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

Recombinant tissue factor pathway inhibitor (rTFPI) has been expressed in four mammalian expression systems using human SK hepatoma, mouse C127, baby hamster kidney (BHK), and Chinese hamster ovary (CHO) cells as hosts. On sodium dodecyl sulfate polyacrylamide gel electrophoresis, the immunoaffinity purified rTFPIs all show broad bands and the mean molecular weight of SK hepatoma and C127 rTFPIs (M(r) approximately 38,000) appear larger than those of BHK and CHO rTFPIs (M(r) approximately 35,000). All these proteins inhibit factor Xa and appear to bind factor Xa with 1:1 stoichiometry. The ability of these proteins to inhibit tissue factor-induced coagulation in plasma was examined using a prothrombin time assay. The relative activities of SK rTFPI:C127 rTFPI:BHK rTFPI:CHO rTFPI were found to be 28:15:2.1:1. By Western blot using specific antisera against the amino- and carboxy-termini of TFPI as probes, it is found that all the immunoaffinity purified rTFPIs possess approximately equal amounts of the amino terminus, but the C127 and BHK rTFPIs are deficient in carboxy terminus and the CHO rTFPI is essentially devoid of this region of the protein. Mono S chromatography allowed separation of the full-length and the truncated molecules with high and low anticoagulant activities, respectively. The above results suggest that proteolysis of the carboxy terminus of TFPI occurs to different extent when TFPI is expressed in different cells and that the carboxy terminal region of the TFPI molecule is important for the inhibition of tissue factor-induced coagulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of recombinant tissue factor pathway inhibitors expressed in human SK hepatoma, mouse C127, baby hamster kidney, and Chinese hamster ovary cells. 132 78

The activation of factor X at the surface of endothelial cells was investigated under controlled flow conditions. A method is described for preparing polyethylene capillaries whose inner walls are covered with a confluent layer of human umbilical vein endothelial cells. To obtain a stable and unperturbed layer of endothelial cells it was essential to pre-perfuse the endothelialized capillaries with medium for about 18 hours. At this stage no tissue factor activity could be detected, but when the seeded cells were perfused with medium containing tumor necrosis factor (TNF) a maximum steady-state rate of factor Xa production (16 fmol factor Xa/min/cm2) was observed within 8 hours. Further experiments were performed with endothelial cells incubated for 4 hours with TNF. Factor Xa was produced at a rate of 7 fmol factor Xa/min/cm2 on perfusion of the capillaries with factor X (100 nmol/L) and factor VII (0.1 U/mL) at a shear rate of 34 s-1. The extracellular matrix preparations of these cells produced factor Xa at a 20-fold higher rate (150 fmol factor Xa/min/cm2). In both cases factor Xa formation was dependent on the presence of factor VII and was completely inhibited when the perfusate also contained 5 nmol/L recombinant tissue factor pathway inhibitor (rTFPI). Pre-perfusion with factor Xa-TFPI complex in the absence of factor VIIa caused a much lesser inhibitory effect, suggesting that TFPI-mediated neutralization of endothelial cell and matrix tissue factor activity requires the presence of factor VIIa in addition to the presence of factor Xa.
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PMID:Activation of factor X and its regulation by tissue factor pathway inhibitor in small-diameter capillaries lined with human endothelial cells. 158 38

Heparinization of blood inhibited the generation of fibrinopeptide A (FPA) after addition of thromboplastin (TP). Heparinization was more effective when performed in vivo than in vitro; the amounts of FPA at 60 s incubation were 8% and 32%, respectively, of control values in nonheparinized blood. When monospecific, neutralizing IgG against extrinsic pathway inhibitor (anti-EPI) were added to heparinized blood prior to TP, the amount of FPA increased to 65%. When monospecific IgG blocking antithrombin (anti-AT) was used, the amount of FPA increased to values similar to those in nonheparinized blood. When anti-AT and anti-EPI were both added to heparinized blood, FPA was generated about 25% faster than in normal blood. These results show that EPI contributes significantly to the anticoagulant effect of heparin in human blood.
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PMID:Heparin requires both antithrombin and extrinsic pathway inhibitor for its anticoagulant effect in human blood. 179 51

