than the isolated block of one substance. The first dual endopeptidase inhibitors were ACE inhibitors blocking the conversion of angiotensin I to A II and inhibiting at the same time the degradation of bradykinin by kininase II which is identical with ACE. At present further substances were synthetized with a dual inhibitory effect e.g. on ECE and on NEP (phosphoramidone, thiorphan, ecadatril etc.). Under experimental conditions they have a long-term antihypertensive effect on the vascular wall and heart muscle. The development of another dual ACE and NEP inhibitor has reached already the stage of clinical tests and the first clinical studies. The preparation omapatrilate in amounts of 2.5-80 mg significantly reduced the BP in a dose-dependent way in mild and medium advanced essential hypertension. Normalization of the blood pressure, i.e. a drop below 140/90 mm Hg, was achieved with omapatrilate monotherapy in as many as 83% of patients with hypertension stage I and in 53% patients with essential hypertension stage II. The drop of blood pressure after 20-80 mg/day depended on the degree of hypertension and was comparable or better than monotherapy with lisonopril 20 mg/day or amlodipine 10 mg/day. Treatment with omapatrilate was well tolerated. Dual peptidase inhibitors interfering with the formation of pressor substances and with the degradation of depressor substances seem to be a perspective class of antihypertensives also useful in the treatment of other cardiovascular diseases (heart failure, primary pulmonary hypertension). Before its final inclusion in the therapeutic pattern, further comparative and clinical mortality studies must be implemented.
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PMID:[Dual endopeptidase inhibitors--a new direction in the development of hypertensive agents]. 1104 16

An endopeptidase from the fruits of Melothria japonica (Thunb.) Maxim. has been purified by DEAE-Sepharose chromatography and gel-filtration by a Sephacryl S-300. The enzyme has Mr of 61 kDa. The optimum pH of the enzyme was 8. The enzyme activity was inhibited by diisopropyl fluorophosphate and phenylmethanesulfonylfluoride, but not by EDTA. Casein was a poor substrate, but angiotensin I was cleaved by the enzyme within 30 min at four different sites. These results indicated that the enzyme was a serine oligopeptidase of broad substrate specificity.
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PMID:A serine endopeptidase from the fruits of Melothria japonica (Thunb.) maxim. 1133 49

Angiotensin I is a substrate for both ACE and for neutral endopeptidase 24.11 (NEP). We hypothesized that high ACE expression is related to low NEP activity. Accordingly, circulating and tissue NEP and ACE activities were measured by fluorometry in homozygous rats (F(0) and F(2)) for the Lewis microsatellite allele (LL, low ACE) and for the Brown Norway microsatellite allele (BB, high ACE). Plasma, lung, and aortic ACE activities in F(0) and F(2) were higher in BB rats than in LL rats (P<0.01), whereas left ventricular ACE activity was similar in both genotypes. In contrast, NEP activity in the LL group was higher in the serum, aorta, and lungs in F(0) and F(2) homozygous (P<0.05). Plasma ACE activity was inversely correlated with serum (r=-0.6 and -0.598 in F(0) and F(2), respectively; P<0.03) and lung NEP activities (r=-0.77 in F(0) and r=-0.59 in F(2), P<0.01). Aortic ACE and NEP activities were also correlated (r=-0.696 and -0.584 in F(0) and F(2), respectively; P<0.03). In conclusion, genetically determined high ACE expression in rats is inversely related to tissue NEP activity, which could determine lower angiotensin-(1-7) tissue levels.
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PMID:Angiotensin I-converting enzyme modulates neutral endopeptidase activity in the rat. 1156 49

In both the natriuretic peptide and renin-angiotensin systems, peptidases play an important role in the inactivation or activation of the system. Angiotensin-converting enzyme is responsible for the conversion of angiotensin I to angiotensin II, while neutral endopeptidase is one of the pathways involved in the degradation of the natriuretic peptides. The vasopeptidase inhibitors, which simultaneously inhibit neutral endopeptidase and angiotensin-converting enzyme, appear to offer distinct therapeutic advantages in treating hypertension, heart failure, and endothelial dysfunction.
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PMID:Evidence for cardioprotective, renoprotective, and vasculoprotective effects of vasopeptidase inhibitors in disease. 1171 4

The morbidity and mortality of cardiac insufficiency remains such that it justifies the pursuit of finding new drugs and new sensitive techniques to slow or abolish its evolution. Bringing the vasopeptidases, such as omapatrilat, up to date results in a rational process aimed at simultaneously modulating certain interactive humoral systems. They represent drugs which simultaneously inhibit neutral endopeptidase and angiotensin converting enzyme with the effect of potentiating the natiuretic peptide system and bradykinin, and blocking the conversion of angiotensin I and angiotensin II. In the IMPRESS study, omapatrilat has been evaluated in patients with cardiac insufficiency versus lisinopril; there was no significant difference on the principal outcome measure which was exercise tolerance, however it was significantly more effective than lisinopril on the outcome measure combining death and hospital admission for deteriorating cardiac insufficiency. A wider study is underway, the OVERTURE study, which is evaluating omapatrilat versus enalapril on hospital admission and all-cause mortality. The Vanlev dossier has not yet been submitted to the regulatory authorities for obtaining its authorisation to be put on the market.
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PMID:[Heart failure and vasopeptidase inhibitors]. 1193 58

A human zinc metalloprotease (termed ACEH or ACE2) with considerable homology to angiotensin-converting enzyme (ACE) (EC 3.4.15.1) has been identified and subsequently cloned and functionally expressed. The translated protein contains an N-terminal signal sequence, a single catalytic domain with zinc-binding motif (HEMGH), a transmembrane region, and a small C-terminal cytosolic domain. Unlike somatic ACE, ACEH functions as a carboxypeptidase when acting on angiotensin I and angiotensin II or other peptide substrates. ACEH may function in conjunction with ACE and neprilysin in novel pathways of angiotensin metabolism of physiological significance. In contrast with ACE, ACEH does not hydrolyse bradykinin and is not inhibited by typical ACE inhibitors. ACEH is unique among mammalian carboxypeptidases in containing an HEXXH zinc motif but, in this respect, resembles a bacterial enzyme, Thermus aquaticus (Taq) carboxypeptidase (EC 3.4.17.19). Collectrin, a developmentally regulated renal protein, is homologous with the C-terminal region of ACEH but has no similarity with ACE and no catalytic domain. Thus, the ACEH protein may have evolved as a chimera of a single ACE-like domain and a collectrin domain. The collectrin domain may regulate tissue response to injury whereas the catalytic domain is involved in peptide processing events.
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PMID:ACEH/ACE2 is a novel mammalian metallocarboxypeptidase and a homologue of angiotensin-converting enzyme insensitive to ACE inhibitors. 1202 71

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