EC:3.4.15.1 - FACTA Search

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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)

Some of the kinetic properties of angiotensin-converting enzyme (peptidyl-dipeptide hydrolase, EC 3.4.15.1) purified from hog lung have been determined using hippurylglycylglycine as substrate. The effects of pH and ionic environment on enzyme activity are complex and interdependent. At 0.1 M NaCl, the pH-activity curve shows an abrupt decrease in V/Km as the pH rises from 6 to 6.5, implying that ionization of a group in the enzyme with a pK in this range aids in binding of the substrate. Chloride is required for enzyme activity; there are two phases in the effect of NaCl. At both pH 6 AND 8, THE FIRST PHASE (UP TO 0.1 M NaCl) is activation. The second phase (above 0.1 M) at pH 6 is inhibition, while at pH 8 there is further activation which appears to be dependent upon ionic strength rather than a specific Cl-effect. Activation by cobalt and inhibition by EDTA are somewhat more effective at pH 6 than at pH 8. The nonapeptide inhibitor less than Glu-Trp-Pro-Arg-Pro-Gln-Ile-Pro-Pro is nearly equipotent at both pH 6 and 8, but Arg-Pro-Pro is more inhibitory at pH 8 than at pH 6.
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PMID:Kinetic properties of pulmonary angiotensin-converting enzyme. Hydrolysis of hippurylglycylglycine. 0 20

Carboxycathepsin from bovine kidney split the dipeptide fragments from the C-terminal part of peptides of different structure. Peptides containing the proline residue at the second position from the C-terminal amino acid residue and also peptides with substituted terminal alpha-carboxyl group were not hydrolyzed by carboxycathepsin. The enzyme was activated by Cl, Zn2+, Co2+ and Mn2+. The substances which formed the chelate complexes with ions of two-valent metals and also heavy metal ions, inhibited the enzymatic activity. Diisopropyl fluorophosphate did not inhibit carboxycathepsin. The homogeneous preparation of carboxycathepsin converted angiotensin 1 into angiotensin 11 and hydrolyzed bradikinine, splitting off C-terminal dipeptides consequentially.
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PMID:[Properties and action specificity of carboxycathepsin (peptidyl dipepsidase) from bovine kidneys]. 19 90

Antiontensin-converting enzyme (peptidyldipeptide hydrolase, EC 3.4.15.1) has been solubilized from canine pulmonary particles and purified to apparent homogeneity. A value of approx. 140000 was estimated for the molecular weight of the native and the reduced, denatured forms of the enzyme. No free NH2-terminal residue was detected by the dansylation procedure. Carbohydrate accounted for 17% of the weight of the enzyme, and the major residues were galactose, mannose and N-acetylglucosamine with smaller amounts of sialic acid and fucose. Removal of sialic acid residues with neuraminidase did not alter enzymatic activity. The enzyme contained one molar equivalent of zinc. Addition of this metal reversed stimulation and inhibition of activity observed in the presence of Co2+ and Mn2+, respectively. Immunologic homology of pure dog and rabbit enzymes was demonstrable with goat antisera. Fab fragments and intact IgG antibodies displayed similar inhibition dose vs. response curves with homologous enzyme, whereas the fragments were poor inhibitors of heterologous activity compared to the holoantibodies. The canine glycoprotein was much less active than the rabbit preparation in catalyzing hydrolysis of Hip-His-Leu. In contrast, the two enzymes exhibited comparable kinetic parameters with angiotensin I as substrate.
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PMID:Canine pulmonary angiotensin-converting enzyme. Physicochemical, catalytic and immunological properties. 20 22

Enzymatic properties of dipeptidyl carboxypeptidase (DCP) from Bacillus pumilus were investigated. The enzyme was more active on tri- and tetrapeptides than angiotensin-converting enzyme (ACE) from rabbit lung. The presence of chloride ion is essential for the hydrolysis. The Km value of angiotensin I for the enzyme was 0.119 x 10(-3) M. The enzyme was not inhibited by the mammalian ACE inhibitors lisinopril and enalaprilat. The enzyme is readily inhibited by EDTA but restored by Co2+, Mn2+, and Zn2+. Therefore, it seems to be a zinc-metallo protease.
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PMID:Enzymatic properties of dipeptidyl carboxypeptidase from Bacillus pumilus. 136 11

