EC:3.4.21.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this paper we report a method via which enzymatically active products formed during prothrombin activation can be detected by simple photographic means after SDS-gel electrophoresis, blotting onto a nitrocellulose membrane and visualization with the chromogenic substrate, S2238. After amidolytic detection the same nitrocellulose membrane can also be used for immunologic detection of prothrombin activation products, thus allowing a complete description of product formation during prothrombin activation. The detection limit of the so-called "amidoblot" is approximately 3 ng thrombin per gel sample which is comparable to the sensitivity of immunoblotting. It is further shown that the amidoblot technique can also be applied to other coagulation factors for which a suitable chromogenic substrate is available (factor XIIa, kallikrein, factor XIa, factor Xa, plasmin and activated protein C).
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PMID:Amidolytic detection of prothrombin activation products after SDS-gel electrophoresis. 279 53

We have isolated three cDNA clones for human alpha 2-plasmin inhibitor (alpha 2-PI). Two clones are from human hepatoma cell line, Hep G2, and cover the entire protein coding region plus the 3'-flanking region up to the poly(A) sequence, and the other clone is from human liver and contains the carboxyl-terminal half. The total length of the cDNAs is 2.29 kb, corresponding to more than 95% of the full-length mRNA. alpha 2-PI seems to consist of 452 amino acid residues plus 39 amino acid residues for the signal peptide. The amino acid sequence shows 23 to 28% homology to those of five other protease inhibitors, plasminogen activator inhibitor (PAI), protein C inhibitor (PCI), alpha 1-antitrypsin (alpha 1-AT), antithrombin III (AT III), and alpha 1-antichymotrypsin (alpha 1-AC). alpha 2-PI seems to be the most distantly related among these inhibitors. Comparison of the phylogenetic trees of proteases and their inhibitors indicates that four proteases, namely elastase (or trypsin), chymotrypsin, plasminogen activator, and thrombin, may have evolved concurrently with the corresponding inhibitors. However, alpha 2-PI and PCI seem to have evolved asynchronously from their substrates. The data suggest that alpha 2-PI may originally have inhibited some protease other than plasmin, and protein C may have had an inhibitor different from the present one early in its evolutionary history.
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PMID:Structure of human alpha 2-plasmin inhibitor deduced from the cDNA sequence. 283 Feb 48

The inactivation of Factor Va by plasmin was studied in the presence and absence of phospholipid vesicles and calcium ions. The cleavage patterns of bovine Factor Va and its isolated subunits were analyzed using polyacrylamide gel electrophoresis, and the progress of inactivation was monitored by clotting assays and measurements of prothrombin activation using 5-dimethylaminonaphthalene-1-sulfonylarginine-N-(3-ethyl-1,5-penta nediyl)amide. In addition, the ability of prothrombin and Factor Xa to protect Factor Va from inactivation by human plasmin was examined. The data presented indicate that the cofactor Factor Va is inactivated rapidly upon its interaction with human plasmin. The rate of inactivation is significantly enhanced in the presence of phospholipid vesicles, suggesting that the inactivation process is a membrane-bound phenomenon. The isolated D component (heavy chain of factor Va) was found to be slowly degraded by human plasmin, giving rise to cleavage products different from those obtained with activated protein C and Factor Xa. However, the 48- and 30-kDa fragments obtained from human plasmin degradation of component E (light chain of Factor Va) appear to be similar to those obtained following the proteolysis of the same subunit by activated protein C and Factor Xa.
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PMID:Inactivation of factor Va by plasmin. 295 62

The inhibiting action in vitro of urinastatin on blood coagulation was studied for the purpose of therapeutic application against thrombotic disorders, and the following results were obtained: 1) Partial thromboplastin time of normal human plasma was prolonged dose-dependently by the addition of urinastatin to the reaction mixture, but prothrombin time was little inhibited by the addition of urinastatin. Thrombin time was also prolonged with urinastatin dose-dependently. 2) Using chromogenic synthetic peptide substrates, the amydolytic activities of XIIa, plasma kallikrein and Xa activated with RVV were inhibited by the addition of urinastatin to the reaction mixtures. 3) Activated partial thromboplastin time of normal plasma was prolonged by the addition of urinastatin or heparin, and simultaneous application of both urinastatin and heparin to the reaction mixture resulted in an additional inhibitory effect on APTT. Therefore, it was assumed that the different molecular structures of the clotting factors were concerned with the inhibitory actions of urinastatin and antithrombin III. Furthermore, urinastatin was indicated to have an important role in antithrombotic remedy, since it has no inhibitory action against protein C. 4) In the comparison with purified human plasmin and plasma plasmin activated with streptokinase, the strong inhibitory action of urinastatin on purified plasmin was demonstrated, but the inhibitory action of urinastatin was decreased markedly in plasma. Therefore, it is suggested that plasma may contain an inhibitory factor against the action of urinastatin.
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PMID:[In vitro observations on antithrombotic action of urinastatin]. 296 16

