Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated coagulation system activation following estrogen treatment in 29 healthy postmenopausal women. Study participants received conjugated estrogens at 0.625 and 1.25 mg per day, and placebo for 3-month periods in a randomized crossover protocol. Blood samples were obtained on two consecutive days at the end of each treatment period for immunoassays of F1+2 and fibrinopeptide A (FPA), markers of factor Xa action on prothrombin and thrombin action on fibrinogen in vivo, respectively. Treatment with estrogens at a dose of 0.625 or 1.25 mg resulted in significant increases in mean F1+2 levels of 40 and 98%, respectively, and in mean FPA levels of 37 and 71%, respectively. The measurements of F1+2 were significantly higher in women receiving 1.25 mg of estrogen than 0.625 mg. We also observed significant declines in the levels of antithrombin III and total protein S antigen. Immunologic levels of protein C increased modestly at only the 1.25 mg estrogen dose level. These data indicate that low doses of oral estrogens (< or = 1.25 mg per day) frequently increase the amount of thrombin generated in vivo. Our observations may help to explain the increased thrombotic risk that has been observed with higher doses of this medication (> or = 2.5 mg).
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PMID:Coagulation activation following estrogen administration to postmenopausal women. 133 98

Most of the linkage of atherosclerosis and thrombosis with estrogens is epidemiologic in origin. Although the effects of estrogens on the mechanisms of hemostasis are wide ranging, many are benign; only a few may account for thrombus formation. Platelet function tests have provided extensive but contradictory data, and interpretation is limited because it is uncertain whether a rise in one or more of these parameters is a primary or secondary effect. The most consistent effects of estrogens on coagulation proteins are elevations of fibrinogen; factors II, VII, IX, X, and XII; protein C; and plasminogen. Although these elevations have been attributed to the estrogenic component in oral contraceptives, the progestogen concentration may also influence these increases. Among other coagulation proteins studied, the following are unaffected by oral contraceptive use: factors V, VIII, and XI; prekallikrein; and high-molecular-weight kininogen. In contrast, protein S values are decreased. The plasma concentration of plasmin inhibitor is unchanged, whereas both proteinase inhibitor and macroglobulin are significantly increased by oral contraceptive use. Cl esterase inhibitor is decreased in women taking oral contraceptives and correlates with the increase in Hageman factor. Antithrombin III is one plasma inhibitor for which a decrease in quantity and activity have been associated with a thrombotic tendency in humans. Although data on estrogen-associated changes in the quantity of antithrombin III have been conflicting, the ability of plasma to inhibit factor Xa is significantly reduced in a dose-dependent manner among pre- and postmenopausal estrogen users.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Estrogen-associated thromboembolism. 134 94

Recent epidemiologic studies found that there is a strong association of hemostatic factors with ischemic heart disease. The Atherosclerosis Risk in Communities (ARIC) Intraindividual Variability (IIV) Study was conducted to estimate the various components of variation in hemostasis factors measured in the ARIC Study and to estimate the measures of repeatability of these factors. A total of 39 subjects (16 men, 23 women) were studied. Each had blood collected three times, with a 1- to 2-week interval between each visit. The contributions of between-person variability, within-person (biologic) variability, and processing and assay variability were estimated. Then the reliability coefficient R was estimated as the proportion of total variance accounted for by between-person variance. The reliability coefficient can be interpreted as the correlation between measures made at repeat visits. Among the various analytes, the reliability coefficients were quite high for activated partial thromboplastin time and plasma factor VIII (R = 0.92, 0.86, respectively). Low repeatability was obtained for antithrombin III activity and protein C (R = 0.42, 0.56, respectively). The lack of repeatability for these variables derives mostly from the processing (field center and laboratory) variation. Other analytes--fibrinogen, plasma factor VII, and von Willebrand factor--were intermediate in repeatability. In comparing the analyte-specific high-level to low-level groups, no substantial difference of within-person plus method coefficient of variation between the two groups was found for any analyte except for factor VIII, whereas the corresponding variance components for most analytes were higher for the higher analyte level. Reliability coefficients from this ARIC IIV study are generally higher than those found in other studies, and this is related to the relative variations in populations studied and to the time between measurements.
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PMID:Short-term intraindividual variability in hemostasis factors. The ARIC Study. Atherosclerosis Risk in Communities Intraindividual Variability Study. 134 24

