EC:3.4.15.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cultured human intestinal epithelial (Caco-2) cell monolayer was used to study the transport and metabolism of delta sleep-inducing peptide [DSIP (Trp-Ala-Gly-Gly-Asp-Ala-Ser-Gly-Glu)]. DSIP is of interest because it has been reported to be capable of permeating biological barriers (e.g. blood-brain barrier), and this property has been related to its solution conformation. When applied to the apical (AP) side of Caco-2 cell monolayers, DSIP was rapidly metabolized (8.2 +/- 1.1% remaining after a 2-hr incubation), affording Trp as the major metabolite and Trp-Ala as a minor metabolite. When DSIP was added to the basolateral (BL) side of the monolayer, the same metabolites were detected, but the peptide was more stable (70.6 +/- 3.0% remaining after a 2-hr incubation). Inclusion of bestatin, an inhibitor of aminopeptidases, at concentrations up to 0.29 mM with DSIP on the AP side of the Caco-2 cell monolayer increased the stability of the peptide only slightly but dramatically altered the distribution of the metabolites (Trp-Ala became the major metabolite, and Trp became the minor metabolite). Inclusion of other aminopeptidase inhibitors (e.g. amastatin, puromycin) alone, dipeptidylpeptidase IV inhibitors (e.g. diprotin A, Gly-Pro) alone, inhibitors of proteases that require heavy metals for proper activity (e.g. EDTA, 1,10-phenanthroline) alone, or cysteine protease inhibitors (e.g. leupeptin) alone did not lead to significant stabilization of the peptide. However, inclusion of a combination of 0.29 mM bestatin and 1 mM diprotin A with DSIP on the AP side of the monolayers resulted in a substantial increase in the stability of the peptide (83.2 +/- 3.7% remaining after a 2-hr incubation). However, under these conditions, a new metabolite (Trp-Ala-Gly-Gly-Asp-Ala-Ser) was observed with a formation that could be inhibited by inclusion of 1 mM captopril, an inhibitor of peptidyl dipeptidase A. Therefore, the stability of DSIP could be further increased (95.1 +/- 1.6% remaining after a 2-hr incubation) by incubating the peptide with 0.29 mM bestatin, 1 mM diprotin A, and 1 mM captopril. However, even when the major metabolic pathways were inhibited on the AP side of the cell monolayer, no DSIP was detected on the BL side of a Caco-2 cell monolayer. These results suggest that a yet unidentified metabolic pathway is preventing the AP-to-BL flux of DSIP or that DSIP has lower "intrinsic" ability to permeate across cultured intestinal epithelial cells than across cultured brain endothelial cells, a cell culture model of the blood-brain barrier.
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PMID:Transport and metabolism of delta sleep-inducing peptide in cultured human intestinal epithelial cell monolayers. 868 46

Drosophila melanogaster angiotensin I-converting enzyme (AnCE) is a secreted single-domain homologue of mammalian angiotensin I-converting enzyme (ACE) which comprises two domains (N and C domains). In order to characterize in detail the enzymic properties of AnCE and to study the influence of glycosylation on the secretion and enzymic activity of this enzyme, we overexpressed AnCE (expression level, 160 mg/l) and an unglycosylated mutant (expression level, 43 mg/l) in the yeast Pichia pastoris. The recombinant enzyme was apparently homogeneous on SDS/PAGE without purification and partial deglycosylation demonstrated that all three potential sites for N-linked glycosylation were occupied by oligosaccharide chains. Each N-glycosylation sequence (Asn-Xaa-Ser/Thr) was disrupted by substituting a glutamine for the asparagine residue at amino acid positions 53, 196 and 311 by site-directed mutagenesis to produce a single mutant. Expression of the unglycosylated mutant in Pichia produced a secreted catalytically active enzyme (AnCE delta CHO). This mutant displayed unaltered kinetics for the hydrolyses of hippuryl-His-Leu, angiotensin 1 and N-acetyl-Ser-Asp-Lys-Pro (AcSDKP) and was equally sensitive to ACE inhibitors compared with wild-type AnCE. However, AnCE delta CHO was less stable, displaying a half-life of 4.94 h at 37 degrees C, compared with AnCE which retained full activity under the same conditions. Two catalytic criteria demonstrate the functional resemblance of AnCE with the human ACE C domain: first, the kcat/Km of AcSDKP hydrolysis and secondly, the kcat/Km and optimal chloride concentration for hippuryl-His-Leu hydrolysis. A range of ACE inhibitors were far less potent towards AnCE compared with the human ACE domains, except for captopril which suggests an alternative structure in AnCE corresponding to the region of the S1 subsite in the human ACE active sites.
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PMID:Drosophila melanogaster angiotensin I-converting enzyme expressed in Pichia pastoris resembles the C domain of the mammalian homologue and does not require glycosylation for secretion and enzymic activity. 876 61

