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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 the effect of cell surface glycosaminoglycans (GAGs) on the inactivation of factor VIIa-tissue factor activity by antithrombin III (ATIII) on a human bladder carcinoma (J82) cell line and an ovarian carcinoma (OC-2008) cell line, two tumor cell lines which constitutively synthesize and express high levels of cell surface tissue factor. We observed that ATIII inactivated factor VIIa-tissue factor more readily on OC-2008 cells than on J82 cells in the absence of added heparin. Likewise,
factor Xa
was more effectively inactivated on OC-2008 cells than on J82 cells. The ability of ATIII to inactivate factor VIIa-tissue factor activity on the OC-2008 cell was reduced following treatment of the cells with heparinase. This indicated that heparin-like GAGs were expressed on the OC-2008 cell surface, and that these GAGs were important for the inhibition of factor VIIa-tissue factor activity by ATIII. In addition, we demonstrated that the ability of ATIII to inactivate factor VIIa-tissue factor activity was markedly reduced following treatment of cells with calcium ionophore (A23187). However, the effect of cell surface GAGs on the inhibition of
factor Xa
by ATIII remained even after treatment of OC-2008 cells with A23187. In contrast to the manner of inhibition by ATIII/heparin,
TFPI
effectively inactivated factor VIIa-tissue factor activity on the cell surfaces even after induced physical damage or disruption of the cell by treatment with A23187. Our collective findings suggest that GAGs on cell surfaces play an important role in regulating factor VIIa-tissue factor activity by ATIII under normal conditions, or in the early phases of physical damage or destruction of the cell. However,
TFPI
may play a more important role than ATIII in regulating the activity of factor VIIa-tissue factor in a vascular trauma site following extensive cell injury.
...
PMID:The effect of cell surface glycosaminoglycans (GAGs) on the inactivation of factor VIIa--tissue factor activity by antithrombin III. 971 70
Tissue factor:factor VIIa induced activation of blood coagulation is inhibited by the complex between
factor Xa
and tissue factor pathway inhibitor (
factor Xa
:
TFPI
). We recently reported that phospholipid-bound
factor Xa
reduces the high binding affinity of
factor Xa
:
TFPI
for negatively charged phospholipids by a partial degradation of
TFPI
(17). The present study was undertaken to elucidate the
factor Xa
cleavage sites in
TFPI
and to delineate the consequences of this proteolysis with respect to the inhibitory activity of
factor Xa
:
TFPI
. We found that phospholipid-bound
factor Xa
cleaves in
TFPI
the peptide bonds between Lys86-Thr87 and Argl99-Ala200. Interestingly, Arg199 is the P1 residue of the third Kunitz-type protease inhibitor domain. The fast cleavage of the Arg199-Ala200 bond results in a 50-70% reduction of the anticoagulant activity of
factor Xa
:
TFPI
, as determined with a dilute tissue factor assay, but is not associated with a diminished inhibitory activity of
factor Xa
:
TFPI
towards TF:factor VIIa catalyzed activation of factor X. On the other hand, the slower cleavage of the Lys86-Thr87 peptide bond was associated with both a diminished anticoagulant and anti-TF:factor VIIa activity. Dissociation of
factor Xa
from the cleaved
TFPI
was not observed. These data provide evidence for a dual role of
factor Xa
since it is the essential cofactor in the
TFPI
-controlled regulation of TF-dependent coagulation as well as a catalyst of the inactivation of
TFPI
.
...
