EC:3.4.21.68 - FACTA Search

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Query: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We observed the changes of molecular markers for hemostatic activation in a patient with acute pulmonary embolism treated with 2 x 10(7) unit tissue plasminogen activator (t-PA). Blood samples were obtained before, just after, at 30 min, 1, 2, 6, and 24 hours after the infusion. Molecular markers included thrombin-antithrombin III complex (TAT), plasminogen-alpha 2 plasmin inhibitor complex (PIC), and thrombomodulin (TM). Marked elevation of TAT was observed from immediately after the t-PA infusion to 6 hours after, although it had been observed for only 1 hour in our previous report on the cases of acute myocardial infarction. PIC level was significantly increased during t-PA infusion but returned to almost baseline value 6 hours after the end of t-PA infusion. This finding was almost the same as the one previously reported concerning acute myocardial infarction cases. TM level increased throughout the evaluation, and remained so, even on the 7th day after t-PA infusion. Our present data revealed a clear difference between the reactive TAT increases after t-PA therapy in acute myocardial infarction cases and in acute pulmonary embolism cases. Our present data also revealed a prolonged elevation of TM during the acute period of pulmonary embolism. It is therefore necessary to keep an eye on the changes of molecular markers for hemostatic activation after t-PA therapy in acute pulmonary embolism.
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PMID:[The changes in molecular markers for hemostatic activation after t-PA therapy in case of pulmonary embolism]. 131 73

Procoagulant, anticoagulant, and fibrinolytic activities are associated with endothelial cells and involve the production, secretion, and receptor mediated binding of proteins involved in these processes. The procoagulant aspect of endothelial cells function involves the production and release of von Willebrand Factor(vWF), the production of tissue factor, and the presence of Factor IX/IXa receptors on the cell surface. Secretion of vWf will promote the initial steps in thrombus formation by supporting platelet-platelet interaction and platelet-subendothelial matrix adhesion. Tissue factor which is undetectable in resting cells appears after exposure to various cytokines and initiates factor VIIa activation of factors IX and X. Receptors of Factor IX/IXa are also present and mediate the assembly of the prothrombinase complex on the endothelial cell surface. The anticoagulant pathway involves the cell surface protein thrombomodulin, protein C and its cofactor protein S. Thrombomodulin binds thrombin which activates protein C which in the presence of protein S cleaves and inactivates Factors V and VIII. Inactivation of these two coagulation cofactors halts the coagulation. Finally, endothelial cells also play a pivotal role in the fibrinolytic system. Production and regulated secretion of tissue plasminogen activator creates a profibrinolytic state in the endothelial cell environment. In addition, receptors for plasminogen and urokinase are also present, constituting a cell surface mediated fibrinolytic pathway. Plasminogen activator inhibitor type I, the primary inhibitor of tPA, is also produced by endothelial cells. Thus endothelial cells can promote and inhibit fibrinolysis, depending on the prevailing environmental conditions.
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PMID:[Endothelial cells and vascular hemostasis]. 131 12

Circulating thrombomodulin is a novel endothelial cell marker, which may reflect the endothelial injury. Plasma levels of thrombomodulin were quantitated by an enzyme-linked immunosorbent assay (ELISA) in patients with hematological malignancies, liver disease, diabetes mellitus, collagen disease, thrombotic disease, and disseminated intravascular coagulation (DIC), and the thrombomodulin values were compared with those of von Willebrand factor antigen (vWf:Ag) and tissue-type plasminogen activator (t-PA) which are released from stimulated or damaged endothelial cells. The mean plasma concentrations of thrombomodulin in these disease states were elevated as compared with healthy subjects. A relatively high mean thrombomodulin level was observed in DIC, liver disease, and collagen disease. Abnormally high thrombomodulin values (greater than normal mean value + 3 SD) were found in 32.3% of patients with hematological malignancies, 57.7% of patients with liver disease, 39.3% of patients with diabetes mellitus, 30.0% of patients with collagen disease, 23.1% of patients with thrombotic disease, and 69.0% of patients with DIC. Plasma concentrations of both vWf:Ag and t-PA were also elevated in these patients. On the whole, the plasma thrombomodulin concentration was positively correlated with vWf:Ag (r = 0.441, P less than 0.001) and t-PA (r = 0.398, P less than 0.001). These findings indicate that the elevation of plasma thrombomodulin is frequently seen in a variety of diseases and circulating thrombomodulin is possibly useful for evaluating the endothelial damage in selected disease states.
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PMID:Circulating thrombomodulin as a novel endothelial cell marker: comparison of its behavior with von Willebrand factor and tissue-type plasminogen activator. 132 30

