Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In view of current interest in the possibility of rapid, high-dose administration of thrombolytic agents by the intravenous route in patients with coronary thrombosis (AMI), a study of this technique was carried out in the dog. Streptokinase-(human) plasmin activator complex (SK-Pm) and BRL 26921 (p-anisoylated streptokinase-(human) plasminogen activator complex) were each given at equivalent doses (28,500 IU/kg and 800 micrograms/kg respectively) to groups of beagle dogs by rapid injection over 10 sec and their effects on blood pressure, plasmin formation and kallikrein production were compared over the next 3h. SK-Pm produced, within 1-3 min, a pronounced hypotensive effect that was kinetically related to a rapid and steep rise in systemic plasmin and kallikrein concentrations. BRL 26921 had no hypotensive effect, the rise in plasmin production was slower and the rate and extent of kallikrein formation was significantly less than in the SK-Pm group.
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PMID:Comparison of the hypotensive effects of streptokinase-(human) plasmin activator complex and BRL 26921 (p-anisoylated streptokinase-plasminogen activator complex) in the dog after high dose, bolus administration. 639 Jul 76

Most reports in the literature state that human plasma kallikrein does not destroy the capacity of human high molecular weight kininogen (HMrK) to function as a cofactor in the contact phase activation of factor XII. In the present work preparations of highly purified human plasma kallikrein that showed high plasminogen activator (PGA) activities rapidly reduced the cofactor function of human HMrK. Gel electrophoresis with SDS without reduction showed that all kallikrein preparations tested contained two protein bands, one major band with a Mr of about 83,000, and one weak band with a Mr of 80,000. The main band is probably identical with kallikrein I, which Levison & Tomalin (1982b), using Ac-Pro-Phe-Arg-OMe-HCl as substrate, found to be ten times more active (in terms of kcat/Km) than kallikrein II with Mr 3000 daltons lower. The rate of HMrK destruction in our experiments varied with the kallikrein preparation used, but assays of their hydrolytic activities against benzoyl arginine ethylester (BAEe) or the plasma kallikrein selective tripeptide substrate H-D-Pro-Phe-Arg-pNA (S-2302) did not discriminate between enzyme preparations with different HMrK-destroying capacities. Assay of PGA activities demonstrated a correlation between the level of PGA measured, and the HMrK-destroying capacity.
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PMID:Reduced cofactor function of human high molecular weight kininogen induced by human plasma kallikrein. 643 52

We report the isolation of a specific protease zymogen from chicken plasma. The purification procedure involves barium citrate precipitation, ammonium sulfate fractionation, removal of plasminogen and plasmin on lysine-Sepharose, followed by anion and cation exchange, and gel permeation chromatography. Based on quantitative radioimmunoassay the zymogen is present in plasma at a concentration of 160 mg/liter, and it is obtained by our procedure in highly purified form with a yield of 1.4%. The single polypeptide chain contains an NH2-terminal alanine residue. The native molecule migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular weight of 84,000 under reducing conditions. It can be identified as an inactive proenzyme because it has very low amidolytic activity, does not react with the fluorescent active site titrant 4-methyl-lumbelliferyl p-guanidinobenzoate, and does not incorporate radioactive [3H]diisopropylfluorophosphate. It is very susceptible to limited proteolysis which converts it to an active enzyme with trypsin-like specificity. The active enzyme, likewise a single polypeptide chain, migrates as a doublet with apparent molecular weights of 39,000 and 40,000. Its amidolytic activity with synthetic peptide substrates is at least 40-fold higher than that of the proenzyme, it reacts efficiently with 4-methylumbelliferyl p-guanidinobenzoate, and incorporates [3H]diisopropylfluorophosphate while undergoing irreversible inactivation. The enzyme appears to be a reasonably efficient plasminogen activator in zymographic gels, but not in solution. With human high molecular weight kininogen as substrate the enzyme was about 25% as efficient as human plasma kallikrein. It lacks any plasminogen-independent proteolytic activity with other protein substrates, and it hydrolyzes small peptide substrates designed for both human kallikrein and urinary urokinase, respectively. Inhibition studies with peptide chloromethyl ketones indicate enzymatic properties closer to human plasma kallikrein than to the human plasminogen activator urokinase (EC 3.4.21.31). The chicken plasma enzyme and the plasminogen activator from the conditioned media of Rous sarcoma virus-transformed chick embryo fibroblasts treated with tumor promoter are different by criteria of tryptic peptide maps, and amino acid composition and enzymatic specificity. The designations chicken plasma prekallikrein plasminogen proactivator and chicken plasma kallikrein plasminogen activator are proposed for the zymogen and enzyme forms, respectively. Using rabbit antibodies against the proenzyme we developed a solid phase immunoadsorption procedure that allowed us to isolate the protein with an overall yield of 11.4%.
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PMID:A proenzyme from chicken plasma similar to human plasma prekallikrein. 655 13