PMID:Factor Xa cleavage of tissue factor pathway inhibitor is associated with loss of anticoagulant activity. 971 52
Tissue factor pathway inhibitors (
TFPI
and TFPI-2) are Kunitz domain-type serine protease inhibitors which inhibit factor VIIa/tissue factor (VIIa/TF) complexes in a
factor Xa
-dependent manner. The VIIa/TF and Xa inhibitory activity has been localized to the first two Kunitz domains, respectively. Unlike
TFPI
, TFPI-2 has been reported to exhibit significant Xa-independent VIIa/TF inhibitory activity, perhaps due to an arginine at the P1 residue in the first Kunitz domain of TFPI-2 as opposed to a lysine at the comparable residue in
TFPI
. Two domain
TFPI
variants, differing in the first Kunitz domain but containing the second Kunitz domain of
TFPI
, were constructed and secreted by Saccharomyces cerevisiae in order to test the possibility that a
TFPI
first Kunitz domain with a P1 lysine to arginine change or a hybrid containing the TFPI-2 first Kunitz domain may represent more potent VIIa/TF inhibitors. When yeast supernatants were analyzed for specific activity in the Xa-dependent inhibition of VIIa/TF, neither variant was as active as the truncated
TFPI
.
...
PMID:Activity of secreted Kunitz domain 1 variants of tissue factor pathway inhibitor. 979 74
The event that initiates the extrinsic pathway of blood coagulation is the association of coagulation factor VIIa (VIIa) with its cell-bound receptor, tissue factor (TF), exposed to blood circulation following tissue injury and/or vascular damage. The natural inhibitor of the TF.VIIa complex is the first Kunitz domain of tissue factor pathway inhibitor (
TFPI
-K1). The structure of TF. VIIa reversibly inhibited with a potent (Ki=0.4 nM) bovine pancreatic trypsin inhibitor (BPTI) mutant (5L15), a homolog of
TFPI
-K1, has been determined at 2.1 A resolution. When bound to TF, the four domain VIIa molecule assumes an extended conformation with its light chain wrapping around the framework of the two domain TF cofactor. The 5L15 inhibitor associates with the active site of VIIa similar to trypsin-bound BPTI, but makes several unique interactions near the perimeter of the site that are not observed in the latter. Most of the interactions are polar and involve mutated positions of 5L15. Of the eight rationally engineered mutations distinguishing 5L15 from BPTI, seven are involved in productive interactions stabilizing the enzyme-inhibitor association with four contributing contacts unique to the VIIa.5L15 complex. Two additional unique interactions are due to distinguishing residues in the VIIa sequence: a salt bridge between Arg20 of 5L15 and Asp60 of an insertion loop of VIIa, and a hydrogen bond between Tyr34O of the inhibitor and Lys192NZ of the enzyme. These interactions were used further to model binding of
TFPI
-K1 to VIIa and
TFPI
-K2 to
factor Xa
, the principal activation product of TF.VIIa. The structure of the ternary protein complex identifies the determinants important for binding within and near the active site of VIIa, and provides cogent information for addressing the manner in which substrates of VIIa are bound and hydrolyzed in blood coagulation. It should also provide guidance in structure-aided drug design for the discovery of potent and selective small molecule VIIa inhibitors.
...
PMID:Structure of extracellular tissue factor complexed with factor VIIa inhibited with a BPTI mutant. 992 87
The main cause of acute coronary syndrome may be recurrent thrombosis, which is initiated by the activation of the extrinsic coagulation pathway. Tissue factor (TF) pathway inhibitor (
TFPI
) efficiently inhibits an early step in this pathway by the formation of a complex with factor VIIa, TF, and
factor Xa
. We determined whether local
TFPI
gene transfer can inhibit thrombosis in an injured artery without inducing systemic side effects. Balloon-injured rabbit carotid arteries were infected with an adenoviral vector that expressed either human
TFPI
(AdCATFPI) or bacterial beta-galactosidase (AdCALacZ). Two to 6 days after gene transfer, thrombosis was induced by the production of constant stenosis of the artery, and blood flow was measured continuously with an electromagnetic flow probe. A cyclic flow variation, which is thought to reflect the recurrent formation and dislodgment of mural thrombi, was observed in all AdCALacZ-infected arteries as well as in saline-infused arteries. In contrast, no cyclic flow variation was detectable in AdCATFPI-transfected arteries, even in the presence of epinephrine (1 microg. kg-1. min-1 infusion). Prothrombin time, activated partial
thromboplastin
time, and the ex vivo platelet aggregation induced by either adenosine diphosphate or collagen were unaltered in AdCATFPI-infected rabbits. We found that in vivo
TFPI
gene transfer into an injured artery completely inhibits the recurrent thrombosis induced by shear stress even in the presence of catecholamine, without affecting systemic coagulation status. Adenovirus-mediated local expression of
TFPI
may have the potential for the treatment of human thrombosis.
