Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Thrombin, the final product of blood coagulation cascade, shows several effect on the vessel-wall cells. However the effects may be regulated by several thrombin receptors on the endothelium. They include thrombomodulin (TM), protease-Nexin, heparin-like molecule-antithrombin III complex. These binding sites do not transduce the signal of thrombin. Especially TM converts thrombin from a procoagulant protease to an anticoagulant. Recently new thrombin receptor was identified on the endothelium and platelets. Through this receptor, thrombin induces activations both on platelet end-endothelium. In brief platelets aggregate and release several factors including serotonin, PDGF, platelet factor4, beta-thromboglobulin on the stimulation by thrombin. The endothelium release t-PA inhibitor; PAI-1, prostacyclin and endothelin. Thus the activations of these cells by thrombin is a key events in hemostasis, wound healing, inflammation, atherosclerosis and restenosis of coronary artery after PTCA.
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PMID:[Regulation of the endothelial function by thrombomodulin and/or thrombin receptor]. 815 41

Recent advances in determining anti-thrombogenic functions of vascular endothelial cells are reviewed. The following anticoagulant and fibrinolytic systems of endothelial cells are physiologically important; (1) Endothelial cell-derived metabolites including prostacyclin and nitric oxide (NO) support platelet inactivity. (2) Antithrombin III and tissue factor pathway inhibitor (TFPI) bound to heparin-like proteoglycans on endothelial cell membrane inhibit activated serine protease coagulation factors such as thrombin, factor Xa and factor VIIa-tissue factor complex. (3) Thrombomodulin converts thrombin from procoagulant into anticoagulant. Thrombin associated to thrombomodulin on endothelial cells activates protein C. Activated protein C in concert with protein S bound to endothelial cell membrane inactivates factors Va and VIIIa. (4) A receptor for both tissue plasminogen activator and plasminogen on endothelial cells provides an efficient plasmin generating system. Perturbation of these anti-thrombogenic systems of endothelial cells is caused by endotoxin (LPS), cytokines such as interleukin-1 and tumor necrosis factor (TNF), and risk factors for atherogenesis including lipoprotein(a) and homocysteine may result in arterial or venous thrombosis with subsequent development of atherosclerosis.
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PMID:[Anticoagulant and fibrinolytic systems of the injured vascular endothelial cells]. 817 40

The relationship between lipoprotein (a) (Lp(a)) and atherosclerosis has been appreciated for a number of years. Only in recent years, however, has the structural relationship of Lp(a) to plasminogen resulted in studies of the effect of this lipoprotein on fibrinolysis. Lp(a) inhibits activation of plasminogen by tissue-type (t-PA) and urinary-type (u-PA) plasminogen activators. These inhibitory reactions are surface-dependent. When Lp(a) binds to fibrin, fibrinogen, heparin or cells it blocks activation of plasminogen by t-PA. u-PA-mediated activation of plasminogen is blocked on surfaces including heparin and chondroitin sulfate. Lp(a) also favors inhibition of plasmin by alpha 2-antiplasmin (alpha 2-AP). The ability of Lp(a) to compete with plasmin for fibrin binding displaces plasmin into solution where alpha 2-AP rapidly inhibits this proteinase. These effects are all antifibrinolytic. Lp(a) also exhibits one profibrinolytic effect, since it blocks inhibition of t-PA by plasminogen activator type 1 in the presence of fibrinogen or heparin. Thus, Lp(a) modulates most of the reactions involved in plasmin generation and inhibition. Its overall effect will depend primarily on the concentrations of Lp(a), PAI-1 and t-PA in vivo.
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PMID:Lipoprotein (a) regulates plasmin generation and inhibition. 818 36