EPI released to the blood after injection of heparin, as well as recombinant EPI (r-EPI) added to normal plasma prolonged both the dilute Tissue Thromboplastin (TTP) time and the Activated Partial Thromboplastin Time (APTT). It is known that EPI inhibits both factor Xa and the factor VIIa-TTP complex. The prolongation of the APTT by EPI reflects only its inhibition of factor Xa. Addition of anti-EPI immunoglobulins (IgG) to normal plasma shortened the dilute TTP time 7.3 seconds (p less than 0.001) and the APTT by 0.7 seconds (p less than 0.001). In postheparin plasma, with polybrene added to neutralize the direct effect of heparin, the TTP was about 26 seconds longer and the APTT about 9 seconds longer than baseline values. These effects were completely abolished by anti-EPI IgG, as were the effects of r-EPI. The EPI activity (chromogenic substrate-assay) of this postheparin plasma was 1.7 U/ml. The EPI activity of the plasma spiked with r-EPI to obtain comparable effects on clotting were much higher; about 22 U/ml for the TTP effect and about 5 U/ml for the APTT effect. The findings indicate that r-EPI is considerably less potent than postheparin EPI as inhibitor of plasma coagulation. This is most striking when coagulation is initiated through the extrinsic pathway. Possibly, the anticoagulant effect of r-EPI mainly depends on its Xa inhibitory effect.
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PMID:Extrinsic pathway inhibitor (EPI) released to the blood by heparin is a more powerful coagulation inhibitor than is recombinant EPI. 192 55

TF mediated initiation of coagulation appears to play a critical role in normal hemostasis and probably pathologic thrombosis as well. Although teleological considerations would seem to suggest that a specific regulator of this process should exist, and although the presence in plasma of such an inhibitor was documented many years ago, it was not until the past five years that the inhibitor was characterized and its mechanism of action defined. LACI produces factor Xa-dependent feedback initiation of the VIIa/TF catalytic complex. The mechanism of this feedback inhibition is novel. First, LACI, a multi-headed protease inhibitor, binds factor Xa, a product of VIIa/TF catalysis, at one of its inhibitory domains. The Xa-LACI complex, possibly acting as a pseudosubstrate, then is able to bind to VIIa/TF in an appropriate conformation such that a second inhibitory domain of LACI is positioned to interact with factor VIIa in the VIIa/TF complex. Whether such a unique means of eliciting feedback inhibition in a protease cascade is repeated in nature is unknown. The existence of LACI appears to help explain the clinical need for both "extrinsic" and "intrinsic" coagulation pathways. In addition, data to the present are consistent with the notion that, in normal hemostasis at least, TF is responsible for an initial burst of factor Xa generation which provides sufficient thrombin to induce the aggregation of platelets and the activation of the critical coagulation cofactors factor V and factor VIII. Ultimate and persistent hemostasis, however, appears to require the continued production of additional factor Xa through the action of factor IXa and factor VIII. The fact that patients with factor XI deficiency suffers a variable but usually mild bleeding diathesis suggests that under certain conditions the initial burst of factor IXa formed through the action of VIIa/TF is insufficient and supplemental factor IXa generated by factor XIa is needed for normal hemostasis. The mechanism by which this factor XIa is generated in vivo, however, has not been determined. We stress that the predicted in vivo role of LACI is simply that--a prediction based on its known in vitro properties. Documentation of its physiologic importance remains to be provided and is an area of active research. Further, although significant progress has been made over the past few years in the characterization of LACI, many questions remain unanswered. For example: What is the mechanism for LACI's association with lipoproteins in plasma? What function, if any, does the third Kunitz-type protease inhibitor domain in LACI serve? (ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The lipoprotein-associated coagulation inhibitor. 200 33

A sensitive assay is described for the measurement of rabbit plasma EPI activity in experimental studies of induced hypercoagulable states in this species. It is based upon the ability of a dilution of rabbit plasma to inhibit human factor VIIa/rabbit brain tissue factor (TF) catalyzed activation of human factor IX (tritiated activation peptide release assay). Addition of 3H-factor IX to the reaction mixture is delayed for 45 minutes to allow full inhibition by EPI/factor Xa complex before the residual catalytic activity of factor VIIa/TF is measured. Although the diluted rabbit plasma test sample contains both EPI and factor X, supplemental factor X is added to the reaction mixture to assure that only EPI content of the test sample affects the assay result. However, the final concentration of factor X in the reaction mixture is critical. Too high a concentration of factor X diminishes the sensitivity of the assay. The reason for this phenomenon, which was observed with both human and rabbit factor X preparations, is unknown.
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PMID:A sensitive, accurate assay for extrinsic pathway inhibitor (EPI) activity in rabbit plasma: paradoxical effect of excess exogenous factor X. 208 Apr 94