Aminoacylproline hydrolase (EC 3.4.11.9) of guinea pig serum has been obtained as two apparently homogeneous isoforms. Dialyzed serum was chromatographed successively on Affi-gel blue, hydroxyapatite, DE-cellulose, phenyl-Sepharose, an affinity matrix for angiotensin converting enzyme and concanavalin-Sepharose. On the latter matrix, 68% of the enzyme activity was eluted with alpha-methyl mannoside at 10 and 100 mM, and 29% was eluted with alpha-methyl glucoside, 500 mM, at 56 degrees C. The two fractions ('biantennary' and 'high mannose' fractions, respectively) were concentrated and then chromatographed separately on Sephacryl S-200HR. Both fractions were eluted as expected for a globular protein of Mr 217,000. On SDS-PAGE, under reducing and non-reducing conditions, each of the concanavalin-Sepharose fractions was separated into two protein bands, Mr 89,000 and Mr 81,500. Each of the bands was found to be N-blocked when N-terminal amino acid sequencing was attempted. The reaction of the 'biantennary' fraction with the synthetic substrate Arg-Pro-Pro-[3H]benzylamide was characterized in part: Km 0.7 microM, kcat 124.6 min-1, kcat/Km 1.78.10(8) M-1 min-1. Hydrolysis of the substrate was strongly inhibited by bradykinin and those of its lower homologs that contain two adjacent proline residues. Cu2+ was strongly inhibitory. Co2+ at 30 microM activated the enzyme, as did Mn2+, Mg2+ and Ca2+ at higher concentrations. Sulfhydryl compounds, including captopril, inhibited the enzyme as did 1,10-phenanthroline. Iodoacetamide and N-ethylmaleimide had no effects, but 4-hydroxymercuribenzoate conferred a partial inhibition over a remarkably wide concentration range: 0.34-1400 microM. Amastatin and bestatin did not inhibit the enzyme. Aminoacylproline hydrolase of guinea pig serum appears to be a heterogeneous, glycosylated metallo-enzyme with a high affinity for bradykinin and related peptides in which the sequence Pro-Pro, Xaa-Pro-Pro or Xaa-Pro-Hyp is N-terminal.
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PMID:Purification and characterization of guinea pig serum aminoacylproline hydrolase (aminopeptidase P). 154 Jun 46

Carboxypeptidase A-catalyzed hydrolysis of peptides and depsipeptides is competitively inhibited by N-(1-carboxy-5-t-butyloxycarbonylaminopentyl)-L-phenylalanine (Boc-CA-Phe, Ki = 1.3 microM) and the angiotensin converting enzyme inhibitor, N-(1-carboxy-5-carbobenzoxyaminopentyl)-glycyl-L-phenylalanine (Z-CA-Gly-Phe, Ki = 4.5 microM). The latter compound is actually a slow substrate of carboxypeptidase. Indirect observation of inhibitor binding by stopped-flow measurement of radiationless energy transfer between carboxypeptidase tryptophans and dansylated substrates reveals slow binding for both compounds. The visible absorption spectrum of the complex of cobalt(II)-substituted carboxypeptidase and Z-CA-Gly-Phe, which differs from the corresponding spectrum of the Boc-CA-Phe complex, is remarkable in its resemblance to the spectrum of the complex between Co(II)carboxypeptidase and a transient intermediate previously observed during hydrolysis of peptide substrates. The spectrum slowly changes to that of the free enzyme indicating hydrolysis. Chromatographic quantitation of substrate and products confirms that carboxypeptidase converts Z-CA-Gly-Phe to Z-CA-Gly and L-Phe with an apparent kcat of 0.02 s-1. Absorption spectroscopy indicates that the Z-CA-Gly-Phe-Co(II)carboxypeptidase spectrum is not that of bound products. Moreover, spectral titrations indicate that the products (both with spectral Ki values of about 3 mM), as well as D-Phe, compete for the same site on the enzyme.
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PMID:An angiotensin converting enzyme inhibitor is a tight-binding slow substrate of carboxypeptidase A. 274 20

Zinc, the catalytically essential metal of angiotensin converting enzyme (ACE), has been replaced by cobalt(II) to give an active, chromophoric enzyme that is spectroscopically responsive to inhibitor binding. Visible absorption spectroscopy and magnetic circular dichroic spectropolarimetry have been used to characterize the catalytic metal binding site in both the cobalt enzyme and in several enzyme-inhibitor complexes. The visible absorption spectrum of cobalt ACE exhibits a single broad maximum (525 nm) of relatively low absorptivity (epsilon = 75 M-1 cm-1). In contrast, the spectra of enzyme-inhibitor complexes display more clearly defined maxima at longer wavelengths (525-637 nm) and of markedly higher absorptivities (130-560 M-1 cm-1). The large spectral response indicates that changes in the cobalt ion coordination sphere occur on inhibitor binding. Magnetic circular dichroic spectropolarimetry has shown that the metal coordination geometry in the inhibitor complexes is tetrahedral and of higher symmetry than in cobalt ACE alone. The presence of sulfur----cobalt charge-transfer bands in both the visible absorption and magnetic circular dichroic spectra of the cobalt ACE-Captopril complex confirm direct ligation of the thiol group of the inhibitor to the active-site metal.
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PMID:Electronic spectroscopy of cobalt angiotensin converting enzyme and its inhibitor complexes. 282 50