The low-density lipoprotein receptor-related protein (LRP) is a multifunctional receptor that binds to apolipoprotein E-rich lipoproteins, lipoprotein lipase, alpha 2-macroglobulin, lactoferrin, and tissue plasminogen activator. We studied the mRNA expression of LRP in human monocyte-derived macrophages and THP-1 cells. mRNA expression of LRP was induced during cell differentiation from human monocytes to macrophages or after incubation with phorbol ester (tetradecanoylphorbol acetate 100 ng/mL) in THP-1 cells, and the addition of 30 ng/mL macrophage colony-stimulating factor further enhanced LRP expression. These results indicated that the expression of LRP depended on the stage of differentiation and maturation of monocytic cells. mRNA expression of LRP was also enhanced in human monocyte-derived macrophages in the presence of acetylated low-density lipoprotein and in aorta of rabbits fed a high-cholesterol diet. We hypothesize that the LRP induced in monocyte-derived macrophages is involved in the initial process of atherosclerosis by interacting with its multiple ligands.
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PMID:Induction of LDL receptor-related protein during the differentiation of monocyte-macrophages. Possible involvement in the atherosclerotic process. 819 72

Elevated levels of endogenous tissue-type plasminogen activator (t-PA) appear to be a marker for preclinical atherosclerosis. At present, however, data describing potential relations between plasma t-PA level and established lipid risk factors for coronary atherosclerosis are sparse. To explore these potential relations, we measured plasma levels of t-PA antigen (t-PA:ag) in 633 apparently healthy men in the Physicians' Health Study as well as total cholesterol, high-density lipoprotein (HDL) cholesterol, HDL2 cholesterol, HDL3 cholesterol, and apolipoproteins A-I, A-II, and B-100. Overall, plasma t-PA:ag levels were inversely correlated with HDL cholesterol (r = -.1616, P < .0005), HDL2 cholesterol (r = -.1632, P < .0005), and HDL3 cholesterol (r = -.0927, P = .019). In stratified analyses, the inverse association between t-PA:ag and HDL cholesterol was present among frequent (P trend = .002) and infrequent (P trend = .004) consumers of alcohol as well as among the subgroups of frequent exercisers (P trend < .001), men in the lower half of body mass index (P trend = .001), and nonsmokers (P trend < .001). In contrast, there was no association between t-PA:ag and total cholesterol (r = .0219, P = .58), whereas relations of t-PA:ag with apolipoproteins A-I, A-II, and B-100 were minimal and of borderline significance. These data indicate that plasma levels of endogenous t-PA:ag are inversely related to HDL cholesterol as well as HDL2 and HDL3 cholesterol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A cross-sectional study of endogenous tissue plasminogen activator, total cholesterol, HDL cholesterol, and apolipoproteins A-I, A-II, and B-100. 821 99

The fibrinolytic capacity of blood depends mainly on the amount of tissue-type plasminogen activator (t-PA) activity and plasminogen activator inhibitor type-1 (PAI-1) activity. Previous studies linked high PAI activity or low t-PA activity with the development of atherosclerosis and thromboembolic diseases. Yet, there are conflicting reports in the literature as to whether there is higher PAI activity in patients with myocardial infarction (MI) than in patients with coronary artery disease (CAD) without previous MI. In this retrospective study, t-PA activity, t-PA antigen, and PAI activity before and after a venous occlusion test (VOT) of 10 min were assessed in 109 patients with angiographically documented CAD, in two subgroups of CAD patients with (n = 66) or without (n = 43) previous MI, and in subgroups of CAD patients according to their triglyceride levels and other risk factors. The mean values of t-PA activity in the whole patient group showed a 100-fold increase and a 3.1-fold increase in t-PA antigen after VOT (0.03 +/- 0.03 to 3.0 +/- 6.8 U/ml and 16.5 +/- 6.9 to 51.0 +/- 25.4 ng/ml, p < 0.05). PAI activity was 24.4 +/- 11.0 before and 19.6 +/- 13.2 U/ml after VOT. Within the CAD group, no difference was found between patients without MI and survivors of previous MI in PAI activity before VOT (24.6 +/- 10.7 vs. 24.3 +/- 11.3 U/ml) and after VOT (19.0 +/- 12.1 vs 20.0 +/- 14.0 U/ml), or t-PA activity before (0.03 +/- 0.01 vs. 0.04 +/- 0.04 U/ml) and after VOT (2.8 +/- 7.0 vs. 3.2 +/- 6.7 U/ml). In 39.4% of CAD patients elevated plasma PAI activity before VOT (> 25 U/ml) was found. This subgroup of patients represented the highest PAI activity after VOT (p < 0.05), the lowest t-PA activity after VOT (p < 0.001), and the highest triglyceride levels (p < 0.05). In 11% of the patients, a small increase in t-PA activity (less than 0.5 U/ml) after VOT was seen. This group showed the lowest t-PA antigen after VOT (p < 0.001) and the highest fibrinogen level (p < 0.05). Both subgroups showed the same distribution among patients with and without MI. CAD patients with triglyceride levels over 200 mg/dl had the highest PAI activity values before VOT (28.3 +/- 11.8 U/ml; p < 0.01) and after VOT (24.9 +/- 13.2 U/ml; p < 0.01), resulting in low t-PA activity after VOT (p < 0.01).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:High PAI activity with correlation to triglyceride and HDL cholesterol values in patients with coronary artery disease with no difference in survivors of myocardial infarction. 824 47

