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:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fast and very slow hydrolyses of des-Arg9-bradykinin and angiotensin II by angiotensin I-converting enzyme were detected by high performance liquid chromatography. The Michaelis constants of the enzyme, Km values, for des-Arg9-bradykinin and bradykinin were found to be 0.24 mM and 4.4 microM, and the maximum velocities, Vmax values (mumol . min-1 . mg protein-1) for these compounds to be 3.24 and 0.34, respectively. The enzyme also hydrolyzed Z-Gly-Pro-Gly-Gly-Pro-Ala to a tripeptide that was identified as dansyl-Gly-Pro-Ala by TLC on polyamide. These observations show that the enzyme hydrolyzes the peptides at the bond before the prolyl residue in the penultimate position.
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PMID:Cleavage of des-Arg9-bradykinin by angiotensin I-converting enzyme from pig kidney cortex. 298 43

The paper is concerned with the action of 1200-fold purified prolylendopeptidase II (PE-E) from human erythrocytes and the action of highly purified prolyl-D-L-alanine peptidyl hydrolase (PE-A) from bovine adenohypophysis on teprotide (BPP9a, SQ 20881), a nonapeptide from venom of the snake Bothrops Jararaca--an inhibitor of peptidyl dipeptidase A (carboxycathepsin). Both the purified preparation PE-E and highly purified preparation PE-A split teprotide at the bonds Pro3-Arg4 and Pro5-Gln6. The Pro8-Pro9-OH bond was not split by the two enzymes. The comparative characteristics of the properties of PE-E and PE-A are presented and the possible physiological role of these enzymes is discussed.
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PMID:[Human erythrocyte prolyl endopeptidase II hydrolysing teprotid, an inhibitor of peptidyl peptidase from snake venom]. 298 49

A dipeptidyl carboxypeptidase, which cleaved the Gly3-Phe4 bond of enkephalins, was purified from guinea pig serum 420-fold. The optimum pH of the enzyme was in the neutral range (pH 7.25), and the molecular weight was estimated to be approx. 280,000. The enzyme hydrolyzed Met- and Leu-enkephalin with Km values of 0.30 and 0.50 mM, respectively. The enzyme was inhibited by metal chelators and p-chloro-mercuribenzoate. Captopril showed high inhibitory potency, while phosphoramidon and Phe-Ala showed no effect on the enzyme activity. Therefore, the obtained enzyme can be classified as an angiotensin-converting enzyme (EC 3.4.15.1). Among the bioactive peptides examined, bradykinin and angiotensin I were hydrolyzed by the enzyme. Angiotensin III showed a stronger inhibitory effect than that of angiotensin II. Substance P, gastrin I, and secretin were also inhibitory toward the enzyme activity. On high-performance liquid chromatography analysis, Met-enkephalin-Arg6-Phe7 and Leu-enkephalin-Arg6 were cleaved sequentially at the second peptide bond of the C terminus. Thus, the dipeptidyl carboxypeptidase in guinea pig serum may play a role not only in the angiotensin-bradykinin system but also in the metabolism of circulating enkephalins and other bioactive peptides.
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PMID:Enkephalin-degrading dipeptidyl carboxypeptidase in guinea pig serum: its properties and action on bioactive peptides. 299 Mar 46

Removal of [14C]captopril by the lungs of anesthetized rabbits was measured by the multiple indicator dilution technique. After coinjection of indocyanine green (ICG) and [14C]captopril into the jugular vein of anesthetized rabbits, serial blood samples were collected from the carotid artery and each was analyzed for its content of both substances. Percent removal (R) of captopril after its initial injection of 10 nmoles captopril/kg (calculated at the peak of the ICG outflow curve) was 40.2 +/- 2.5 (S.E.M.) and was significantly greater than R after a second injection of 10 nmoles captopril/kg (20.1 +/- 2.4) 1 hr later. Removal of 70 nmoles captopril/kg (5.8 +/- 3.0 after first injection, 6.4 +/- 2.2 after second injection) was significantly lower than R of 10 nmoles captopril/kg. During a single pulmonary passage of either dose of captopril, R was inversely related to the calculated fractional concentration of intravascular captopril. Pulmonary metabolism of the angiotensin converting enzyme (ACE) substrate [3H]benzoyl-Phe-Ala-Pro [( 3H]BPAP) was 70.1 +/- 1.7% in the absence of captopril, and was reduced significantly to 27.4 +/- 2.4% by 10 nmoles captopril/kg and 7.6 +/- 0.2% by 6 mumoles BPAP/kg. BPAP (6.4 +/- 0.6 mumoles/kg) significantly reduced R of the first and second injections of 10 nmoles captopril/kg but this effect was selective, since BPAP did not reduce pulmonary removal of [14C]serotonin. These data indicate that pulmonary removal of captopril in vivo is saturable and may primarily reflect binding of the drug to pulmonary endothelial ACE.
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PMID:Captopril removal by rabbit lung in vivo. 299 Apr 84

