EC:3.5.1.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human urinary active kallikrein and prokallikrein were separated on DEAE-cellulose and octyl-Sepharose columns and both purified to homogeneity by affinity chromatography, gel filtration and hydrophobic h.p.l.c. Prokallikrein was monitored during purification by trypsin activation followed by determination of both amidase and kininogenase activity. After trypsin activation, purified prokallikrein had a specific kininogenase activity of 39.4 micrograms of bradykinin equivalent/min per mg and amidase activity of 16.5 mumol/min per mg with D-Val-Leu-Arg-7-amino-4-trifluoromethylcoumarin. Purified active kallikrein had a specific activity of 47 micrograms of bradykinin/min per mg. The molecular mass of prokallikrein was 48 kDa on electrophoresis and 53 kDa on gel filtration whereas active kallikrein gave values of 46 kDa and 53 kDa respectively. Antisera to active and prokallikrein were obtained. In double immunodiffusion and immunoelectrophoresis, antiserum to active kallikrein reacted with active and pro-kallikrein. Antiserum to prokallikrein contained antibodies to determinants not found in active kallikrein, presumably due to the presence of the activation peptide in the proenzyme. Human prokallikrein can be activated by thermolysin, trypsin and human plasma kallikrein. Activation of 50% of the prokallikrein (1.35 microM) was achieved in 30 min with 25 nM-thermolysin, 78 nM-trypsin or 180 nM-human plasma kallikrein. Thus thermolysin was the most effective activator. Thermolysin activated prokallikrein by releasing active kallikrein with N-terminal Ile1-Val2. Thus human tissue (glandular) prokallikrein can be activated by two types of enzymes: serine proteinases, which cleave at the C-terminus of basic amino acids, and by a metalloproteinase that cleaves at the N-terminus of hydrophobic amino acids.
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PMID:Purification of human urinary prokallikrein. Identification of the site of activation by the metalloproteinase thermolysin. 393 23

In a previous study of plasma specimens from reactors to clinical dextran, it was concluded that a factor activated by acetone converted the high-molecular-weight kininogen (HMrK) into a non-functional state. We recently identified the HMrK-destroying factor as a plasma kallikrein modification with high plasminogen activator (PGA) activity. The aim of the present work was to investigate whether the level of plasma kallikrein, assayed as PGA on fibrin plates, was higher than normal in plasma from patients reacting to dextran or radiographic contrast media. Plasma specimens from 10 reactors and 16 controls were examined. No difference in PGA level could be detected between reactors and controls in citrated plasma stabilized with benzamidine 9 mM, whereas a significant loss of PGA activity took place in citrated reactor plasma during the acetone activation procedure. The loss of PGA activity could not be due to known inhibitors of plasma kallikrein. It was only partial, and did not influence the amidase effect against the tripeptide substrate H-D-Pro-Phe-Arg-pNA. The results might indicate the presence in plasma of different amounts of an unknown constituent important for the obtainable level of plasma kallikrein with high PGA activity. The significant loss of PGA activity in reactor plasma might indicate an abnormally high level of the unknown plasma factor.
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PMID:Assay of prekallikrein as plasminogen proactivator in plasma specimens from reactors to dextran or to contrast media. 608 73

Rheumatoid synovial fluid contains an activator of latent collagenase from culture medium of pig synovium. The activator was purified by gel chromatography on Ultrogel AcA 44 and affinity chromatography on soybean trypsin inhibitor coupled to Sepharose 4B. The purified material was homogeneous on SDS-polyacrylamide gel electrophoresis with Mr 88 000. The activator had limited proteolytic activity against azo-casein, but showed amidase activity on Pro-Phe-Arg-NMec, Z-Phe-Arg-NMec, D-Val-Leu-Arg-NPhNO2 and D-Pro-Phe-Arg-NPhNO2, with an optimum at pH 8.0. Activity was completely inhibited by diisopropyl fluorophosphate, soybean trypsin inhibitor, leupeptin and Pro-Phe-Arg-CH2Cl, whereas lima bean trypsin inhibitor, Tos-Lys-CH2Cl, a specific inhibitor of factor XIIa from maize, EDTA and iodoacetate were not inhibitory. These properties of the activator suggested that it might be plasma kallikrein (EC 3.4.21.34), and the possibility was further examined. The activator was treated with [3H]diisopropyl fluorophosphate, and run in SDS-polyacrylamide gel electrophoresis with reduction; a radioautograph of the gel showed a pair of [3H]diisopropyl phosphoryl-labelled bands (Mr 36 000 and 34 000) identical to those obtained with authentic plasma kallikrein. Double immunodiffusion with monospecific antiserum against human plasma kallikrein confirmed the identification. This is the first demonstration of collagenase-activating activity of plasma kallikrein, and raises the possibility that activation of prokallikrein in the inflamed joint space may contribute to the disease process not only by the production of bradykinin, but also by activating latent collagenase.
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PMID:Identification of plasma kallikrein as an activator of latent collagenase in rheumatoid synovial fluid. 627 61