The ability of intracerebroventricularly (i.c.v.) administered D-amino acid-substituted analogues of des-Asp-angiotensin I to attenuate the central pressor action of angiotensin III in the rat was investigated. Of the 9 D-amino acid-substituted analogues, only D-tyrosine-des-Asp-angiotensin I was active. I.c.v. D-tyrosine-angiotensin I but not i.c.v. D-isoleucine-angiotensin I (when prevented from degradation by angiotensin converting enzyme with captopril) also attenuated the central pressor action of angiotensin III. In vitro incubation of angiotensin I, D-tyrosine-angiotensin I and D-isoleucine-angiotensin I with brain homogenate resulted in the formation of des-Asp-angiotensin I, D-tyrosine-des-Asp-angiotensin I and D-isoleucine-des-Asp-angiotensin I, respectively. This shows that i.c.v. angiotensin I and D-tyrosine-angiotensin I were converted by brain aminopeptidase to des-Asp-angiotensin I and D-tyrosine-des-Asp-angiotensin I, respectively, which then attenuated the pressor action of angiotensin III. When compared to the findings of similar D-substitution studies carried out with angiotensin II and [Sar1,Ile8]angiotensin II by other investigators, des-Asp-angiotensin I has a stringent structural-activity relationship. These findings suggest that, at the physiological level, des-Asp-angiotensin I is formed from angiotensin I and that the nonapeptide probably acts on a distinct subtype of angiotensin receptors.
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PMID:Actions of D-amino acid-substituted analogues of des-Asp-angiotensin I on the central pressor action of angiotensin III. 878 49

1. The role of the metalloendopeptidase EC 3.4.24.15 (EP 24.15) in peptide metabolism in vivo is unknown, in part reflecting the lack of a stable enzyme inhibitor. The most commonly used inhibitor, N-[1-(R,S)-carboxy-3-phenylpropyl]-Ala-Ala-Tyr-p-aminobenzoate (cFP-AAY-pAB, Ki = 16 nM), although selective in vitro, is rapidly degraded in the circulation to cFP-Ala-Ala, an angiotensin converting enzyme (ACE) inhibitor. This metabolite is thought to be generated by neutral endopeptidase (NEP; EC 3.4.24.11), as the Ala-Tyr bond of cFP-AAY-pAB is cleaved by NEP in vitro. In the present study, we have examined the role of NEP in the metabolism of cFP-AAY-pAB in vivo, and have tested a series of inhibitor analogues, substituted at the second alanine, for both potency and stability relative to the parent compound. 2. Analogues were screened for inhibition of fluorescent substrate cleavage by recombinant rat testes EP 24.15. D-Ala or Asp substitution abolished inhibitory activity, while Val-, Ser- and Leu-substituted analogues retained activity, albeit at a reduced potency. A relative potency order of Ala (1) > Val (0.3) > Ser (0.16) > Leu (0.06) was observed. Resistance to cleavage by NEP was assessed by incubation of the analogues with rabbit kidney membranes. The parent compound was readily degraded, but the analogues were twice (Ser) and greater than 10 fold (Leu and Val) more resistant to cleavage. 3. Metabolism of cFP-AAY-pAB and the Val-substituted analogue was also examined in conscious rabbits. A bolus injection of cFP-AAY-pAB (5 mg kg-1, i.v.) significantly reduced the blood pressure response to angiotensin I, indicating ACE inhibition. Pretreatment with NEP inhibitors, SCH 39370 or phosphoramidon, slowed the loss of cFP-AAY-pAB from the plasma, but did not prevent inhibition of ACE. Injection of 1 mg kg-1 inhibitor resulted in plasma concentrations at 10 s of 23.5 microM (cFP-AAY-pAB) and 18.0 microM (cFP-AVY-pAB), which fell 100 fold over 5 min. Co-injection of 125I-labelled inhibitor revealed that 80-85% of the radioactivity had disappeared from the circulation within 5 min, and h.p.l.c. analysis demonstrated that only 25-30% of the radiolabel remained as intact inhibitor at this time. Both analogues were cleared from the circulation at the same rate, and both inhibitors blunted the pressor response to angiotensin I, indicative of ACE inhibition. 4. These results suggest that both NEP and other clearance/degradation mechanisms severely limit the usefulness of peptide-based inhibitors such as cFP-AAY-pAB. To examine further EP 24.15 function in vivo, more stable inhibitors, preferably non-peptide, must be developed, for which these peptide-based inhibitors may serve as useful molecular templates.
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PMID:Synthetic inhibitors of endopeptidase EC 3.4.24.15: potency and stability in vitro and in vivo. 881 53