A versatile, convenient assay for vertebrate collagenases has been developed using the fluorescent peptide substrate dansyl-Pro-Gln-Gly-Ile-Ala-Gly-D-Arg. This sequence resembles that of collagen at the site of cleavage but includes modifications designed to eliminate nonspecific hydrolysis by contaminating peptidases. Both human skin fibroblast and bovine corneal cell collagenases cleave the substrate specifically at the Gly-Ile bond. Plasmin, thrombin, trypsin, alpha-chymotrypsin, carboxypeptidase B, and bacterial collagenase do not cleave the substrate. Elastase and angiotensin converting enzyme display 20- and 400-fold less activity than the vertebrate collagenases, respectively, and cleave the peptide at different positions. The assay is performed by incubating a 5- to 25-microliters aliquot of trypsin-activated sample with an equal volume of 2 mM substrate overnight at 33 degrees C and pH 7.5. Thin-layer chromatography then separates the fluorescent product from the substrate in less than 20 min and allows the detection of subnanogram levels of collagenase. The assay is applicable to the screening of large numbers of samples under different conditions of pH and ionic strength and is readily adaptable for use in a variety of collagenase-dependent systems, such as assays for collagenase activating and/or inducing factors.
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PMID:A convenient fluorescent assay for vertebrate collagenases. 301 20

Five phosphorus-containing inhibitors of angiotensin converting enzyme were found to exhibit slow, tight-binding kinetics by using furanacryloyl-L-phenylalanylglycylglycine as substrate at pH 7.50 and T = 25 degrees C. Two of the inhibitors, (O-ethylphospho)-Ala-Pro (2) and (O-isopropylphospho)-Ala-Pro (3), are found to follow at minimum a two-step mechanism of binding (mechanism B) to the enzyme. This mechanism consists of an initial fast formation of a weaker enzyme-inhibitor complex (Ki = 130 nM for 2 and 180 nM for 3) followed by a slow reversible isomerization to a tighter complex with measurable forward (K3) and reverse (k4) rate constants (k3 = 4.5 X 10(-2) s-1 for 2 and 5.4 X 10(-2) s-1 for 3; k4 = 9.2 X 10(-3) s-1 for 2 and 3.5 X 10(-3) s-1 for 3). For the remaining three inhibitors, phospho-Ala-Pro (1), (O-benzyl-phospho)-Ala-Pro (4), and (P-phenethylphosphono)-Ala-Pro (5), a one-step binding mechanism (mechanism A) is observed under the conditions of the experiment. The second-order rate constants k1 (M-1 s-1) for the binding of these inhibitors to converting enzyme are found to have values more than 3 orders of magnitude lower than the diffusion-controlled limit for a bimolecular reaction involving the enzyme, viz., 3.9 X 10(5) for 1, 2.2 X 10(5) for 4, and 4.8 X 10(5) for 5.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetics of slow, tight-binding inhibitors of angiotensin converting enzyme. 302 47

Heretofore, carboxyalkyl peptide inhibitors of kininase II (e.g. N-[1-carboxy-3-phenylpropyl]-Ala-Pro, "enalaprilic acid") have been synthesized by means that yield racemic product. Typically, the secondary amine bond is formed by reacting an amino acid or dipeptide with a 2-keto carboxylic acid ester or imide. The group providing the 2-keto function must be used in excess, and the desired S,S,S isomer must be obtained by resolution procedures. We have developed a procedure whereby enalaprilic acid, RAC-X-64 and related compounds are synthesized stereospecifically and in relatively high yields.
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PMID:Carboxyalkyl peptide inhibitors of kininase II: chiral synthesis. 302 59