...
PMID:Adenovirus-mediated local expression of human tissue factor pathway inhibitor eliminates shear stress-induced recurrent thrombosis in the injured carotid artery of the rabbit. 1038 97
Recombinant factor VII with residue 217 (chymotrypsinogen numbering system) converted to alanine (VIIQ217A), glutamic acid (VIIQ217E), or glycine (VIIQ217G) was characterized. In a prothrombin time assay, VIIQ217E demonstrated 100%, VIIQ217A 15%, and VIIQ217G <1% clotting activities relative to wild-type VII. Binding of VIIQ217A and VIIQ217G to TF was comparable to that of wild-type VII to TF. All the variants were readily activated by
factor Xa
. Autoactivation in the presence of TF was efficient with VIIQ217E, slow with VIIQ217A, but undetected with VIIQ217G. Relative to wild-type VII added at the same concentration, VIIQ217E had no effect on the PT of normal plasma, whereas VIIQ217A slightly and VIIQ217G dramatically prolonged the clotting time in a dose-dependent manner. Activation of macromolecular substrates paralleled this functional inhibition. The k(cat)/K(M) values for factor X activation in the presence of TF were 2.4 for VIIaQ217E as compared to 1.9 (M(-)(1) s(-)(1) x 10(7)) for wild-type VIIa, 1.57 for VIIaQ217A, and 0.05 with VIIaQ217G. In comparison to wild-type VIIa, VIIaQ217E cleaved the chromogenic substrate S2765 (Z-D-Arg-Gly-Arg-pNA) with 10-fold higher k(cat). Analysis of the interactions with the inhibitors
TFPI
and antithrombin III demonstrated that VIIaQ217A but not VIIaQ217E or VIIaQ217G was inhibited less efficiently by
TFPI
either in the presence or in the absence of
factor Xa
. In contrast, VIIaQ217A association with antithrombin III in the presence of heparin was the fastest among the variants with a second-order rate constant of 2.31 (x10(3) M(-)(1) min(-)(1)), as compared to 0.47 and 1.47 for VIIaQ217E and wild-type VIIa, respectively. Our results demonstrate that residue Q(217) is important in regulating substrate and, more importantly, inhibitor recognition by VIIa.
...
PMID:Engineered recombinant factor VII Q217 variants with altered inhibitor specificities. 1046 Jan 49
The physiological inhibitor of tissue factor (TF).factor VIIa (FVIIa), full-length tissue factor pathway inhibitor (
TFPI
(FL)) in complex with
factor Xa
(FXa), has a high affinity for anionic phospholipid membranes. The role of anionic phospholipids in the inhibition of TF.FVIIa-catalyzed FX activation was investigated. FXa generation at a rotating disc coated with TF embedded in a membrane composed of pure phosphatidylcholine (TF.PC) or 25% phosphatidylserine and 75% phosphatidylcholine (TF.PSPC) was measured in the presence of preformed complexes of FXa.
TFPI
(FL) or FXa.
TFPI
(1-161) (
TFPI
lacking the third Kunitz domain and C terminus). At TF.PC, FXa.
TFPI
(FL) and FXa.
TFPI
(1-161) showed similar rate constants of inhibition (0.07 x 10(8) M(-1) s(-1) and 0.1 x 10(8) M(-1) s(-1), respectively). With phosphatidylserine present, the rate constant of inhibition for FXa.
TFPI
(FL) increased 3-fold compared with a 9-fold increase in the rate constant for FXa.