The addition of thrombin (9 nM) to primary cultures of human endothelial cells induces a 6- to 7-fold increase in the rate of release of tissue plasminogen activator (tPA). Several other serine proteases which specifically interact with endothelial cells were also analyzed for their effect on tPA release. Gamma-thrombin, an autocatalytic product of alpha-thrombin, promoted tPA release but was less effective than alpha-thrombin. A maximum increase of 5.5-fold was observed, although a concentration of gamma-thrombin 20 times greater than alpha-thrombin was required. The response to Factor Xa was similar to alpha-thrombin, although the stimulation was significantly reduced by the addition of hirudin or DAPA suggesting that prothrombin activation was occurring. The simultaneous addition of prothrombin with Factor Xa resulted in enhanced tPA release equal to that observed with an equimolar concentration of active alpha-thrombin. Thus, under these conditions, Factor Xa-cell surface mediated activation of prothrombin can lead to a secondary effect resulting from cell-thrombin interaction. Activated protein C, which has been implicated as a profibrinolytic agent, was also tested. No change in tPA release occurred after the addition of up to 325 nM activated protein C in the presence or absence of proteins. Factor IXa and plasmin were also ineffective. The effect of thrombin on the endothelial cell derived plasminogen activator specific inhibitor was also studied. Thrombin produced a small but variable release of the inhibitor with an increase of less than twice that of non-thrombin treated controls.
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PMID:Specificity of the thrombin-induced release of tissue plasminogen activator from cultured human endothelial cells. 310 Dec 18

A low molecular weight protein protease inhibitor was purified from Japanese horseshoe crab (Tachypleus tridentatus) hemocytes. It consisted of a single polypeptide with a total of 61 amino acid residues. This protease inhibitor inhibited stoichiometrically the amidase activity of trypsin (Ki = 4.60 X 10(-10) M), and also had inhibitory effects on alpha-chymotrypsin (Ki = 5.54 X 10(-9) M), elastase (Ki = 7.20 X 10(-8) M), plasmin, and plasma kallikrein. However, it had no effect on T. tridentatus clotting enzyme and factor C, mammalian blood coagulation factors (activated protein C, factor Xa and alpha-thrombin), papain, and thermolysin. The complete amino acid sequence of this inhibitor was determined and its sequence was compared with those of bovine pancreatic trypsin inhibitor (BPTI) and other Kunitz-type inhibitors. It was found that the amino acid sequence of this inhibitor has a high homology of 47 and 43% with those of sea anemone inhibitor 5-II and BPTI, respectively. Thus, this protease inhibitor appeared to be one of the typical Kunitz-type protease inhibitors.
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PMID:Purification and amino acid sequence of Kunitz-type protease inhibitor found in the hemocytes of horseshoe crab (Tachypleus tridentatus). 330 64

An inherited association of dysfibrinogenaemia and protein C deficiency was found in three members of the same family. The propositus was a 48-year-old man who suffered from severe and rapidly complicated atherosclerosis of the aorta and lower limbs arteries, which perhaps suggests that the association of these two molecular abnormalities may have enhanced the thrombotic process. The abnormal fibrinogen had a reduced ability to bind thrombin which may be thrombogenic. We found the same inherited association of dysfibrinogenaemia and protein C deficiency in a patient with venous thrombosis. The functional abnormality of the fibrinogen, which could have been responsible for thrombosis, was delayed proteolysis by plasmin. Not only fibrinogen, but also fibrin clots were resistant to plasmic degradation. These observations raise two questions: (1) Is the association of a protein C deficiency with a dysfibrinogenaemia fortuitous or the result of a common mechanism? (2) Is there a link between an increased thrombotic tendency and either both of the defects of haemostasis that we have found, or only one of them?
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PMID:Association of inherited dysfibrinogenaemia and protein C deficiency in two unrelated families. 335 91