Rat urinary esterase A, a plasminogen activator with kininogenase activity, was recently purified and characterized (J. Chao (1983) J. Biol. Chem. 258, 4434-4439). A sensitive radioimmunoassay for esterase A has been developed. This assay uses a rabbit antiserum in a final dilution of 1:160 000 and the purified enzyme was labelled with 125I using a lactoperoxidase method. It detects 80 pg of immunoreactive material per tube. This antiserum has some cross-reactivity with rat urinary kallikrein (approximately 5%) but a previously characterized tissue kallikrein antiserum has negligible cross-reactivity with the urinary esterase A in the assays. Therefore, kallikrein levels are measured simultaneously in all samples to obtain accurate levels of immunoreactive esterase A. Dilutions of urine or tissue homogenates showed complete parallelism with esterase A standard curves. No cross-reactivity with dog, human or monkey urine was seen. The recovery of esterase A from rat urine was 99.7 +/- 3.5%. Intra- and between-assay errors were 6.5 and 11.2%, respectively. Immunoreactive esterase A was measured and compared with kallikrein levels in rat urine, kidney, pancreas, submandibular gland, descending colon and ileum. The urinary esterase A excretion rate was reduced significantly in rats on a high sodium, compared with a low sodium diet, but not significantly increased above control by the latter. Nonetheless, a significant correlation between urinary kallikrein and esterase A excretion rate was present. This radioimmunoassay can now be used to measure esterase A levels in urine and tissue as questions have arisen about its regulation and functional significance.
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PMID:Measurement of the rat urinary plasminogen activator (esterase A) by direct radioimmunoassay in urine and tissue. 656 99

A plasminogen activator, previously designated as rat urinary esterase A (Nustad, K., and Pierce, J. V. (1974) Biochemistry 13, 2312-2319), was separated from kallikrein of rat urine and purified to homogeneity. In polyacrylamide slab gel electrophoresis, the purified enzyme showed three closely migrating protein bands which were labeled with [14C]diisopropylphosphorofluoridate and stained on a zymogram using the chromogenic substrate methionine-alpha-naphthyl ester. Two chains, heavy chain(s) (Mr approximately 15,800, 14,200) and light chain(s) (Mr approximately 8,850, 8,550), were separated in SDS-polyacrylamide gel under reducing conditions, while two bands (Mr approximately 24,500 and 23,000) were seen under nonreducing conditions. The active site of the enzyme was associated with the heavy chain. The purified enzyme was stained for carbohydrate by the periodic acid-Schiff reagent. Five bands were distinguished in slab gel electrofocusing with isoelectric points ranging from 5.05 to 5.45. The purified enzyme lysed fibrin clots containing plasminogen but not plasminogen-free fibrin. It hydrolyzed benzyloxylcarbonyl-Gly-Gly-Arg-amino-4-trifluoromethyl coumarin, and a Km of 53 microM and a Vmax of 63 mumol/min/mg of enzyme were obtained at pH 8.0 and 37 degrees C. The enzyme cleaved kininogen substrates to produce kinin which was measured by bioassay or radioimmunoassay. The enzyme was inhibited by soybean or lima bean trypsin inhibitor, aprotinin, alpha 1-antitrypsin, phenylmethanesulfonyl fluoride, D-Phe-Phe-ArgCH2Cl, antipain, leupeptin, benzamidine, and pentamidine. Its pH optimum was 8.5 to 9.0; it was unstable on dilution and on heating. On immunoelectrophoresis, an antiserum to the esterase formed precipitin arcs with rat plasma and this enzyme at identical positions, which in turn were different from those formed with kallikrein. This urinary enzyme belongs to the family of serine proteinases and is immunologically related to urinary kallikrein.
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PMID:Purification and characterization of rat urinary esterase A, a plasminogen activator. 668 2

