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)

In this cross-sectional study we compared the abilities of lipoprotein(a) [Lp(a)], plasminogen activator inhibitor-1 (PAI-1), and tissue plasminogen activator (TPA) to discriminate between individuals with and without a history of stroke from among subjects in a metabolic ward. A total of 210 subjects (108 men and 102 women; mean age, 63.8 years; range, 31 to 86 years) provided plasma and DNA samples for the study. Of these, 51 men and 50 women had a history of ischemic stroke. The 109 subjects without a history of stroke were compared with those with such a history for major risk factors for ischemic events. Mean plasma TPA and PAI-1 levels significantly (P < .001) discriminated among subjects younger than 70 years with a history of stroke. The mean plasma Lp(a) level of stroke subjects (21.9 mg/dL) did not differ significantly from that of control subjects (15.2 mg/dL). However, among individuals < 70 years old, Lp(a) plasma levels > 50 mg/dL were more common among stroke patients (8 with versus 1 without, P < .01 by chi 2 test). A molecular variation in the 5' flanking region of the apo(a) gene that has been related to elevated Lp(a) plasma levels (G/A-914) was not strongly correlated with circulating levels of Lp(a), nor did Lp(a) levels correlate with a polymorphism of the apo(a) gene (G/A-21), which is strongly linked (P < .001) to the G/A-914 variation. In this setting, the relation between Lp(a) and cerebral ischemia appears to be limited to individuals below 70 years with elevated (> 50 mg/dL) plasma levels of the lipoprotein.
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PMID:Plasma lipoprotein(a) levels in subjects attending a metabolic ward. Discrimination between individuals with and without a history of ischemic stroke. 854 12

Several observations have suggested that lipoprotein (a) (Lp(a)) is a risk factor for coronary artery disease because of potential interference with fibrinolysis secondary to its activation of plasminogen. However, there are few data on the possible role of Lp(a) in liver cirrhosis. The present study was carried out, to better elucidate its relationship to the fibrinolytic system in liver cirrhosis. We studied the plasma levels of Lp(a) and the fibrinolytic parameters of 95 patients with liver cirrhosis (57 men, 38 women, aged 26-81). Patients in Child-Pugh class C (n = 32) had significantly lower levels of Lp(a) than those in class B (n = 45), and the class B had lower Lp(a) values than class A (n = 18) (1.4 (0.0-3.7) vs 2.9 (0.0-6.1) vs 3.4 (1.8-5.5); the data are log-transformed). Alpha-2-antiplasmin and plasminogen, had patterns similar to those of Lp(a), tissue plasminogen activator (t-PA) was significantly increased only in class C (class A: 7.5 +/- 5.8 ng/ml; class B: 10.8 +/- 7.7 ng/ml; class C: 19.1 +/- 11.3 ng/ml). Patients with systemic hyperfibrinolysis (cross-linked fibrin degradation products, XDP > 200 ng/ml) also had lower levels of Lp(a) than those without 1.6 (0.0-4.4) vs (0.0-6.1); p = 0.0002. There was a significant correlation between Lp(a) and plasminogen (r = 0.43; p = 0.001). Lipoprotein (a) progressively decreases as liver cirrhosis worsens but it appears unlikely to be involved in causing the hyperfibrinolytic state often observed in advanced liver cirrhosis, in which there are marked abnormalities of several other fibrinolytic parameters, also including increased t-PA and decreased inhibitors.
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PMID:Lipoprotein (a) and fibrinolytic system in liver cirrhosis. Coagulation Abnormalities in Liver Cirrhosis (CALC) Study Group. 856 64

We have compared the effects of partially hydrogenated fish oil (PHFO diet), partially hydrogenated soybean oil (PHSO diet), and butterfat (butter diet) on fibrinolytic and coagulation variables in 31 young men. The three test margarines, which contributed 78% of total fat in the diets, contained 70% butterfat, PHSO, or PHFO, each with 30% of soybean oil. Fat provided approximately 35% of energy, and the content of trans-fatty acids was 0.9%, 8.5%, and 8.0% of energy in the butter diet, PHSO diet, and PHFO diet, respectively. All diets contained 420 mg cholesterol per 10 megajoules per day. All subjects consumed all three test diets for 3 weeks, in a random order (crossover design). The PHSO diet resulted in higher levels of plasminogen activator inhibitor type 1 antigen and plasminogen activator inhibitor type 1 activity than the two other test diets. Fibrinogen increased on the butter diet compared with the PHFO diet. No significant differences in the levels of factor VII, fibrinopeptide A, D-dimer, tissue plasminogen activator or beta-thromboglobulin were observed between the three test diets. The PHFO and the PHSO diets have previously been shown to result in higher levels of Lp(a) compared with the butter diet. The present findings indicate that PHSO has unfavorable antifibrinolytic effects relative to PHFO and butter and that butter may be procoagulant relative to PHFO. More controlled studies are needed to assess definitely the impact of different hydrogenated fats on risk of coronary heart disease.
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PMID:Effects of partially hydrogenated fish oil, partially hydrogenated soybean oil, and butter on hemostatic variables in men. 863 Jun 62