Accelerated atherosclerosis is the leading cause of death in patients with non-insulin-dependent diabetes mellitus (NIDDM). Impaired endogenous fibrinolytic activity may accelerate atherosclerosis by exposing vascular luminal wall surfaces to persistent and recurrent thrombi and clot-associated mitogens. This study was conducted to further characterize endogenous fibrinolysis in lean and obese nondiabetic subjects and in NIDDM patients and to identify mechanisms responsible for the alterations identified. Obese and diabetic subjects had threefold elevations of plasma concentrations of plasminogen activator inhibitor type 1 (PAI-1) compared with values in lean control subjects. Despite the lack of significant differences in plasma concentrations of tissue-type plasminogen activator in the obese and diabetic subjects, both basal and stimulated endogenous fibrinolytic activities were decreased. The decreases were associated with increased activity of PAI-1 in plasma, in turn correlated with increased concentrations of immunoreactive insulin and C-peptide. These results are consistent with our previous observations demonstrating direct stimulatory effects of insulin and its precursors on cellular expression of PAI-1 in vitro and observations by others demonstrating decreased basal fibrinolytic activity in NIDDM patients. Impaired endogenous fibrinolytic activity could lead to prolonged or recurrent exposure of luminal surfaces of vessel walls to microthrombi and clot-associated mitogens that may accelerate atherosclerosis in hyperinsulinemic subjects.
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PMID:Factors responsible for impaired fibrinolysis in obese subjects and NIDDM patients. 826 7

The effect of different fat loads on postprandial lipemia and hemostatic activity was examined in 10 middle-aged men using 3 different meals. One meal was rich in saturated fatty acids (cream), the other rich in n-6 polyunsaturated fatty acids (sunflower oil) and the third was fat-free containing only carbohydrates. Lipoprotein lipids and hemostatic parameters were measured during fasting and 2, 4, 6 and 8 h after the test meal. In fasting samples, several hemostatic parameters were significantly associated with lipoprotein lipids. Most notable were the strong associations of fibrinolysis parameters tissue plasminogen activator antigen and plasminogen activator inhibitor activity (PAI-1) with total and very low density lipoprotein (VLDL) triglycerides. During lipemia, the associations were approximately similar or slightly weaker than in the fasting state. Both fat loads resulted in similar postprandial lipid responses: VLDL and high density lipoprotein (HDL) triglycerides reached maximum at 4 h after the meal. VLDL cholesterol also increased 4 and 6 h after the fat loads. HDL3 cholesterol declined after the fatty meals but no change was observed in the HDL2 fraction. The fat-free meal gave no significant lipid changes during the time course studied. Factor VII activity (F VII:C) increased 6 and 8 h after the fatty meals, whereas a decrease was observed after the fat-free meal. The changes (+/- S.D.) at 8 h after cream, sunflower oil and fat-free meal were 5.2 +/- 3.3, 3.3 +/- 4.2 and -5.8 +/- 7.9 percentage points, respectively, and the effect of the meal on the changes was statistically significant (F (8,99) = 2.99, P = 0.0048). F VII antigen (F VII:Ag) tended to decline during the day but there was no difference between the meals. Factor VIII activity (F VIII:C) was highest after the polyunsaturated fat meal and lowest after the fat-free meal. PAI-1 declined during the day and the decline tended to be steepest after the fat-free morning meal. The effect of the meal on the changes in lipoprotein lipids and hemostatic factors varied significantly between individuals. In conclusion, postprandial lipemia after a single fatty meal was associated with procoagulatory change in F VII:C but there was no difference between saturated fat and n-6 polyunsaturated fat.
Atherosclerosis 1993 Oct
PMID:The effects of saturated fat and n-6 polyunsaturated fat on postprandial lipemia and hemostatic activity. 828 Jan 80