By incubation of human citrated plasma with acetone 25% v/v kallikrein inhibitors were destroyed and prekallikrein activated to kallikrein. When the incubation was carried out in the presence of benzamidine 7 mM, the cofactor capacity of high molecular weight kininogen (HMrK) was protected against destruction by a serine protease which was not plasma kallikrein. By analogy with studies in rat plasma this protease might be a plasminogen activator (Berstad & Briseid 1982; Johansen & Briseid 1983). Factor XII in the plasma preparation was activated to unfragmented factor XIIa by adsorption to kaolin, and assayed as prekallikrein activator (PKA). The extent of activation of factor XII was only insignificantly influenced by the 1 + 1 (v/v) dilution of the plasma preparation with a suspension of kaolin. When, however, the preparation was diluted greater than 1 + 5 (v/v) before incubation with the suspension, a stoichiometric HMrK concentration-effect curve could be established, allowing the assay of cofactor-active HMrK. Assays of HMrK in plasma preparations from healthy men and women demonstrated an average lower level of cofactor-active HMrK in the preparations from women. It is suggested that benzamidine is not capable of providing a complete protection of HMrK during the procedure in all plasma samples.
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PMID:Activation of factor XII in human plasma: protection by benzamidine of the cofactor function of high molecular weight kininogen. 668 67

In a previous study we have shown that monoclonal antibody F1 (MoAb F1), directed against an epitope on the heavy chain of factor XII distinct from the binding site for anionic surfaces, is able to activate factor XII in plasma (Nuijens JH, et al: J Biol Chem 264; 12941, 1989). Here, we studied in detail the mechanism underlying the activation of factor XII by MoAb F1 using purified proteins. Formation of factor XIIa was assessed by measuring its amidolytic activity towards the chromogenic substrate H-D-Pro-Phe-Arg-pNA (S-2302) in the presence of soybean trypsin inhibitor and by assessing cleavage on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Upon incubation with MoAb F1 alone, factor XII was auto-activated in a time-dependent fashion, activation being maximal after 30 hours. Factor XII incubated in the absence of MoAb F1 was hardly activated by kallikrein, whereas in the presence of MoAb F1, but not in that of a control MoAb, the rate of factor XII activation by kallikrein was promoted at least 60-fold. Maximal activation of factor XII with kallikrein in the presence of MoAb F1 was reached within 1 hour. This effect of kallikrein on the cleavage of factor XII bound to MoAb F1 was specific because the fibrinolytic enzymes plasmin, urokinase, and tissue-type plasminogen activator could not substitute for kallikrein. Also, trypsin could easily activate factor XII, but in contrast to kallikrein, this activation was independent of MoAb F1. SDS-PAGE analysis showed that the appearance of amidolytic activity correlated well with cleavage of factor XII. MoAb F1-induced activation of factor XII in this purified system was not dependent on the presence of high-molecular-weight kininogen (HK), in contrast to the activation of the contact system in plasma by MoAb F1. Experiments with deletion mutants revealed that the epitopic region for MoAb F1 on factor XII is located on the kringle domain. Thus, this study shows that binding of ligands to the kringle domain, which does not contribute to the proposed binding site for negatively charged surfaces, may induce activation of factor XII. Therefore, these findings point to the existence of multiple mechanisms of activation of factor XII.
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PMID:Monoclonal antibody F1 binds to the kringle domain of factor XII and induces enhanced susceptibility for cleavage by kallikrein. 749 70