Cultured confluent human umbilical vein endothelial cells were incubated with new-breviscapine (NB), a flavonoid consisting of 4-OH-scutellarin-7-O-glucuronide (C33H30O18) and FeCl3, MgCl2, and CaCl2, which is first extracted from Erigeron breviscapus (Vant) Hand-Mazz in China, 0, 6.25, 12.5, 25, 50, 100, and 1,000 micrograms.ml-1. The releases of tissue-type plasminogen activator (t-PA), and epoprostenol (Epo) from endothelial cells were stimulated by NB, but no significant effect of plasminogen activator inhibitor (PAI) activity was seen. NB 25-1,000 micrograms.ml-1 induced a production of thrombomodulin (TM) within the cells, an expression of TM on the surface of the cells, and a release of TM from the cells. Our data provide a new evidence that NB is a stimulant to fibrinolysis and anticoagulation of endothelial cells.
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PMID:Effect of new-breviscapine on fibrinolysis and anticoagulation of human vascular endothelial cells. 133 21

Heparin is indispensable anticoagulant for cardiopulmonary bypass, but the dose of heparin is even now under discussion. In this study, hemostatic fluctuation was analyzed during and after the bypass using hemostatic molecular markers. The subjects were 16 adult cases of open heart surgery, 12 males, 4 females. The average age was 55.0 year. Operations were aortocoronary bypass in 12, valvular surgery in 3 and ASD patch closure in one with moderate hypothermic cardiopulmonary bypass. At the beginning of cardiopulmonary bypass, 3 mg/kg heparin was administered and the equivalent amount of protamine sulfate was used for neutralization at the end of the bypass. Platelet count, hematocrit, antithrombin III (ATIII), beta-thromboglobulin, platelet factor 4, fibrinopeptide A, thrombin antithrombin III complex, FDP, D dimer FDP, plasmin alpha 2 plasmin inhibitor complex, tissue plasminogen activator (t-PA), and thrombomodulin (TM) were measured through the operation up to two weeks after surgery. ATIII decreased to 50% of control value all through the bypass. Platelet markers increased immediately, and the activated state continued 3 hours after the bypass. Coagulation markers increased markedly after the aortic declamping, and reached at its peak by three times as control value, immediately after the protamine neutralization and continued for 3 hours. During the bypass, fibrinogenolysis caused by t-PA which was stimulated by non-physiological circulation and stimulating substances, was observed. Fibrinolysis occurred following the hypercoagulability after the neutralization. TM was within normal range before the aortic declamping. But increased gradually after the declamp, and reached twice as much as the base line. It could be concluded that hypercoagulability and high platelet activation might play a role of perioperative thrombosis. Hypercoagulability and increase of serum TM would be related to reperfusion of the lung. The increasing of TM would reflect broad injury of vessel walls after the bypass, because plasma TM increased following the generalized injury of endothelial cells.
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PMID:[A clinical study on hemostatic fluctuation during and after cardiopulmonary bypass using hemostatic molecular markers]. 133 89

A 29-year-old man with congenital protein C deficiency and acute myocardial infarction is reported. Four hours after the onset of chest pain, he was treated intravenously with tissue-type plasminogen activator. Subsequent coronary angiography revealed only slight stenosis of the left anterior descending coronary artery without any atherosclerosis. The propositus, his brother, and his mother, showed low levels of both protein C activity and antigen, while plasma thrombomodulin levels were normal. His grandfather had died from acute myocardial infarction at 38 years of age. We investigated several other risk factors for arterial thrombosis, including factor VII, fibrinogen, heparin cofactor II, lipoprotein (a), and anticardiolipin antibodies. No other haemostatic abnormalities apart from factor VII hyperactivity were detected in this family. To study the effects of protein C and factor VII on procoagulant activity, prothrombin time was measured after the addition of activated protein C and factor VII to protein C-deficient plasma. The prothrombin time ratio decreased along with an increase in the factor VII level. It also decreased with a decrease in the activated protein C level. These findings indicated that the procoagulant activity of factor VII was enhanced by low protein C levels, suggesting that concomitant factor VII hyperactivity may cause acute myocardial infarction in patients with protein C deficiency.
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PMID:Congenital protein C deficiency and myocardial infarction:concomitant factor VII hyperactivity may play a role in the onset of arterial thrombosis. 144 May 17