TFPI
(1-161). Incubation of TF.PSPC with FXa.
TFPI
(FL) in the absence of FVIIa followed by depletion of solution FXa.
TFPI
(FL) showed that FXa.
TFPI
(FL) remained bound at the membrane and pursued its inhibitory activity. This was not observed with FXa.
TFPI
(1-161) or at TF.PC membranes. These data suggest that the membrane-bound pool of FXa.
TFPI
(FL) may be of physiological importance in an on-site regulation of TF.FVIIa activity.
...
PMID:Inhibition of tissue factor-factor VIIa-catalyzed factor X activation by factor Xa-tissue factor pathway inhibitor. A rotating disc study on the effect of phospholipid membrane composition. 1049 77
Factor VII circulates as a single chain inactive zymogen (10 nmol/L) and a trace ( approximately 10-100 pmol/L) circulates as the 2-chain form, factor VIIa. Factor VII and factor VIIa were studied in a coagulation model using plasma concentrations of purified coagulation factors with reactions initiated with relipidated tissue factor (TF). Factor VII (10 nmol/L) extended the lag phase of thrombin generation initiated by 100 pmol/L factor VIIa and low TF. With the coagulation inhibitors
TFPI
and AT-III present, factor VII both extended the lag phase of the reaction and depressed the rate of thrombin generation. The inhibition of
factor Xa
generation by factor VII is consistent with its competition with factor VIIa for TF. Thrombin generation with TF concentrations >100 pmol/L was not inhibited by factor VII. At low tissue factor concentrations (<25 pmol/L) thrombin generation becomes sensitive to the absence of factor VIII. In the absence of factor VIII, factor VII significantly inhibits TF-initiated thrombin generation by 100 pmol/L factor VIIa. In this hemophilia A model, approximately 2 nmol/L factor VIIa is needed to overcome the inhibition of physiologic (10 nmol/L) factor VII. At 10 nmol/L, factor VIIa provided a thrombin generation response in the hemophilia model (0% factor VIII, 10 nmol/L factor VII) equivalent to that observed with normal plasma, (100% factor VIII, 10 nmol/L factor VII, 100 pmol/L factor VIIa). These results suggest that the therapeutic efficacy of factor VIIa in the medical treatment of hemophiliacs with inhibitors is, in part, based on overcoming the factor VII inhibitory effect. (Blood. 2000;95:1330-1335)
...
PMID:Inhibition of thrombin generation by the zymogen factor VII: implications for the treatment of hemophilia A by factor VIIa. 1066 7
A randomised, prospective, double-blind trial was performed, to compare the safety and efficacy of a new low-molecular-weight heparin (LMWH) Bemiparin and standard unfractionated heparin (UFH), for the prophylaxis of postoperative venous thromboembolism. 300 patients scheduled to undergo elective hip arthroplasty were included. The principal outcome measures were the incidence of thromboembolic events and bleeding complications. 149 patients received 3,500 anti-Xa IU of bemiparin plus a placebo injection daily and 149 patients received 5,000 IU of UFH twice a day. The two groups were similar with respect to factors likely to affect the risk of developing post-operative venous thromboembolism (VTE) and risk of bleeding events. During the post-operative period, 34 patients developed VTE complications; 9 (7.2%) in the bemiparin group and 25 (18.7%) in the UFH group. VTE in the two groups was statistically significant (OR of 2.96; 95% CI 1.32-6.62 and p = 0.01). There were no significant differences in the frequency of bleeding complications: major bleeding requiring discontinuation of prophylaxis, (OR 1.21; 95% CI 0.36-4.05; p = 1.00), the measured median operative blood loss (p = 0.77) or the median postoperative drain loss (p = 0.97), and the number of patients who developed wound haematoma (OR 0.87; 95% CI 0.31-2.46; p = 1.00). A comparison of coagulation parameters on the preoperative day with post-operative day 2 +/- 1, day 6 +/- 1 and day of discharge showed a significantly higher AT concentration, anti-
factor Xa
activity and
TFPI
levels in the bemiparin group when compared with UFH. This study demonstrates that bemiparin, in a single daily subcutaneous dose of 3,500 anti-Xa IU in high risk patients undergoing hip arthroplasty is more effective than UFH administered twice daily at a dose of 5,000 IU in the prevention of postoperative VTE. Both agents are equally safe.