The important role of protein C (PC) in the regulation of hemostasis has been appreciated since the description of patients who were deficient in PC and presented with severe thromboembolic events. The potentially fatal complications associated with PC-deficiency require an early and reliable identification of those patients affected with this inherited disorder. The present study introduces a test procedure for the functional assessment of PC in plasma samples. The test utilizes the thrombin/thrombomodulin complex to achieve complete and rapid formation of activated PC whose proteolytic capacity is subsequently determined with a chromogenic substrate. Homogenate obtained from rabbit lung effectively substituted the purified component thrombomodulin in the assay system. This new approach simplifies the test procedure without losing specificity and accuracy. Proteases, such as plasmin, streptokinase and urokinase did not influence the assay and the inhibitory effect of heparin on the PC-activation could easily be overcome by the addition of protamine sulphate. The PC-activity in a group of unselected patients (n = 50), who did not reveal any abnormalities in global coagulation tests, amounted to 100 +/- 12% (mean +/- SD) with a range from 54 to 143% when analyzed in comparison to a plasma pool constituted from healthy volunteers. Since the synthesis of PC depends on the availability of vitamin K, patients receiving phenprocoumon have also been analyzed. These patients (n = 103) presented 40 +/- 11% residual PC-activity accompanied by a concomitant decrease in PC-antigen levels to 43 +/- 10% (mean +/- SD). The test described is specific, sensitive, less time-consuming and can be performed on a routine basis.
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PMID:A simplified functional assay for protein C in plasma samples. 351 73

Numerous investigators have postulated that a hypercoagulable state exists in humans for a period of time before the development of thrombotic episodes. A clear biochemical definition of the prethrombotic state, however, has proved elusive due in part to the lack of reliable techniques for monitoring pertinent changes in blood coagulability. Based on recent advances in our knowledge of the biochemistry of the coagulation system, a series of highly sensitive and specific immunochemical tools has been developed that can quantitate the activities of various steps of the hemostatic mechanism in vivo at the subnanomolar level. We have established assays for F1+2 and the protein C activation peptide, which measure the cleavage of the prothrombin molecule by factor Xa and the scission of protein C by the thrombin-thrombomodulin complex, respectively. Nossel and coworkers had previously constructed similar assays for fibrinopeptide A (FPA) and fragment B beta 1-42, which monitor the cleavage of fibrinogen by thrombin and the proteolysis of fibrin I by plasmin, respectively. Substantial elevations in the levels of these markers have been found in patients with disseminated intravascular coagulation and many subjects with acute deep venous thrombosis. The F1+2 and FPA assays have been used to demonstrate that significant increments in factor Xa activity but not thrombin activity regularly occur in the blood of nonanticoagulated individuals with congenital deficiencies of antithrombin or protein C. These two disorders are known to be correlated with the subsequent development of thrombosis. Patients with protein C deficiency have also been noted to have significantly reduced plasma levels of protein C activation peptide. By using the immunoassays for FPA and B beta 1-42 in studies of postoperative patients, it has been shown that an imbalance between the procoagulant action of thrombin and the anticoagulant effect of plasmin on fibrin I polymer may induce an acquired thrombotic diathesis. Finally, we have recently demonstrated that prothrombin activation as measured by the F1+2 assay is suppressed by oral anticoagulants in the blood of patients with thrombotic diatheses. These investigations suggest that these assay techniques can be used to improve our understanding of the hypercoagulable state as well as to develop more effective treatment strategies for the prevention of thromboembolic events.
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PMID:The pathophysiology of the prethrombotic state in humans: insights gained from studies using markers of hemostatic system activation. 360 75

125I-labeled heparin cofactor II (HCII) was mixed with plasma and coagulation was initiated by addition of CaCl2, phospholipids, and kaolin or tissue factor. In the presence of 67 micrograms/ml of dermatan sulfate, radioactivity was detected in a band which corresponded to the thrombin-HCII complex (Mr = 96,000) upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. No other complexes were observed. The thrombin-HCII complex was undetectable when 5 units/ml of heparin was present or when prothrombin-deficient plasma was used. In experiments with purified proteases, HCII did not significantly inhibit coagulation factors VIIa, IXa, Xa, XIa, XIIa, kallikrein, activated protein C, plasmin, urokinase, tissue plasminogen activator, leukocyte elastase, the gamma-subunit of nerve growth factor, and the epidermal growth factor-binding protein. HCII inhibited leukocyte cathepsin G slowly, with a rate constant of 8 X 10(4) M-1 min-1 in the presence of dermatan sulfate. These results indicate that the protease specificity of HCII is more restricted than that of other plasma protease inhibitors and suggest that the anticoagulant effect of dermatan sulfate is due solely to inhibition of thrombin by HCII.
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PMID:The protease specificity of heparin cofactor II. Inhibition of thrombin generated during coagulation. 383 15

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