Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The potency and tests for thrombogenicity were studied prospectively in 7 different (two lots of each brand, A-G) prothrombin complex concentrates (PCC). Human albumine (H) and a factor IX concentrate (I), served as controls. The potency of coagulation factors and inhibitors varied considerably. Two brands (E, F) contained no protein S, additionally one brand contained no protein C. Two preparations exhibited high amidolytic activities, especially towards the thrombin-sensitive chromogenic substrate S-2238, in vitro. These activities could be quenched in part by the addition of hirudin or antithrombin III. The heparin and antithrombin III content of the PCCs was significantly different, and, after addition of antithrombin III an increase of thrombin-antithrombin III complexes in 2 preparations (B, D) was observed in vitro. Additionally, three brands (B, D, F) caused more severe cardio-pulmonary reactions in rabbits, associated with an increase of fibrin split products for brands B and D. We conclude that the use of these preparations in patients, in whom an acquired protein C or S defect, or a hypercoagulable state, can be suspected, cannot be recommended.
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PMID:Comparison of different prothrombin complex concentrates--in vitro and in vivo studies. 214 89

To evaluate the occurrence of hypercoagulability during treatment with L-asparaginase (L-ase), thrombin-antithrombin complex (TAT) and D-dimer levels in plasma were serially measured in 15 consecutive adult patients with acute lymphoblastic leukaemia or lymphoblastic lymphoma who had recently completed a chemotherapy cycle with cytosine arabinoside and methotrexate. The first eight patients (group A) received i.v. L-ase alone (20,000 U/m2 on alternate days over 10 d); the last seven patients (group B) received, in addition to L-ase, bolus injection of antithrombin concentrate (2000 U) on alternate days for a total of six administrations, beginning with the second L-ase infusion. Increased levels of TAT (P less than 0.05) and D-dimer (P less than 0.01) were observed prior to L-ase, possibly related to inflammation and cytolysis secondary to previous chemotherapy. In patients treated with L-ase alone, further elevation of TAT (P less than 0.05) and persistence of increased D-dimer were observed, associated with marked reduction of the anticoagulant activities of protein C, protein S and antithrombin III. At variance, in patients receiving antithrombin III supplementation there was no increase of TAT and a normalization of D-dimer levels occurred during L-ase treatment. In these patients, mean plasma antithrombin III activity was maintained at levels higher than 70% of normal throughout the treatment. The rate of decline of fibrinogen, factor IX, protein C and protein S was unaffected by antithrombin III supplementation, indicating that hypercoagulability has little if any relevance for the reduction of coagulation factors and inhibitors induced by L-ase treatment. The usefulness of antithrombin III concentrates in preventing thromboembolic complications in patients submitted to L-ase treatment remains to be determined.
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PMID:Hypercoagulability during L-asparaginase treatment: the effect of antithrombin III supplementation in vivo. 218 89

We have recently shown that thrombin-stimulated human platelets have specific, saturable receptors for factor IXa, occupancy of which promotes factor X activation (Ahmad, S. S., Rawala-Sheikh, R., and Walsh, P. N. (1989) J. Biol. Chem. 264: 3244-3251, 20012-20016; Rawala-Sheikh, R., Ahmad, S. S., and Walsh, P. N. (1990) Biochemistry 29, 2606-2611). To study the structural requirements for factor IXa binding to platelets, equilibrium binding studies and kinetic studies of factor X activation were carried out with normal factor IXa and with two variant proteins: factor IXaAlabama (FIXaAL; Asp47----Gly substitution) and factor IXaChapel Hill (FIXaCH; Arg145----His substitution). In the absence of factors VIIIa and X, there were 331 binding sites/platelet for FIXaCH (Kdapp = 2.8 nM), and 540 sites/platelet for FIXaAL (Kdapp = 3.2 nM), compared with 540 sites/platelet (Kdapp = 2.3 nM) for normal factor IXa. The addition of factors VIIIa and X, both at saturating concentrations, had no effect on the number of binding sites for either normal or variant factor IXa, resulted in a decrease in the Kd for normal factor IXa to 0.67 nM, resulted in a suboptimal decrease in Kd for FIXaAL (1.4 nM), and had no effect on the Kd for FIXaCH. Kinetic studies of factor X activation at variable factor IXa concentration confirmed these values of Kd in the presence of factors VIIIa and X. Determination of rates of factor X activation at variable substrate concentrations yielded normal values of catalytic efficiency (kcat/Km) for the variant proteins, thereby indicating that the abnormally low rates of factor X activation obtained were a consequence of the low affinity binding of FIXaAL and FIXaCH to thrombin-activated platelets in the presence of factors VIIIa and X. These studies suggest that the presence of Asp47 and the cleavage of factor IX at Arg145-Ala146 are important structural features required for specific, high affinity factor IXa binding to platelets in the presence of factors VIIIa and X.
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PMID:Comparative platelet binding and kinetic studies with normal and variant factor IXa molecules. 224 97