This report describes the development of microplate-based blood coagulation assays. The assays require a kinetic microplate reader to follow changes in absorbance at 405 nm caused by the coagulating plasma. Procedures for performing prothrombin time and activated partial thromboplastin time tests are described with intra- and inter-assay variability of a few percentage points. The prothrombin time of normal plasma was 64.5 +/- 3.6 s, and the activated partial thromboplastin time was 69.8 +/- 3.2 s. Clotting times were prolonged when normal plasma was mixed with plasmas deficient in particular coagulation factors, as expected. These assays take advantage of the microplate format (small sample size and multiple simultaneous assays) and can be customized for specific purposes, such as quantifying purified factor IX or assessing protein C activity in plasma.
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PMID:Microplate coagulation assays. 138 75

Effects of human placental calphobindin II (CPB-II) on the protein C activation and prothrombin activation on the cell surface of cultured calf pulmonary arterial endothelial cells have been investigated. CPB-II inhibited thrombin generation by factor Xa bound to the surface of the cultured endothelial cells in a dose-dependent manner. The amount (IC50) of CPB-II causing the inhibition at 50% was estimated to be approximately 10 nM. CPB-II was found to be ineffective, however, in the protein C activation by thrombin-thrombomodulin (TM) complex on the cell surface. Assay using purified TM revealed that CPB-II was able to exhibit the inhibitory potency for the protein C activation exclusively in the reconstituted system with negatively charged phospholipids. These results suggest that the neutral phospholipids participate in the protein C activation through the thrombin-TM system on the endothelial cell surface. The ability of CPB-II to inhibit procoagulant activity without affecting anticoagulant activity on the cultured endothelial cells is probably related to its potential physiological function, while it is able to exert various degrees of influence upon these activities in blood coagulation by interacting with negatively charged phospholipids in vitro.
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PMID:Effects of calphobindin II (annexin VI) on procoagulant and anticoagulant activities of cultured endothelial cells. 139 5

Dynamics of protein C concentration was studied in rat blood after administration of thrombin and thromboplastin. Administration of 0.5 ml 1% thromboplastin caused fast decrease of protein C concentration, down to 60% of the initial level, within 3 min, while activity of factor V reached the minimal rate (30%) within 5 min. Content of protein C returned to the initial level in blood within 2-2.5 hrs and of factor V--within 6 hrs. After administration of thrombin 3 NIH in content of protein C was decreased to 91.3% whereas heparin was released only after injection of 6 NIH. The data obtained suggest that the protein C system responded earlier to occurrence of thrombin in circulation as compared with the neurohumoral regulators of the anticoagulation system; the protein C system is one of primary mechanisms of the antithrombosis defence.
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PMID:[Participation of protein C in reaction of the anti-coagulant system to intravenous administration of thrombin and thromboplastin to rats]. 144 Dec 96

The Atherosclerosis Risk in Communities Study measured hemostatic variables in nearly 16,000 men and women, aged 45 to 64 years, from four US communities. This report, based on the first 12,681 participants, presents distributions of fibrinogen concentration, factor VII activity, factor VIII activity, von Willebrand factor antigen, protein C antigen, antithrombin III activity, and activated partial thromboplastin time. Many of the hemostatic variables differed between blacks and whites, and by sex and age. For example, compared to whites, blacks had higher mean values of fibrinogen, factor VIII, von Willebrand factor, and antithrombin III, and lower mean values of protein C. Some seasonal fluctuations in hemostatic variables were noted; most notably, mean values of factor VII were lowest and protein C were highest in subjects examined in the summer compared to those examined during the other seasons. These results provide population-based reference values on blacks and whites for those interested in the relation of hemostasis to disease.
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PMID:Distributions of hemostatic variables in blacks and whites: population reference values from the Atherosclerosis Risk in Communities (ARIC) Study. 145 14

