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)

Fetomodulin is a surface marker protein of differentiated F9 embryonal carcinoma cells. Gene cloning has recently identified it as thrombomodulin which binds thrombin and proteolytically activates protein C. Activity assays and RNA blotting were adopted to analyze F9 cell differentiation with specific reference to another well-characterized marker, tissue plasminogen activator. Retinoic acid induced primitive endoderm differentiation of F9 cells and simultaneously activated tissue plasminogen activator synthesis. This differentiation, however, did not result in fetomodulin expression. When primitive endoderm cells were exposed to 1 mM dibutyryl cyclic AMP, the tissue plasminogen activator level rose further within 6 hr. In contrast, the cofactor activity of fetomodulin stayed below a detectable level for as long as 15 hr and then increased with time. Expression of the two marker proteins appeared to be regulated differently.
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PMID:Differential expression of fetomodulin and tissue plasminogen activator to characterize parietal endoderm differentiation of F9 embryonal carcinoma cells. 169 71

Patients with unstable angina pectoris (UAP; n = 20) and acute myocardial infarction (AMI; n = 34) were studied in the acute phase of ischaemic heart disease. We found significantly higher levels of thrombin-antithrombin-III (TAT) complexes, lower levels of systemic tissue plasminogen activator (t-PA) activity, and higher levels of plasminogen activator inhibitor (PAI) activity in the AMI patients compared to the UAP patients. In contrast to these specific changes, general acute phase reactants such as C-reactive protein, fibrinogen and von Willebrand factor did not differ significantly between the two groups. Studies of the relationship between coagulation (TAT-complexes) and fibrinolysis data revealed a significant positive correlation between plasma antigen concentrations of TAT-complexes and t-PA (P less than 0.02), and between TAT-complexes and PAI-I (P less than 0.002). These observations indicate a common pathophysiological mechanism underlying the changes in coagulation and fibrinolysis, suggesting that coagulation activity and t-PA-related fibrinolysis are interrelated processes in vivo, and probably take place at the level of the endothelial cell.
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PMID:Interrelationship between coagulant activity and tissue-type plasminogen activator (t-PA) system in acute ischaemic heart disease. Possible role of the endothelium. 170 58

Plasminogen activator inhibitor type 1 (PAI-1), the fast-acting inhibitor of tissue-type plasminogen activator (t-PA) and urokinase (u-PA), is a member of the serpin superfamily of proteins. Both in plasma and in the growth substratum of cultured endothelial cells, PAI-1 is associated with its binding protein vitronectin, resulting in a stabilization of active PAI-1. Recently, it has been demonstrated that the PAI-1-binding site on vitronectin is adjacent to a heparin-binding site (Preissner et al., 1990). Furthermore, it can be deduced that the amino acid residues, proposed to mediate heparin binding in the serpins antithrombin III and heparin cofactor II, are conserved in PAI-1. Consequently, here we have investigated whether PAI-1 also interacts with heparin. At pH 7.4, PAI-1 quantitatively binds to heparin-Sepharose and can be eluted with increasing [NaCl]. Binding of PAI-1 to heparin-Sepharose can be efficiently competed with heparin in solution (IC50, 7 microM). In the presence of heparin, the protease specificity of PAI-1 toward thrombin is substantially increased. This is shown by (i) quenching of thrombin activity of PAI-1 in the presence of heparin and (ii) induction of the formation of SDS-stable complexes between thrombin and PAI-1 by heparin. In a dose response curve, both effects reached a maximum at approximately 1 unit/mL and then diminished again upon further increasing the heparin concentration, strongly suggesting a template mechanism as an explanation for the observed effect. In contrast to vitronectin, heparin does not stabilize the active conformation of PAI-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional interaction of plasminogen activator inhibitor type 1 (PAI-1) and heparin. 170 36

The present study addresses the potential effects of pacing-induced myocardial ischemia on the secretion of coagulant and fibrinolytic factors within the coronary circulation. In 6 patients undergoing programmed ventricular stimulation with repeated induction of clinical ventricular tachycardia, the coronary release of tissue-type plasminogen activator (t-PA) antigen, plasminogen activator inhibitor (PAI) capacity, von Willebrand factor antigen (WF:Ag), and prostacyclin (6-keto-PGF 1a) was measured. Blood samples were collected simultaneously from the ascending aorta and the coronary sinus at baseline and immediately after the induction of ventricular tachycardia. The occurrence of pacing-induced myocardial ischemia was established by myocardial net lactate production. Myocardial ischemia was induced in every patient by repeated pacing trials. Pacing-induced ischemia did not affect the coronary release of any of the above factors. Consequently, there was no alteration of transcardiac gradients of thrombin-antithrombin complexes and D-dimer. The present results indicate that pacing-induced myocardial ischemia does not affect the release of coagulant and fibrinolytic endothelial factors or prostacyclin into the coronary circulation.
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PMID:Pacing-induced myocardial ischemia does not affect the endothelial release of coagulant and fibrinolytic factors into the coronary circulation. 170 56