Intra- and postoperative blood loss during open heart surgery is reduced by approximately 50% when aprotinin, a potent inhibitor for plasmin and kallikrein, is administered during surgery. But whether aprotinin increases the risk of thrombotic complications remains controversial. The aim of this study was to evaluate the effects of aprotinin administration on coagulation and fibrinolysis during and after cardiopulmonary bypass (CPB). Thirty patients undergoing CPB were randomly assigned to two comparable groups for a double-blind study (16 patients receiving high-dose aprotinin, 14 patients receiving placebo). Patients' plasma levels of ATM (thrombin-induced modified antithrombin III), FbDP (fibrin degradation products, D-Dimers), t-PA (tissue-type plasminogen activator) and PAI-1 (plasminogen activator inhibitor type 1) were measured at regular intervals. In both groups, ATM level increased during surgery (from less than 30 to 90-110 ng/ml) and returned to normal 24 h after surgery and remained unchanged thereafter. Aprotinin reduced this increase in ATM levels (p = 0.02 at 30 min after the start of CPB). The FbDP generated during surgery was greatly reduced in the aprotinin group (945 ng/ml) in comparison with the placebo group (1889 ng/ml, p = 0.004). After surgery, FbDP levels decreased in both groups with nadirs at 2nd day (placebo group: 940 ng/ml and aprotinin group: 865 ng/ml) indicating a hypofibrinolytic period. Then, the FbDP level in both groups started to increase up to the 9th day, in an identical manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postoperative hemostasis and fibrinolysis in patients undergoing cardiopulmonary bypass with or without aprotinin therapy. 753 77

The plasminogen activator (PA)-plasmin system is implicated in the degradation of the extracellular matrix in inflammation through activation of metalloproteases and prekallikrein. We examined the activation of the PA-plasmin system in human gingival fibroblast cells (Gin-1 cells) following treatment with lipopolysaccharide (LPS) from Campylobacter rectus, which is frequently detected at sites of periodontal disease. The C. rectus LPS stimulated the plasmin activity in the conditioned medium of Gin-1 cells in a time- and dose-dependent manner, and C. rectus LPS also stimulated the PA activity in the conditioned medium. The PA produced by Gin-1 cells was determined to be urokinase PA (uPA), as preincubation of Gin-1 conditioned medium with anti-uPA antiserum completely inhibited the PA activity while that with anti-tPA antiserum had no inhibitory effect. The concentration of PA inhibitor-1 (PAI-1) in the conditioned medium was decreased by the addition of C. rectus LPS. Therefore, the enhancement of plasmin activity in the conditioned medium was dependent on increased uPA activity via the decrease of the PAI-1 level of Gin-1 cells treated with C. rectus LPS. Furthermore, the conditioned medium of Gin-1 cells treated with C. rectus LPS showed significantly increased kallikrein activity, indicating the conversion of prekallikrein to kallikrein, which converts kininogen into kinin. These findings suggest that C. rectus LPS is a potent stimulator of inflammation of gingival tissue which acts through stimulation of the PA-plasmin system.
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PMID:Effect of Campylobacter rectus LPS on plasminogen activator-plasmin system in human gingival fibroblast cells. 777 54

We studied the activation pattern of clotting, fibrinolysis, and kinin-kallikrein during the first 5 d of life in 10 preterm infants with signs of severe idiopathic respiratory distress syndrome (IRDS) after birth (IRDS group) and in 12 healthy preterm infants (reference group). We found systemic activation of clotting, fibrinolysis, and kinin-kallikrein in the IRDS infants within 12 to 24 h of birth, represented by increased median thrombin-antithrombin III complex formation (90 ng/mL versus 10 ng/mL in the reference group, p < 0.05), increased mean tissue-type plasminogen activator plasma concentrations (11.8 ng/mL versus 3.5 ng/mL in the reference group, p < 0.05), and increased mean plasma kallikrein activity (182.6% versus 162.0% of maximal activated human plasma in the reference group, p < 0.05), respectively. Clotting activation was accompanied by a significant decrease of the platelet count. Clotting and fibrinolytic activity decreased in the IRDS group during the first 2 to 3 d of life. Kinin-kallikrein activation was accompanied by decreased plasma kallikrein inhibitor activity values and did not change throughout the study period. Plasma factor XII activity was not significantly increased in the IRDS infants during the first 2 d of life but did significantly increase thereafter. The cause of simultaneous activation of clotting, fibrinolysis, and kinin-kallikrein in our IRDS infants has not yet been clarified. However, this activation process may contribute to lung injury such as that described in the adult respiratory distress syndrome.
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PMID:Activation of the plasma clotting, fibrinolytic, and kinin-kallikrein system in preterm infants with severe idiopathic respiratory distress syndrome. 787 86


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