beta 2-glycoprotein I (beta 2-GP I) is a plasma protein with a high affinity for negatively charged surfaces. In vitro this protein shows a variety of anticoagulant properties (inhibition of contact activation and platelet dependent prothrombinase activity). Therefore we studied the possibility that a hereditary beta 2-GP I deficiency is a risk factor for (familial) thrombophilia. Plasma beta 2-GP I levels were measured in healthy volunteers and four different groups of patients with (familial) thrombophilia. In these 5 groups the prevalence of beta 2-GP I deficiency (i.e. beta 2-GP I antigen less than 77%) was found to be very similar (6.8-12.5%) and statistically not significantly different. This observation suggests that beta 2-GP I deficiency in itself is not a risk factor for thrombosis. One thrombophilic patient was found to be homozygous deficient of beta 2-GP I. The transmission of the defect in his family followed autosomal inheritance. One of his brothers was also homozygous deficient and at the age of 35 years still free of thromboembolic complications. The possibility that beta 2-GP I deficiency could be an additional risk factor for the development of thrombophilia in families with protein C deficiency was evaluated in a panel of 70 unrelated patients with clinically dominant protein C deficiency. The prevalence of beta 2-GP I deficiency in this group of patients (12.8%) was very similar to that in other groups of normals and patients. Moreover, there was no difference in the frequency of beta 2-GP I deficiency in symptomatic and asymptomatic protein C deficient patients.
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PMID:Beta 2-glycoprotein I deficiency and the risk of thrombosis. 150 4

Protein C is a natural anticoagulant glycoprotein which prevents intravascular clot formation. Protein C functions as an anticoagulant when converted to an active serine protease (activated protein C). Activated protein C is formed at the site of the endothelial injury in response to blood clotting and helps limit the size of blood clots. We tested the hypothesis that by temporarily blocking the activation of intrinsic protein C, we could reduce subsequent surgical blood loss from a microvascular surgical wound. The formation of activated protein C was blocked systemically by intravenous administration of a monoclonal antibody (HPC4) which binds to circulating protein C and prevents its conversion to activated protein C. Domestic pigs were blindly pretreated with intravenous HPC4 or saline then underwent partial-thickness skin graft harvesting to create a reproducible microvascular wound. Blood loss was measured from each wound and the hemostatic effect of protein C blockade was compared to intravenous saline alone as well as to topical thrombin or thromboplastin. We found that blocking the activation of protein C significantly (P = 0.005) reduces surgical blood loss in this model by 27% compared to saline control animals. Intravenous HPC4 performed equally as well as topical thrombin or tissue thromboplastin. In addition, topical thrombin acted synergistically with HPC4 to reduce blood loss an additional 44% (P = 0.01) as compared to intravenous HPC4 or topical thromboplastin alone. Autopsies performed 1 week after HPC4 treatment showed no evidence of systemic thrombosis resulting from the protein C blockade.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Blockade of protein C activation reduces microvascular surgical blood loss. 152 31

Smooth muscle cells (SMCs) in the rat carotid artery leave the quiescent state and proliferate after balloon catheter injury. The precise signals responsible for this SMC mitogenesis need to be elucidated. Although platelet-derived growth factor (PDGF), a potent SMC mitogen, is released from activated platelets, damaged endothelium, and macrophages, it cannot be solely responsible for this proliferation. In search of other SMC growth factors, we have examined several proteins of the coagulation cascade. At nanomolar concentrations, factors X, Xa, and protein S promote cultured rat aortic SMC mitosis. In contrast, factor IX is only weakly mitogenic, whereas factor VII and protein C fail to stimulate SMC division. Protein S, the most mitogenic of these coagulation cascade factors, stimulates DNA synthesis in cultured SMCs with a time course similar to that of PDGF-AA and without the delay observed for transforming growth factor beta. Antistasin and tick anticoagulant peptide, two specific factor Xa inhibitors, inhibit SMC mitogenesis due to Xa and protein S. Coagulation factors that possess mitogenic activity may contribute to intimal SMC proliferation after vascular injury as a result of angioplasty or vascular compromise during atherogenesis.
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PMID:Coagulation factors X, Xa, and protein S as potent mitogens of cultured aortic smooth muscle cells. 153 56


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