...
PMID:A comparative double-blind, randomised trial of a new second generation LMWH (bemiparin) and UFH in the prevention of post-operative venous thromboembolism. The Bemiparin Assessment group. 1078 Mar 10
Unfractionated heparin has enjoyed the sole anticoagulant status for almost half a century. Besides an effective anticoagulant, this drug has been used in several additional indications. Despite the development of newer anticoagulant drugs, unfractionated heparin has remained the drug of choice for surgical anticoagulation and interventional cardiology. In the area of hematology and transfusion medicine, unfractionated heparin has continued to play a major role as an anticoagulant drug. The development of low-molecular-weight heparins (LMWHs) represents a refinement for the use of heparin. These drugs represent a class of depolymerized heparin derivatives with a distinct pharmacologic profile that is largely determined by their composition. These drugs produce their major effects by combining with antithrombin and exerting antithrombin and anti-Xa inhibition. In addition, the LMWHs also increase non-antithrombin-dependent effects such as
TFPI
release, modulation of adhesion molecules, and release of profibrinolytic and antithrombotic mediators from the blood vessels. The cumulative effects of each of the different LMWHs differ and each product exhibits a distinct profile. Initially these agents were developed for the prophylaxis of postsurgical deep-vein thrombosis. However, at this time these drugs are used not only for prophylaxis, but also for the treatment of thrombotic disorders of both the venous and arterial type. To a large extent, the LMWHs have replaced unfractionated heparin in most subcutaneous indications. With the use of these refined heparins, outpatient anticoagulant management has gone through a dramatic evolution. For the first time, patients with thrombotic disorders can be treated in an outpatient setting. Thus, the introduction of LMWHs represents a major advance in improving the use of heparin. The development of the oral formulation of heparin and LMWHs also provides an important area that may impact on the use of heparin and LMWHs. The increased awareness of heparin-induced thrombocytopenia has necessitated the development of newer methods to identify patients at risk of developing this catastrophic syndrome. Furthermore, a strong interest has developed in alternate drugs or the management of patients with this syndrome. Despite the development of alternate anticoagulants that are mostly antithrombin derived (hirudins, hirulog), these agents have failed to provide similar clinical outcome as heparin in many indications. However, antithrombin drugs are useful in the anticoagulant management of heparin-compromised patients. The FDA has approved a recombinant hirudin (Refludan) and a synthetic antithrombin agent, argatroban (Novastan), for this indication. The development of synthetic heparin pentasaccharide and anti-Xa agents may have an impact on the prophylaxis of thrombotic disorders. However, these monotherapeutic agents do not mimic the polytherapeutic actions of heparin. Furthermore, these agents do not inhibit thrombin. Heparin and LMWHs are capable of inhibiting not only
factor Xa
and thrombin, but other serine proteases in the coagulation network. The only way the newer drugs can mimic the actions of heparin is in combination modalities (polytherapeutic approaches). It has been suggested that newer antiplatelet drugs also exhibit anticoagulant actions. While these drugs may exhibit weak effects on thrombin generation, none of the currently available antiplatelet drugs exhibit any degree of antithrombin actions. It is likely that heparins synergize or augment the effects of the new antiplatelet drugs. Currently, combination approaches are used to anticoagulate patients in these studies. The dosage of heparins has been arbitrarily reduced. This may not be an optimal procedure. Additional clinical studies are needed to study these combinations where the alterations of these drugs are compared. Such combinations will require newer monitoring approaches. The development of oral thrombin agents, GP IIb
...
PMID:An update on heparins at the beginning of the new millennium. 1101 2
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