Growing evidence suggests that moderately elevated levels of homocysteine are associated not only with arterial thrombosis and atherosclerosis but also with venous thrombosis as well. We have reviewed recent studies that indicate that homocysteine inhibits several different anticoagulant mechanisms that are mediated by the vascular endothelium. The protein C enzyme system appears to be one of the most important anticoagulant pathways in the blood. Homocysteine inhibits the expression and activity of endothelial cell surface thrombomodulin, the thrombin cofactor responsible for protein C activation. Homocysteine inhibits the antithrombin III binding activity of endothelial heparan sulfate proteoglycan, thereby suppressing the anticoagulant effect of antithrombin III. Homocysteine also inhibits the ecto-ADPase activity of human umbilical vein endothelial cells (HUVECS). Because ADP is a potent platelet aggregatory agent, this action of homocysteine is prothrombotic. Homocysteine also interferes with the fibrinolytic properties of the endothelial surface because it inhibits the binding of tissue plasminogen activator. Homocysteine stimulates HUVEC tissue factor activity. We have found that lipoprotein(a) [Lp(a)] also stimulates HUVEC tissue factor activity. The combination of Lp(a) plus homocysteine induced more tissue factor activity than either agent alone. These disruptions in several different vessel wall-related anticoagulant functions provide plausable mechanisms for the occurrence of thrombosis in hyperhomocysteinemia.
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PMID:Homocysteine and hemostasis: pathogenic mechanisms predisposing to thrombosis. 864 72

The aim of the present study was to evaluate some metabolic, coagulation and fibrinolytic parameters in 35 patients (24 males and 11 females, mean age 57 +/- 4 years) suffering from myocardial infarction more than 6 months before with or without carotid atherosclerotic lesions. After evaluation by B-mode duplex scanning system of extracranial carotid arteries, the patients were subdivided into two groups: Group 1 (n = 16, with carotid plaques or intima-media thickening) and Group 2 (n = 19, without carotid plaques or intima-media thickening). Eighteen age- and sex-matched subjects were recruited as controls (Group 3). Groups 1 and 2 displayed significantly higher levels of total cholesterol and apolipoprotein B and significantly lower levels of HDL-cholesterol and apolipoprotein A1 than Group 3, while serum triglyceride and lipoprotein (a)-Lp (a) levels were significantly higher in Group 1 as compared to the control group. Moreover, Group 1 and 2 displayed significantly higher levels of factor VII, fibrinogen, F1+2, thrombin-antithrombin complex and plasminogen activator inhibitor (PAI) post venous occlusion and significantly lower levels of tissue plasminogen activator (t-PA) post venous occlusion than Group 3. Significantly higher levels of t-PA and PAI pre venous occlusion and significantly lower levels of antithrombin III, C-protein and S-protein were observed in Group 1 as compared to controls. In patients with highest Lp(a) level, the lowest t-PA level post venous occlusion and the highest PAI level post venous occlusion were observed. Our data show an activation of coagulation and a deficient fibrinolysis in survivors of myocardial infarction, particularly in those with associated carotid atherosclerotic lesions. We speculate that this thrombophilic state may play a key role in the pathogenesis of atherosclerotic vascular disease and thromboembolic complications.
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PMID:[Thrombophilic state inpatients suffering from myocardial infarction with or without carotid atherosclerotic lesions]. 870 61

In this study we investigated serum Lp(a) and plasma t-PA-PAI-1 complex levels in patients with coronary heart disease (CHD). Serum total cholesterol, triglyceride, LDL and VDL cholesterol levels (p < 0.001) and HDL cholesterol levels (p < 0.01) in patients group were found to be significantly different from those in control group. The mean Lp(a) and t-PA-PAI-1 complex levels in patients with coronary heart disease were significantly higher as compared to control group (p < 0.001). This data indicate that the elevated levels of serum Lp(a) and plasma t-PA-PAI-1 complex may play an important role in the pathogenesis of coronary atherosclerosis.
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PMID:Plasma Lp(a) and t-PA-PAI-1 complex levels in coronary heart disease. 883 6

One of the mechanisms by which endothelial cells (ECs) regulate fibrinolysis is through the regulated assembly of proteins such as plasminogen, tissue plasminogen activator (tPA) and urokinase (uPA) on their membrane surface. Receptors for many of these fibrinolytic factors have been isolated and characterized. A unique 45 kD plasminogen receptor present on ECs derived from vein vasculature has been identified and resolved into two plasminogen binding components. One component consists of the unique 45 kD plasminogen receptor (pI = 6.3) whereas the other component (pI = 5.1) is identified as the cytoskeletal protein, actin. Immunofluorescent studies of isolated ECs confirm the presence of actin on their extracellular surface. This observation is consistent with a number of other recent reports of actin externally localized on other cell types. In vitro studies using purified actin confirm that plasminogen binds to actin both saturably and with relatively high affinity. Competition studies with lysine indicated that the binding was largely kringle-dependent, and when binding of tPA to actin was assessed, it also bound to actin with 70-80% of binding inhibited by lysine. Lipoprotein (a), which shows homology with plasminogen, also interacted with actin. Addition of plasminogen and low-density lipoproteins inhibited Lp(a) binding to actin in a dose-dependent fashion. Moreover, in competition with tPA, partial inhibition of plasminogen binding to actin was also observed. In experiments using anti-actin antibodies added in excess to cultured ECs, binding of plasminogen was inhibited by 45%, tPA binding was inhibited by 46% and Lp(a) binding was reduced by 56%, confirming actin as a binding site for these various ligands whilst attesting to the presence of other EC receptors for these proteins. Collectively, the data presented are consistent with actin playing a major role in localizing binding not only of plasminogen, but also of tissue plasminogen activator and Lp(a) to the surface of human endothelial cells.
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PMID:Endothelial cell surface actin serves as a binding site for plasminogen, tissue plasminogen activator and lipoprotein(a). 885 56