Using a direct radioimmunoassay and a kininogenase assay, we determined that 68% of rat urinary kallikrein was enzymatically active while 32% was in an inactive form which was activated by trypsin. Inorganic cations, at concentrations found in rat urine, were inhibitory in an amidase assay but appeared to potentiate kininogenase activity of pure rat urinary kallikrein. In random urines, kinin concentration was 4.2 +/- 0.7 ng/ml. Trypsinization of the urines generated 52.9 +/- 25.8 ng kinin/ml, indicating that kininogen was present. The rate of kinin formation in vivo may depend on the availability of kininogen and the concentration of inorganic cations in urine, as well as on other well-recognized factors, such as the kallikrein activity of the urine.
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PMID:Components of the kallikrein-kinin system in rat urine. 656 18

We studied the effect of ions on the ability of purified human urinary kallikrein to cleave its natural substrate (kininogen) as well as two synthetic substrates, tosylarginine [3H]methyl ester and Pro-Phe-Arg-[3H]benzylamide. The kininogenase activity of kallikrein is markedly dependent upon the concentration of cations in vitro. Kininogenase activity is very low when measured in a low electrolyte buffer. The addition of cations to the reaction mixture increases activity by up to 27-fold. Maximum activity is achieved with 100 mM sodium, 100 mM potassium, or 20 mM magnesium. The activity is stable at higher concentrations of cation. Renal kallikrein is believed to act within distal tubular fluid in vivo. The concentration of cations in this fluid varies widely in response to alterations in salt and water metabolism. Thus, the relationship of kininogenase activity to the concentration of cations demonstrated in vitro may be relevant to the activity of kallikrein at its presumed site of action in the kidney. In separate experiments, we evaluated the effect of ions on the amidase and esterase activities of kallikrein which are the basis of several assays in routine use for physiological studies. In contrast to their stimulatory effect on kininogenase activity, cations inhibit amidase and to a lesser extent esterase activity. Additional studies indicate that urinary cations probably account entirely for the well known ability of normal urine to inhibit the amidase and esterase activities of kallikrein.
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PMID:The effect of cations on the activity of human urinary kallikrein. 692 Dec 2

1. The Brown Norway (B/N) Katholiek rat is a mutant strain of plasma kininogen deficiency. The plasma of B/N-Katholiek rats was shown to contain only 3-5% of high-molecular-weight and low-molecular-weight kininogens (HK and LK) of the normal level by specific RIA, and 30% of prekallikrein was detected by amidase activity. However, HK antigen in the liver microsomal fraction of B/N-Katholiek rats was about 60% of that of normal rats. 2. In this paper we compare and discuss synthesis and secretion of HK and LK by primary cultures of livers of deficient and normal rats. The deficient hepatocytes could synthesize HK and LK in the same way as normal cells but could not secrete mature forms of HK and LK in the medium. Examination of the subcellular localization of the mutant HK in the hepatocytes showed that a larger amount of mutant HK antigen, compared to normal rats, was found in the 10,000 g fraction, which is rich in lysosomes, suggesting that the mutant HK may be transported to the lysosomes. 3. We also analyzed sequence of the HK cDNA of B/N-Katholiek and B/N-Kitasato rats and found a point mutation of G to A at nucleotide 487, which locates at the heavy chain region of HK and LK. 4. We constructed five expression plasmids to transfect COS-1 cells to examine HK secretion. COS-1 cells transfected with the plasmids containing the G to A transition could not secrete and retained HK, while those cells transfected with the plasmids containing normal G released HK into the medium. 5. These results indicate that a point mutation G to A at nucleotide 487, resulting in an amino acid transition from alanine (163) to threonine, is responsible for the defective secretion of HK and LK by the liver of B/N-Katholiek rats. We also discuss other cases of secretion defect of plasma proteins reported in the literature.
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PMID:Molecular mechanism of kininogen deficiency in brown Norway Katholiek rats. 774 70