The hematopoietic growth factors, granulocyte-macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor (G-CSF), enhance the effector functions of mature myeloid cells, including the interaction with vascular endothelium. We examined the direct effect of recombinant human GM-CSF (rhGM-CSF) and recombinant human G-CSF (rhG-CSF) on the growth and function of cultured human umbilical vein endothelial cells (HUVEC). Endothelial cell growth supplement (ECGS) increased the proliferation of passaged and primary cells by 305% +/- 45% (mean +/- SEM, n = 5, P less than .01) over control cells at 4 days; GM-CSF and G-CSF had no effect. Endothelial cell procoagulant activity was increased after 4-hour incubation with recombinant interleukin-1 beta (IL-1 beta) 10 U/mL and recombinant tumor necrosis factor (TNF) 10 U/mL to 1,721% +/- 376% (n = 7, P less than .005) and 247% +/- 71% (n = 4) of control levels, respectively. gamma-Interferon (gamma-IFN) 50 U/mL had no direct effect of its own but was able to prime the response to IL-1 beta. There was no direct or priming effect of GM-CSF (1 ng to 1 microgram/mL) on the expression of procoagulant activity in endothelial cells. GM-CSF and G-CSF (1 ng/mL to 1 microgram/mL) had no effect on the expression of either tissue plasminogen activator (tPA) or plasminogen activator inhibitor-1 (PAI-1) by endothelial cells. The secretion of tPA by endothelial cells was increased, however, after 24-hour incubation with thrombin 4 U/mL (314% +/- 72% of control levels, n = 5, P less than .025). The production of PAI-1 was increased by TNF 200 U/mL (241% +/- 44% of control, n = 3, P less than .005), thrombin 4 U/mL (180% +/- 12% of control, n = 5, P less than .0005) and IL-1 beta 10 U/mL (275% +/- 44% of controls, n = 5, P less than .0005). In four experiments, endothelial cells showed no specific binding of 125I-GM-CSF, whereas peripheral blood (PB) neutrophils demonstrated the presence of 802 +/- 78 high-affinity receptors for GM-CSF. Thus, we found no effect of rhGM-CSF or rhG-CSF on the proliferation activities by these cells. These findings are in accordance with the lack of demonstrable receptors for GM-CSF on cultured HUVEC.
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PMID:Lack of effect of granulocyte-macrophage and granulocyte colony-stimulating factors on cultured human endothelial cells. 193 61

The prevalence of subclinical coagulation abnormalities greatly differs in the various studies due to selection of patients and differences in study design. We performed coagulation studies in 69 consecutive patients with primary untreated cancer of various origin. The control group consisted of 42 sex and age matched healthy volunteers. Plasma coagulation tests included thrombin-antithrombin-III-complex (TAT), plasmin-alpha 2-antiplasmin-complex (PAP) and tissue-plasminogen-activator-antigen (t-PA-ag). These tests were performed once, prior to any anti-cancer treatment. We evaluated if activation of the coagulation system (elevated TAT-complexes) and the fibrinolytic system (elevated PAP-complexes and t-PA-ag) correlated with the tumor-type or the extent of the tumor. To document clinical manifest haemorrhage or thromboembolic disease (TED) we performed a 6 months follow-up study. In 8 patients (12%) and in 3 control subjects (7%) an elevated TAT-complex level was observed (this difference is not significant). An increased plasma level of PAP-complex was seen in 8 patients (12%) versus none in the control group (p less than 0.05). In one patient both TAT and PAP-complex concentrations were elevated. Consequently, 15 of the 69 patients (22%) showed activation of the coagulation and/or fibrinolytic system. Fibrinolysis seems to be enhanced in a subset of cancer patients in contrast to blood coagulation. In 10 patients (14%) we found raised t-PA-ag levels. Three patients had both elevated levels of PAP-complex and t-PA-ag. These findings suggest that in a minority of patients increased PAP-complex levels may be a result of t-PA induced plasminogen activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Low prevalence of coagulation and fibrinolytic activation in patients with primary untreated cancer. 171 Aug 32

Sclerotherapy of bleeding esophageal varices in liver cirrhotics is a common procedure, but little is known about the possible entry of sclerosants into the systemic circulation. We injected a mixture of thrombin, sodium tetradecyl, and cefazolin and studied the effect of this sclerosant on selected hemostasis parameters. Twenty-four patients with liver cirrhosis (Child's Classification C) were studied 29 times. Blood samples were drawn before and immediately after the injection of the sclerosant. In seven patients we collected a sample 30 minutes and 24 hours after treatment. Before injection, almost all patients had elevated D-dimer, t-PA and PAI-1 levels. Fibrinogen, antithrombin, alpha-2 antiplasmin, and protein C were decreased. Only thrombin/antithrombin III complex (TAT) levels were within normal ranges. Immediately after the injection, TAT, D-dimer, and t-PA levels rose significantly (P less than 0.001, P less than 0.01, P less than 0.001), PAI-1 and PC levels decreased (P less than 0.01), while antithrombin, alpha-2 antiplasmin, and fibrinogen concentrations were unchanged. TAT and D-dimer levels were still elevated after 24 hours (P less than 0.05). These data indicate that thrombin entered the systemic circulation (elevated TAT) and that the hemostasis system was briefly systemically activated (elevated D-dimer). In spite of these changes in the hemostasis system, clinically there were no detectable thrombotic or hemorrhagic complications.
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PMID:Hemostasis activation during esophageal variceal sclerotherapy with thrombin in cirrhotics. 171