Somatic angiotensin I converting enzyme (ACE; kininase II) has two active sites, in two (N and C) domains. We studied the active centers with separate N-domain ACE (N-ACE), testicular C-domain ACE (germinal ACE) and, as control, renal somatic ACE. Germinal ACE cleaved the nonapeptide bradykinin about two times faster than N-ACE in 20 mM Cl-. Bradykinin1-7 was hydrolyzed further to bradykinin1-5 by N-ACE four times faster in the absence of Cl-, but at 300 mM Cl- the C-domain hydrolyzed it twice as fast. The hematopoietic system regulatory peptide acetyl-Ser-Asp-Lys-Pro was split to two dipeptides by N-ACE, depending on the chloride concentration, 8 to 24 times faster than by germinal ACE; at 100 mM Cl-, the Kcat with N-ACE was eight times higher. One millimolar 1-fluoro-2,4-dinitrobenzene inhibited germinal ACE 96% but it inhibited N-ACE by only 31%. [3H]Ramiprilat was displaced by other unlabeled ACE inhibitors to establish their relative affinities. Captopril had the lowest IC50 (0.5 nM) with N-ACE and the highest IC50 (8.3 nM) with the germinal ACE. The IC50 values of ramiprilat and quinaprilat were about the same with both active sites. The association and dissociation constants of [3H]ramiprilat indicated faster association with and faster dissociation from N-ACE than from germinal ACE. After exposure to alkali or moderate heat, somatic ACE was cleaved by plasmin and kallikrein, releasing N-ACE and apparently inactivating the C-domain. These studies affirm the differences in the activity, stability and inhibition of the two active sites of ACE.
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PMID:Single-domain angiotensin I converting enzyme (kininase II): characterization and properties. 896 86

The design, synthesis, and biochemical profile of meta-substituted benzofused macrocyclic lactams are described. The meta-substituted benzofused macrocyclic lactams were designed to have a degree of flexibility allowing the amide bond to occupy two completely different conformations while maintaining sufficient rigidity to allow for strong interaction between enzyme and inhibitor. Using TFIT, a novel molecular superimposition program, it was shown that the meta analogs could be readily superimposed onto our ACE inhibitor template whereas no low-energy superimpositions of the ortho-substituted macrocycles could be found. The macrocycles were prepared by tethering aldehyde 1 derived from S-glutamic acid or S-aspartic acid to a meta-substituted phosphonium bromide 2. Homologation to a monocarboxylic acid methyl ester malonate followed by deprotection and cyclization gave the macrocyclic frame. Further manipulation gave the desired compounds. Unlike the ortho-substituted benzofused macrocyclic lactams described in the previous paper which are selective NEP inhibitors, the meta-substituted compounds are dual inhibitors of both NEP and ACE. The most potent member of this new series, compound 16a, inhibited both enzymes with an IC50 = 8 nM in NEP and 4 nM in ACE.
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PMID:Meta-substituted benzofused macrocyclic lactams as zinc metalloprotease inhibitors. 904 41

The somatic form of angiotensin converting enzyme is a class I ectoenzyme that is bound to the surface of endothelial calls. It consists of two homologous, catalytic domains of approximately 600 residues each; a juxtamembrane "stalk" region; a transmembrane, hydrophobic sequence; and a 30 residue, C-terminal cytosolic domain. We have used limited proteolysis to probe the structural and functional properties of the enzyme. Endoproteinase Asp-N cleaves both the Thr615-Asp616 and the Leu1219-Asp1220 peptide bonds to generate the two catalytic domains which were isolated by a combination of immunoaffinity and lisinopril Sepharose affinity chromatography. The enzymatic characteristics of the N and C fragments were examined with angiotensin I, hippuryl-His-Leu, and luteinizing hormone-releasing hormone and indicate that both fragments contain catalytically active sites that retain their individual functional integrity.
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PMID:Limited proteolysis of human kidney angiotensin-converting enzyme and generation of catalytically active N- and C-terminal domains. 922 17