We isolated an enzyme from a major periodontal pathogen, Porphyromonas gingivalis (also called Bacteroides gingivalis), that is capable of initially increasing the coagulant activity of high molecular weight kininogen (HK), releasing bradykinin from HK and low molecular weight kininogen (LK), and destroying the light chain (coagulant portion) of HK. This enzyme, a membrane-bound thiol proteinase that preferentially cleaves the P1-Lys position of tripeptide substrates, is also able to rapidly render fibrinogen nonclottable. We will refer to this enzyme as lys-gingivain because of its origin from P. gingivalis, its classification as a thiol proteinase, and its action as a lysyl-amidase. The activity of lys-gingivain is enhanced by beta-mercaptoethanol, and the enzyme has a molecular mass of 68-70 kDa, a pH optimum of 7.4, and is not inactivated by plasma protease inhibitors. The second-order rate constant for the destruction of the coagulant activity of the HK light chain (surface-binding domain) at 23 degrees C is 2.3 x 10(7) M-1 s-1, and, for cleavages that render fibrinogen unclottable, is 2.05 x 10(6) M-1 s-1. These data suggest that lys-gingivain is a very potent proteinase that would be fully functional in anaerobic periodontal crevices and might participate in the pathogenesis of periodontitis. Lys-gingivain appears to be the most potent kininogenase and fibrase to be described to date.
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PMID:Purification and characterization of a potent 70-kDa thiol lysyl-proteinase (Lys-gingivain) from Porphyromonas gingivalis that cleaves kininogens and fibrinogen. 838 28

We studied some of the components of the kininogen-kallikrein-kinin system, simultaneously, in plasma and synovial effusions of patients with inflammatory articular diseases. Plasma and tissue kallikrein like activity and kininogen levels were evaluated. Active plasma and tissue kallikreins in plasma and synovial fluid were detected by their amidase activity upon specific chromogenic substrates. Kininogen levels were determined by a bioassay. Both specific amidase activity of plasma and tissue kallikreins were augmented in synovial effusions in relation to their own plasma activity. Kininogen levels in synovial fluid tended to be diminished in relation to plasma, however statistical significance was not reached. The consumption of kininogen is probably related to kinin production. This finding together with increased activities of plasma and tissue kallikreins reinforce the involvement of kinins in pathogenesis of inflammatory articular diseases.
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PMID:Augmented plasma and tissue kallikrein like activity in synovial fluid of patients with inflammatory articular diseases. 874 Oct 10

Paecilomyces carneus carboxypeptidase sequentially liberated amino acids from the carboxy-terminus of neurotensin, angiotensin I, bradykinin, and delta sleep-inducing peptide, indicating that the sequential hydrolysis of peptides was limited by the occurrence of intermediates with the structure of -Gly-X (X = L-amino acid), -Pro-X, -X-Gly, and -X-Pro. The enzyme had carboxyamidase and/or amidase activities for the carboxy-terminally amidated peptides. The enzyme essentially acted as a carboxyamidase for the long carboxy-terminally amidated peptides; an amidase became dominant for the substrates in the presence of bulky amino acids such as Arg, Met, Leu, and Phe in the penultimate (P1) and P2 positions, corresponding with the S1 and S2 sites of the enzyme, and the P3 position of carboxy-terminally amidated peptides played a significant role in the action as a carboxyamidase or a amidase.
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PMID:Action of serine carboxypeptidase from paecilomyces carneus on oligopeptides containing carboxy-terminally amidated peptides 940 45

Two venom proteases with fibrinogenolytic activity were isolated from the venom of Taiwan habu (Trimeresurus mucrosquamatus), one major crotalid snake species in Taiwan. The purified enzymes showed a strong beta-fibrinogenolytic activity, cleaving the beta-chain of fibrinogen molecules specifically. They also showed strong kallikrein-like activity in vitro, releasing bradykinin from kininogen. The purified enzymes did not coagulate human plasma, yet decreasing fibrinogen levels in plasma and prolonging bleeding without formation of fibrin clots, indicating that both proteases have specificities different from thrombin and the thrombin-like proteases of snake venom reported previously. They also exhibit amidase activity against N-benzoyl-Pro-Phe-Arg-p-nitroanilide, which is a specific synthetic substrate for kallikrein-like proteases. Their stability at high temperatures was examined and found to be more stable when compared with ancrod and thrombin. Intravenous injection of either protease was shown to lower blood pressure in experimental rats. Most noteworthy is the observation that the proteases can cleave angiotensin I and release bradykinin from plasma kininogen in vitro, which is a strong vasodilator and probably responsible for the in vivo hypotensive effect of these venom proteases.
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PMID:Fibrinogenolytic proteases isolated from the snake venom of Taiwan habu: serine proteases with kallikrein-like and angiotensin-degrading activities. 1123 64

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