Lp(a) is considered to be an independent risk factor for the development of cardiovascular disease. A case of myocardial infarction with elevated serum Lp(a) concentration and the rare apo(a) phenotype and its successful recanalization using tissue plasminogen activator is reported.
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PMID:Elevated serum Lp(a) concentration and the rare apo(a) phenotype in a patient with myocardial infarction. 887 99

Cerebral ischemia is caused by reduced blood supply at the microcirculatory level. In the microvessels, the main elements of the reperfusion injury following brain ischemia are the transformation of endothelial cell-surface from anticoagulant to procoagulant property, leukocyte adhesion, sludge or clot formation. There is a paucity of information on how hemostatic factors, cytokines, lipoprotein(a) (Lp(a)) and endothelin-1 (ET-1), being responsible for ischemic/reperfusion injury, interact with human brain microvessel endothelium (HBEC). There are no data furthermore about the expression of complement proteins of HBEC influenced by cytokines or fibrinolytic factors. Previously we established optimal conditions for culturing HBEC. Cell contraction induced by thrombin, plasmin, miniplasmin was recorded. The reassembly of F-actin was observed after thrombin treatment. ICAM-1 upregulation was measured following TNF-alpha, IL-1-alpha and thrombin incubation. Plasmin and miniplasmin downregulated the ICAM-1 in our cell culture system. Lp(a) modulated the thromboresistant cell-surface by reduction of t-PA and u-PA, but PAI-1 remained unchanged. Lp(a) modulated the ET-1 production by early increasing and late decreasing, in a bimodal manner. The increased secretion of ET-1 by cytokines (TNF-alpha, IL-1-alpha) was reduced in the presence of Lp(a). Gradual increase of complement proteins (factor H, factor B, C4) was induced by cytokines. Plasmin and miniplasmin augmented a rapid increase of C4. Some factors of complex relationship between regulators and modulators of endothelial adhesion molecules have been demonstrated in a human cell culture system prepared from brain microvessel endothelium. A unified concept of sequential events of ischemia/reperfusion in the brain has not yet developed.
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PMID:Human brain microvessel endothelial cell culture as a model system to study vascular factors of ischemic brain. 889 62

The purpose of the study was to determine the factors that affect basal (resting) and poststressor fibrinolytic activity or potential. Variables of interest included cardiovascular fitness (maximal oxygen consumption [Vo2max]), body fat, body mass index (BMI), and lipids/lipoproteins, including lipoprotein(a) [Lp(a)]. Blood was collected from 46 middle-aged men before and after a maximal exercise test. Pearson and Spearman correlation coefficients were calculated to determine associations between the variables of interest and tissue plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1) activities in the basal state and after stimulation with maximal exercise. Multiple regression analyses were also conducted to determine independent predictors of the fibrinolytic variables. Maximal exercise produced significant increases in t-PA activity and decreases in PAI-1 activity. Postexercise t-PA activity was inversely related to basal PAI-1 activity (r = -.34). Vo2max was positively correlated with t-PA activity (basal, r = .39; postexercise, r = .67) and inversely related to PAI-1 activity (basal, r = -.41; postexercise, r = -.42). Body fat was correlated with postexercise t-PA activity (r = -.60) and both basal and postexercise PAI-1 activity (r = .42), but the correlation with basal t-PA activity was not significant (P = .058). Postexercise t-PA activity was positively correlated (r = .37) with high-density lipoprotein cholesterol (HDL-C) and negatively correlated (r = -.42) with low-density lipoprotein cholesterol (LDL-C). Basal PAI-1 activity was negatively correlated with HDL-C (r = -.37), Lp(a) was not correlated with any fibrinolytic variable or fitness. Multiple regression analyses showed that Vo2max was an independent predictor of both basal and postexercise t-PA activity (R2 = .16 and .34, respectively). Triglyceride (TG) levels and Vo2max were significant independent predictors of PAI-1 activity (R2 = .31). In conclusion, cardiovascular fitness was a strong independent predictor of fibrinolytic potential. In addition, poststressor measures of fibrinolytic potential may provide more information about the fibrinolytic system than basal values.
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PMID:Factors affecting fibrinolytic potential: cardiovascular fitness, body composition, and lipoprotein(a). 893 50


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