The risk of cardiovascular complications is reported to be several times higher in severe exercise than in daily activity. EPI-mediated inhibition of factor VIIa/thromboplastin enzymatic activity is believed to be an important modulator of blood coagulation during hemostasis. The plasma concentration of EPI, corrected for changes in plasma volume, was determined in healthy male subjects prior to, immediately after and at various time intervals after strenuous exercise of different duration. A slight, but significant decrease in EPI (7.5 +/- 2.8%, p less than 0.03) was found after a short term run (1.7 km), whereas no significant change was seen after a middle term run (4.8 km). In contrast, we observed a marked increase in EPI after a long term run (20.3 +/- 6.9%, p less than 0.03) and in a second group of athletes participating in the Norwegian championship of 30 km cross country skiing (39.9 +/- 10.3%, p less than 0.02). A peak value was reached 2 h after the run, and after that the curve started to approach baseline values. The rise in EPI might reflect a significant release of EPI from the endothelium that is greater than eventually any consumption. Another explanation for this enhancement in EPI might be that the increase in lipoprotein lipase activity after physical exercise causes a rise in the availability of EPI since EPI is known to be associated with lipoproteins in the circulation. It is hypothesized that mobilization of EPI during extensive physical exercise may suppress activation of the clotting system.
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PMID:Physical exercise enhances plasma levels of extrinsic pathway inhibitor (EPI). 227 17

The plasma inhibitor(s) of factor VIIa-tissue thromboplastin cooperates with factor Xa. This "Extrinsic Pathway Inhibitor" has been quantitated with a sensitive chromogenic substrate assay. Gel filtration of plasma separates 3 EPI peaks. Postoperatively, both EPI and the other coagulation inhibitors decrease. Unlike the other inhibitors, EPI is usually normal in severe liver cirrhosis. In disseminated intravascular coagulation, EPI levels vary considerably.
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PMID:The inhibitor of F VIIa in plasma measured with a sensitive chromogenic substrate assay: comparison with antithrombin, protein C and heparin cofactor II in a clinical material. 246 15

We have extended earlier studies (Blood 66:204, 1985) of a mechanism of inhibition of factor VIIa/tissue factor activity that requires a plasma component (called herein extrinsic pathway inhibitor or EPI) and factor Xa. An activated peptide release assay using 3H-factor IX as a substrate was used to evaluate inhibition. Increasing the tissue factor concentration from 20% to 40% (vol/vol) overcame the inhibitory mechanism in normal plasma but not in factor VII-deficient plasma supplemented with a low concentration of factor VII. A second wave of factor IX activation obtained by a second addition of tissue factor to plasma with a normal factor VII concentration was almost abolished by supplementing the reaction mixture with additional EPI and factor X. Factor Xa's active site was necessary for factor Xa's contribution to inhibition, but preliminary incubation of factor Xa with EPI in the absence of factor VIIa/tissue factor complex or of factor VIIa/tissue factor complex in the absence of EPI did not replace the need for the simultaneous presence of factor Xa, factor VIIa/tissue factor, calcium, and EPI in an inhibitory reaction mixture. Inhibition of factor VIIa/tissue factor was reversible; both tissue factor and factor VIIa activity could be recovered from a dissociated, inhibited factor VIIa/tissue factor complex. EPI appeared to bind to a factor VIIa/tissue factor complex formed in the presence of factor Xa but not to a factor VIIa/tissue factor complex formed in the absence of factor Xa.
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PMID:Studies of a mechanism inhibiting the initiation of the extrinsic pathway of coagulation. 349 26

We report a procedure to purify partially from plasma (approximately 1200 fold) the factor Xa-dependent inhibitor of factor VIIa/tissue factor (i.e., the extrinsic pathway inhibitor or EPI) and describe some of its properties. An assay for EPI was developed based upon inhibition of factor VIIa/tissue factor induced release of activation peptide from tritiated factor IX by a test sample in the presence but not in the absence of factor Xa. Approximately 50% of the total EPI activity in plasma was found in the lipoprotein fraction, which was used as the starting material for purification. Total lipoproteins (isolated by density ultracentrifugation) were delipidated and the urea soluble apoproteins gel filtered on Sephacryl S-200. The inhibitory activity co-eluted with the major protein peak, which primarily contained apoprotein A-I. Inhibitory activity was separated from apoprotein A-I by anion-exchange chromatography on Q-Sepharose and was further resolved from higher and lower molecular weight contaminating proteins by polypreparative disc gel electrophoresis in the presence of 0.1% SDS. Functional inhibitory activity eluted from the polypreparative disc gel in two discrete pools of different molecular weights (approximately 34,000 and approximately 43,000 D). Apoprotein E was identified by immunological techniques as the major protein present in both of these pools. However, incubation with a monospecific polyclonal antibody to human apoprotein E did not decrease EPI activity either in plasma or in the partially purified polypreparative disc gel fractions. A rabbit antiserum was prepared against material from the polypreparative disc gel. The IgG fraction neutralized approximately 95% of the total inhibitory activity present in plasma. Therefore, EPI in the lipoprotein fraction and in the non-lipoprotein fraction of plasma appears to be antigenically similar.
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PMID:Partial purification and characterization of extrinsic pathway inhibitor (the factor Xa-dependent plasma inhibitor of factor VIIa/tissue factor). 350 Nov 73


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