The actions of des-Asp angiotensin I, a nine aminoacid peptide, on the contractility of the aortic rings of the normotensive Wistar Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) were studied. In the presence of captopril which prevented its degradation to angiotensin III by angiotensin converting enzyme, des-Asp-angiotensin I exerted direct concentration-dependent contractile action on the aortic rings. The contractile action was concentration-dependently attenuated by the AT1 receptor antagonist, losartan, but was not affected by the AT2 receptor antagonist, PD123319; indicating that angiotensin AT1 receptors mediate the direct contractile action. The response to des-Asp-angiotensin I was qualitatively different from that to angiotensin III i.e. lower potency and a likely higher efficacy suggesting that the two angiotensins act on different subtypes of angiotensin receptor. The response of the aortic rings to angiotensin III and des-Asp-angiotensin I in the SHR was significantly lower than the corresponding responses in WKY. Des-Asp-angiotensin I attenuated in a concentration-dependent and U-shape manner the response of the aortic ring to angiotensin III in the SHR but not in the WKY. Significant attenuation occurred in the pico to nano molar range of des-Asp-angiotensin I which is within the physiological concentration of the nonapeptide. Although these findings are the first demonstration of a direct and modulatory action of des-Asp-angiotensin I on the blood vessels of the SHR and raise the possibility of its involvement in blood pressure control, its exact role remains to be further studied.
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PMID:Actions of des-Asp angiotensin I on the aortic rings of the normo- and hypertensive rats. 950 92

We studied the effects of des-Asp-angiotensin I, a nine amino acid peptide, on cardiac hypertrophy caused by coarctation of the abdominal aorta in Sprague-Dawley rats. The nonapeptide was effective when given either intravenously or orally. Maximum attenuation was observed with an i.v. dose of 153 pmol/day for 4 days, and an oral dose of 250 nmol/day for 4 days. Three mg p.o. losartan, an angiotensin AT1 receptor antagonist, produced comparable attenuation. However, the attenuation produced by des-Asp-angiotensin I but not by losartan was blunted by 30.4 micromol of indomethacin. The oral efficacy of the nonapeptide was partly due to its low effective i.v. doses which were in the nM range. This range is below the Km of most enzymes including those of the intestinal peptidases (the Km of most enzymes is in the microM range). However, the mechanism of absorption of the peptide from the GIT into the systemic circulation remains to be investigated. The findings demonstrate for the first time, the anti-cardiac hypertrophic action of an angiotensin peptide. Unlike the ACE inhibitors and angiotensin receptor antagonists, the nonapeptide acts as an agonist on an indomethacin-sensitive angiotensin receptor to exert its action.
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PMID:Effects of des-Asp-angiotensin I on experimentally-induced cardiac hypertrophy in rats. 957 48

The hemoregulatory peptide N-Acetyl-Ser-Asp-Lys-Pro (AcSDKP) has been shown in vivo to inhibit the cycling of murine hematopoietic stem cells triggered into S-phase by either cytotoxic drug administration or irradiation. This property, further confirmed using in vitro models, demonstrates that the peptide has an in vivo protective effect on the hematopoietic system. AcSDKP has been shown to be a physiological substrate of angiotensin I-converting enzyme (ACE), which catabolizes the peptide through a dipeptidasic activity. Thus, oral administration of ACE inhibitor to humans has led to an increase in the plasma AcSDKP concentration. In the present paper, we report on the in vivo effect of lisinopril, an ACE inhibitor, on the proliferative status of murine hematopoietic stem cells triggered into S-phase by irradiation. Administration of lisinopril (10 mg/kg) 1 hour after irradiation led to a 90 to 100% inhibition of murine plasma ACE activity as observed during the first 4 hours postirradiation. This inhibition was correlated with a 600% increase in the endogenous plasma AcSDKP level and a total suppression at 24 hours of entry of the hematopoietic stem cell into the cell cycle. We discuss the possible role of ACE in the regulation of hematopoietic stem cell proliferation through control of the AcSDKP concentration.
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PMID:Lisinopril, an angiotensin I-converting enzyme inhibitor, prevents entry of murine hematopoietic stem cells into the cell cycle after irradiation in vivo. 976 48

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