Plasminogen activator inhibitor 1 (PAI-1) is the fast-acting inhibitor of both tissue-type and urokinase-type plasminogen activators (t-PA, u-PA) and is an essential regulatory protein of the fibrinolytic system. In the presence of either the protein vitronectin or the glycosaminoglycan heparin, PAI-1 is also an efficient inhibitor of thrombin. To assess whether these cofactors turn PAI-1 into a general protease inhibitor or whether their influence is restricted to thrombin, the second-order association rate constants between PAI-1 and the human plasma proteases t-PA, u-PA, plasmin, thrombin, Factor Xa (FXa), and Factor XIIa (FXIIa) in the absence and in the presence of either vitronectin or heparin are determined. In addition, the role of the PAI-1 reactive site P3 to P3' residues for the specificity of inhibition was studied by using PAI-1 reactive site mutants. Our results show that: (1) Heparin exclusively increases the rate of inhibition of thrombin by PAI-1, whereas in the presence of heparin the rate of inhibition of the other proteases is not altered; (2) Vitronectin is an obligatory cofactor for the inhibition of thrombin by PAI-1. In addition, vitronectin moderately increases the rate of inhibition by PAI-1 of u-PA and of plasmin, but does not alter the rate of inhibition of t-PA, FXa, or FXIIa; (3) Apart from the important role of the P1 residue, no consensus can be presented on the nature of other residues within the P3 to P3' region with regard to target protease specificity.
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PMID:On the target specificity of plasminogen activator inhibitor 1: the role of heparin, vitronectin, and the reactive site. 171 20

In a prospective randomized study heptest, thrombin-antithrombin complexes (TAT), D-dimer, and t-PA:ag were analysed pre- and postoperatively in 206 consecutive patients undergoing hip arthroplasty during thromboprophylaxis with either a LMW heparin (Enoxaparin) or Dextran 70. Deep vein thrombosis (DVT) developed in 6 of 102 (6%) Enoxaparin and in 21 of 104 (20%) Dextran patients diagnosed by bilateral phelobography. In the Enoxaparin group heptest showed a significant increase from the pre- to the postoperative level opposed to a significant decrease in the Dextran group. Postoperative levels of TAT, D-dimer, and t-PA:ag were significantly increased in both groups, however, TAT was significantly higher in patients in the Dextran group than in the Enoxaparin patients. D-dimer was significantly higher in Dextran patients with DVT postoperatively compared with patients without DVT. No differences concerning TAT or t-PA:ag were observed between patients with and without DVT in any of the groups.
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PMID:Components of coagulation and fibrinolysis during thrombosis prophylaxis with a low molecular weight heparin (Enoxaparin) versus Dextran 70 in hip arthroplasty. 171 55

We studied the quantitative changes of hemostatic molecular markers with time during the course of disseminated intravascular coagulation (DIC) induced by endoscopic embolization using thrombin for esophageal varices in nine patients with liver cirrhosis. The plasma levels of D-dimer, a product of plasmin degradation of cross-linked fibrin, and thrombin-antithrombin-III complex (TAT) were significantly higher in patients before treatment when compared with 60 healthy individuals. The plasma levels of TAT, D-dimer, and plasmin alpha 2-plasmin inhibitor complex (PIC) increased significantly 5-15 min after thrombin injection into the varices, earlier than the changes of conventional coagulofibrinolytic factors, reached a maximum level after 180 min, and started to decline after 1 day. Although the plasma PIC level returned to normal after 7 days, both TAT and D-dimer were still above the pretreatment level. Although there was no change in urokinase-type plasminogen activator (u-PA), tissue-type plasminogen activator (t-PA) increased significantly after 5 min. The plasma level of plasminogen activator inhibitor type 1 (PAI-1) showed only a slight elevation after treatment. We propose that the hemostatic molecular markers TAT, D-dimer, and PIC are suitable for the early diagnosis of DIC after endoscopic embolization using thrombin in patients with liver cirrhosis and that the increase of PAI-1 is too small for the regulation of fibrinolysis due to t-PA in DIC occurring in liver cirrhosis.
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PMID:Significance of hemostatic molecular markers during disseminated intravascular coagulation in patients with liver cirrhosis treated by endoscopic embolization for esophageal varices. 171 8

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