To clarify age-related and lipid-related hemostatic abnormalities in the elderly, we measured the plasma levels of active PAI-1 antigen (aPAI-1), tPA-PAI-1 complex (TPC), plasminogen, alpha 2-plasmin inhibitor (alpha 2-PI), plasmin-alpha 2-PI complex (PIC), and D-dimer, together with the plasma levels of fibrinogen, factor VII (F VII), and thrombin-antithrombin III complex (TAT) and the serum lipid levels in 68 hyperlipidemic and 82 normolipidemic elderly subjects. The aPAI-1 ratio was calculated as aPAI-1/(aPAI-1 + TPC). In the normolipidemic elderly subjects, plasma PIC and D-dimer levels were much higher when compared with healthy young controls, and there was also a decrease in plasma plasminogen and alpha 2-PI levels, an increase in plasma TPC levels, and high plasma F VII and fibrinogen levels. In elderly subjects with type IIb hyperlipidemia, both the plasma aPAI-1 level and the aPAI-1 ratio were significantly increased, while the plasma PIC and D-dimer levels were reduced despite higher plasma F VII, fibrinogen and TAT levels. Both serum total cholesterol and triglyceride levels were correlated positively with plasma F VII and TAT levels and with the TAT/PIC ratio, while only serum triglyceride levels showed a positive correlation with plasma TPC and aPAI-1 levels and with the aPAI-1 ratio. Thus, an increase of fibrinolytic activity appears to occur as part of normal aging to balance the increase of procoagulant activity. However, an imbalance between thrombin activity (increased procoagulant activity) and plasmin activity (hypofibrinolysis) appears to occur in elderly individuals with hyperlipidemia, perhaps resulting in a predisposition to thromboembolic disease.
Atherosclerosis 1993 Nov
PMID:Lipid-related hemostatic abnormalities in the elderly: imbalance between coagulation and fibrinolysis. 829 90

In order to investigate processes, such as atherosclerosis and inflammation in vitro, it is necessary to obtain viable and pure endothelial cell cultures from human hearts. To this end, endothelial cells were isolated and cultured from the micro- and macrovasculature of human hearts obtained during heart transplantation. Isolation of capillaries after enzymatic digestion of heart muscle provided a source of microvascular endothelial cells. Contaminating non-endothelial cells were removed by a new technique: paramagnetic beads linked to the lectin ulex europaeus I (UEA-I) were used to select endothelial cells. The resulting cultures contained less than 2% of non-endothelial cells, as judged from immunological staining and fluorescence-activated cell sorting. Both types of endothelial cell displayed typical endothelial properties. They were all positive for factor VIII-related antigen and expressed the endothelial-specific adhesion molecules, CD31 and E-selectin (ELAM-1), after stimulation with cytokines. In addition, they could be labelled with Dil-Ac-LDL, contained angiotensin converting enzyme activity and secreted tissue plasminogen activator, thus demonstrating that typical endothelial functions were preserved in culture.
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PMID:Cultivation and characterization of micro- and macrovascular endothelial cells from the human heart. 829 83


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