Antiplatelet +/- anticoagulant drugs are currently used as the standard treatment to prevent and treat thrombosis. While this approach is beneficial, it is not optimal. Recent evidence suggests that constituents of the vascular endothelium play an important role in regulating vessel wall thrombogenecity, thereby inhibiting thrombogenesis. These include constituents such as PGI2, tissue plasminogen activator, thrombomodulin and the lipoxygenase fatty acid metabolite derived from linoleic acid, 13-hydroxyoctadecadienoic acid (13-HODE). Consequently, new strategies have been developed to maximize the use of these agents for antithrombotic therapy. We will review these different approaches, discuss their rationale, and based upon recent experimental data, introduce an alternative approach for antithrombotic therapy which may circumvent a number of limitations and side-effect of the currently used drugs.
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PMID:Eicosanoids, other fatty acid metabolites and the cardiovascular system: are the present antithrombotic approaches rational? 163 1

Thrombin, the final enzyme of the coagulation system, also influences profibrinolytic activity by several mechanisms. These include cellular release of tissue plasminogen activator, activated protein C-induced fibrinolysis, and inactivation of plasminogen activator inhibitor, type 1 (PAI-1). In this report, the role of thrombin in the regulation of PAI-1 is investigated. Our studies demonstrate that thrombin inactivation of PAI-1 occurs via an enzymatic mechanism rather than an enzyme-inhibitor complex mechanism. Evidence to support this conclusion is: (1) concomitant analysis of PAI-1 and thrombin activities demonstrate decreased PAI-1 activity but no loss of thrombin activity; (2) no visible thrombin--PAI-1 complexes by SDS-PAGE analysis; and (3) lack of formation of 125I-thrombin-PAI-1 complexes. Thrombomodulin, a thrombin binding cofactor that modifies thrombin's functions, did not influence the inactivation of PAI-1 by thrombin. We propose that thrombin enzymatically inactivates PAI-1 without forming a stable enzyme-inhibitor complex. The reaction is not affected by thrombomodulin. Overall this reaction occurs so slowly that it is not physiologically relevant without some modifying factor(s).
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PMID:Thrombin and the thrombin-thrombomodulin complex interaction with plasminogen activator inhibitor type-1. 165 27

Endothelial cell injury is thought to be one of the causative factors in thrombotic thrombocytopenic purpura (TTP). A novel index of endothelial injury, plasma thrombomodulin, was measured in 13 patients with acute TTP. The mean plasma concentration of thrombomodulin was elevated in patients with TTP (34.23 +/- 19.08 ng/ml) as compared with healthy subjects (16.99 +/- 2.63 ng/ml, P less than 0.001). Eight (61.5%) of 13 patients had high thrombomodulin values. Markedly elevated thrombomodulin levels were observed in TTP patients who had suffered from systemic lupus erythematosus, in whom plasma thrombomodulin was still elevated when they achieved remission. Five of these 13 patients with TTP had normal plasma levels of thrombomodulin. In addition, the plasma thrombomodulin concentrations were correlated well with von Willebrand factor antigen and tissue-type plasminogen activator antigen levels, both of which are released from stimulated or damaged endothelial cells. No difference was found in plasma thrombomodulin levels between patients who achieved remission and who did not. These findings suggest that the magnitude of the endothelial damage in TTP is variable among patients and that plasma thrombomodulin has limited clinical relevance to the severity of TTP.
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PMID:Circulating thrombomodulin in thrombotic thrombocytopenic purpura. 165 86

Monoclonal antibodies against thrombomodulin have become a useful means to study the structure and function of thrombomodulin. In this study, we used a monoclonal antibody against human thrombomodulin, named SZ-53, to investigate the function of thrombomodulin on the surface of cultured human umbilical vein endothelial cells. Preincubation of endothelial cells with SZ-53 before addition of thrombin not only inhibited thrombomodulin mediated activation of protein C, but also inhibited thrombin mediated release of t-PA and PGI2 from endothelial cells. The inhibitory effects depended on the concentration of SZ-53 IgG. According to our experimental results, we suggest that thrombomodulin on the surface of endothelial cells could participate in the regulation of thrombin mediated release of t-PA and PGI2 from these cells.
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PMID:A monoclonal antibody (SZ-53) against thrombomodulin inhibits thrombin-mediated release of t-PA and PGI2 from endothelial cells. 166 94

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