We have found that apparent Ki values of some, but not all, carboxyalkyl-dipeptide inhibitors of angiotensin converting enzyme decrease as a function of incubation time. The most potent of the ACE inhibitors tested so far is RAC-X-65 (N-[1(S)-carboxy-3-carboxanilidiopropyl]-L-Ala-L-Pro). When RAC-X-65 is not preincubated with human serum ACE (2.4 X 10(-11) M), the apparent Ki value is 4.4 X 10(-10) M. Preincubation of RAC-X-65 with ACE for 15 min before addition of substrate yields an apparent Ki of 4.1 X 10(-11) M. a 90 min preincubation of the inhibitor with ACE yields an apparent Ki of 1.2 X 10(-11) M, i.e., the reaction of the inhibitor with enzyme is virtually stoichiometric. The enzyme:inhibitor complex is poorly separated by molecular sieve chromatography or by dilution. That such tightly bound complexes are formed in vivo is suggested by the following results: The intravenous ED50 (anesthetized rats) of RAC-X-65 is 9.43 nmol/kg, and the time for half recovery (t1/2) of responsiveness to i.v. angiotensin I, 120 ng/kg, following a cumulative dose of 240 nmol/kg of the inhibitor is 165 min. For comparison, the i.v. ED50 of captopril is 105 nmol/kg, and its t1/2 following a cumulative dose of 240 nmol/kg is 16 min. Implied is the possibility that slow tight binding inhibitors of ACE may be used in a 1 pill per day regimen for the treatment of hypertension.
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PMID:Slow tight binding inhibitors of angiotensin converting enzyme. 302 60

Estimations of Michaelis-Menten constants Km and Amax (product of Vmax and pulmonary microvascular plasma volume) of pulmonary, endothelial-bound angiotensin converting enzyme (ACE) for the synthetic substrate 3H-Benzoyl-Phe-Ala-Pro (BPAP) were performed in rabbits, in vivo, utilizing indicator dilution techniques. The animals were conscious and equipped with permanent right atrial and left carotid catheters. For each determination of Km and Amax, two consecutive bolus injections of BPAP were given into the right atrial catheter, the first containing 0.1 and the second 1622 nmol of substrate, producing first order and mixed order substrate concentrations, respectively, in the pulmonary circulation. Arterial blood was withdrawn at 0.7 sec intervals for 15 sec after each injection and from the family of substrate concentrations thus created (usually 14-20) and resulting range of substrate utilization (10-90%), Km and Amax values were calculated utilizing the Lineweaver-Burk, Eadie-Scatchard, Woolf-Augustinsson-Hofstee or Hanes-Woolf transformations of the integrated Henri-Michaelis-Menten equation. All four methods produced similar values of Km (10-12 microM), Amax (6-7 mumol/min) and Amax/Km (600-720 ml/min); however, linear regression analysis of data from the Hanes-Woolf transformation resulted in a higher correlation coefficient (0.96 vs 0.86-0.88 for the other three methods). Values for the kinetic constants reported here were similar to those previously reported in anesthetized rabbits utilizing the Woolf-Augustinsson-Hofstee transformation, but higher than those reported for purified rabbit lung ACE, in vitro.
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PMID:Michaelis-Menten kinetics of pulmonary endothelial angiotensin converting enzyme in the conscious rabbit. 302 63

A glutamic acid residue at the active-site of bovine lung angiotensin I-converting enzyme was esterified with p-[N,N-bis-(chloroethyl)amino]phenylbutyryl-L-[U-14]-Proline (chlorambucyl-L-[U-14C]-L-Proline), an affinity label for this enzyme. The radiolabeled enzyme was digested with BrCN and only 1 of the 30 cleavage peptides resolved by reverse-phase HPLC contained the bound radiolabel. This active-site peptide (Mr approximately 16,000) was digested with trypsin, and the labeled peptide (T-2) was further degraded with thermolysin. The enzyme digest peptides were also resolved by reverse-phase HPLC. Only 1 of the 5 peptides obtained after thermolysin digestion (Th-1, Mr 1290) contained the bound radiolabel. Th-1 (12 residues) was subjected to manual Edman degradation and the following partial sequence was determined: H2N-Phe-Thr-Glu-Leu-Ala-Asp-Ser-Glu. The radiolabel was released at cycle 3 and the amount recovered was equivalent to the amount of PTH-Glu detected on HPLC. Thus, glutamic acid is esterified with chlorambucyl-L-[U-14C]-Proline which confirms our earlier findings. The sequence that we determined is homologous in five residues with the corresponding sequences of carboxypeptidase A and B, two other mammalian zinc-proteases. There is little sequence homology with thermolysin, a bacterial zinc-protease that also contains an essential active-site glutamic acid residue.
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PMID:Isolation and sequencing of an active-site peptide from angiotensin I-converting enzyme. 302 71


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