The formation of AII from a metabolite of AI, des-leu10-angiotensin I [A(1-9)] has been studied in centrifugal fractions of rat lung and kidney using gradient elution HPLC to monitor the formation of peptide products. AII-forming activity was present in kidney S2 (22.3 nmol/mg protein/min) but not in kidney P2 centrifugal fractions. Lung S2 fractions showed relatively weak AII-forming activity (0.34 nmole/mg protein/min) whilst no activity was observed in lung P2. Carboxypeptidase N-like activity measured using both Hipp-Arg and Hipp-Lys as synthetic substrates did not parallel AII-forming activity, since this activity was highest in the P2 fractions of both lung and kidney, as were ACE and aminopeptidase activities. Whilst the major peptide produced in kidney S2 was AII (71%) significant amounts of both AIII (23%) and A(2-9) (6%) were also observed. In lung the amounts of these peptides produced as a percentage of the A(1-9) degrading activity were 2.9%, 2.4% and 21% respectively. The AII-forming activity in kidney S2 was not inhibited by enalaprilat, bestatin, amastatin, phosphoramidon or Pro-Phe but was inhibited (31%) by 1 mM cobalt (II). 1,10-Phenanthroline, iodoacetic acid, EDTA and puromycin significantly enhanced the formation of AII and increased the rate of degradation of the substrate, A(1-9). These results support the concept of a sequential carboxypeptidase pathway operating, particularly in kidney, to produce AII from AI. These results provide further evidence of an alternative metabolic pathway for the formation of AII not involving angiotensin converting enzyme.
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PMID:Formation of angiotensin II and other angiotensin peptides from des-leu 10-angiotensin I in rat lung and kidney. 284 26

We report here a familial clustering of elevated serum angiotensin converting enzyme (ACE) levels. The patient is a 58-year-old Japanese female who had been in excellent health until age 45 when she developed an occlusion of the left central retinal vein. She was otherwise in excellent health, and no laboratory abnormality except a marked elevation of serum ACE level (625 nmol/min/ml; normal range; 22-40 nmol/min/ml of serum) was found. Her blood pressure was within normal limits (140/80 mmHg). There was no evidence for the diagnosis of sarcoidosis, Gaucher's disease, leprosy, hyperthyroidism, diabetic retinopathy, or liver disease. One of her two sisters also showed a marked increase in serum ACE activity (303 nmol/min/ml), and remarkably high levels of serum ACE (276 and 294 nmol/min/ml) were demonstrated in both sons of this sister. All the members of this family have been in excellent health. The serum ACE activity was activated by chloride and cobalt ions, and inhibited by EDTA, captopril and rabbit antiserum to purified human plasma ACE. Thus our study showed a familial clustering of elevated serum ACE in individuals who did not have conventional disease patterns associated with elevated serum ACE.
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PMID:Familial elevation of serum angiotensin converting enzyme. 298 70

Zinc is essential to the catalytic activity of angiotensin converting enzyme. The enzyme contains one g-atom of zinc per mole of protein. Chelating agents abolish activity by removing the metal ion to yield the inactive, metal-free apoenzyme. Zinc does not stabilize protein structure since the native and apoenzymes are equally susceptible to heat denaturation. Addition of either Zn2+, Co2+, or Mn2+ to the apoenzyme generates an active metalloenzyme; Fe2+, Ni2+, Cu2+, Cd2+, and Hg2+ fail to restore activity. The activities of the metalloenzymes follow the order Zn greater than Co greater than Mn. The protein binds Zn2+ more firmly than it does Co2+ or Mn2+. Hydrolysis of the chromophoric substrate, furanacryloyl-Phe-Gly-Gly, by the active metalloenzymes is subject to chloride activation; the activation constant is not metal dependent. Metal replacement mainly affects Kcat with very little change in Km, indicating that the role of zinc is to catalyze peptide hydrolysis.
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PMID:The functional role of zinc in angiotensin converting enzyme: implications for the enzyme mechanism. 299 78

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