Prothrombin complex concentrates (PCC), licensed for the treatment of hemophilia B, are known to carry a significant risk of thromboembolic complications. Although the reasons for thrombogenicity are not completely understood, several manufacturers have developed purified factor IX concentrates that contain negligible amounts of the other vitamin K-dependent factors. To evaluate whether or not the infusion of such a factor IX concentrate is followed by lesser activation of the hemostatic system than by the infusion of a PCC, we performed a series of coagulation assays on 11 hemophilia B patients before and after the administration of these two types of concentrate using a randomized cross-over design. The levels of prothrombin fragment F1 + 2, a sensitive measure of the in vivo cleavage of prothrombin by factor Xa, was significantly increased in plasma after PCC, but not after factor IX concentrate. Plasma fibrinopeptide A, a sensitive index of the enzymatic activity of thrombin on fibrinogen, also increased significantly after PCC but not after factor IX concentrate. The fragment B beta 15-42, a sensitive index of the enzymatic action of plasmin on fibrin II, did not change after either concentrate. There were also no differences in less sensitive coagulation measurements, such as plasma fibrinogen, antithrombin III, and fibrin monomers, nor in indices of platelet activation, such as beta-thromboglobulin and platelet factor 4. These findings show that the infusion of a purified factor IX concentrate can result in substantially less activation of the coagulation cascade than may be seen with PCC.
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PMID:Thrombin generation is not increased in the blood of hemophilia B patients after the infusion of a purified factor IX concentrate. 226 48

The ability to generate thrombin is decreased and delayed in plasma from the healthy newborn infant compared to the adult. Only 30 to 50% of peak adult thrombin activity can be produced in neonatal plasma. To test whether this observation can be explained by the low neonatal levels of the contact or vitamin K dependent factors, we measured neonatal thrombin generation after raising the concentration of these factors to adult values. We also determined whether the addition of a variety of blood products to neonatal plasma improved thrombin generation. An amidolytic method was used to quantitate intrinsic (APTT) and extrinsic (PT) pathway thrombin generation in defibrinated pooled cord plasma from healthy term infants. Added individually, factors VII, IX, X or the contact factors (CF) failed to alter the rate or the total amount of thrombin generated in neonatal plasma. In contrast, the addition of prothrombin increased the total amount of thrombin generated to above adult values in both the APTT and the PT systems but did not alter the rate of thrombin generation. The rate of thrombin generation in cord plasma shortened after a combination of II, IX, X and CF was added to the APTT system or II, VII and X to the PT system. In both systems, the total amount of thrombin generated was linearly related to the initial prothrombin concentration. Each of fresh frozen plasma, cryoprecipitate, plasma from platelet concentrates, or factor IX concentrate (in amounts used therapeutically) caused an increase in the total amount of thrombin generated which was related to the increase in prothrombin concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thrombin generation in newborn plasma is critically dependent on the concentration of prothrombin. 233 59

Studies of the clotting mechanisms in the plasma of a Burmese python (Python molurus bivittatus) confirm earlier information that both extrinsic and intrinsic pathways of thrombin formation participate in reptilian hemostasis. Plasma fibrinogen was present at a concentration comparable to that in human plasma. Other assays were hampered by the need to use nonreptilian reagents. The activated partial thromboplastin time was shorter than was that of human plasma, thus implying the presence of prothrombin in python plasma; however, this protein could be demonstrated only in trace amounts. Similarly, only small amounts of Hageman factor (factor XII) and antihemophilic factor (factor VIII) were detected, and none of plasma prekallikrein, high-molecular-weight kininogen, and Christmas factor (factor IX). The prothrombin time was slower than that of human plasma. Factor VII was not detected, but both proaccelerin (factor V) and Stuart factor (factor X) were present. Python plasma inhibited bovine thrombin and human plasmin, but it was deficient in fibrinolytic capacity.
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PMID:Notes on clotting in a Burmese python (Python molurus bivittatus). 234 66

Both factor IX and factor IXa were bound to gel filtered platelets in the presence of CaCl2 (2-20 mM) and human alpha-thrombin (0.06-0.2 units/ml) with maximal binding occurring in 10-20 min at 37 degrees C, and rapid reversibility was observed when unlabeled ligands were added in 100-fold molar excess. Competition studies with various coagulation proteins revealed that neither factor XI nor high molecular weight kininogen, at 300-fold molar excess, could compete with 125I-labeled factor IXa for binding sites on thrombin-activated platelets, whereas prothrombin and factor X, in 450-fold molar excess, could displace approximately 15 and 35%, respectively, of bound factor IXa in the absence of added factor VIII. Analysis of saturation binding data in the presence of CaCl2 and thrombin without factors VIII and X indicated the presence of 306 (+/- 57) binding sites per platelet for factor IX (Kd(app) = 2.68 +/- 0.25 nM) and 515 (+/- 39) sites per platelet for factor IXa (Kd = 2.57 +/- 0.14 nM). In the presence of thrombin-activated factor VIII (1-5 units/ml) and factor X (0.15-1.5 microM), the number of sites for factor IX was 316 (+/- 50) with Kd = 2.44 (+/- 0.30) nM and for factor IXa 551 (+/- 48) sites per platelet (Kd = 0.56 +/- 0.05 nM). Studies of competition for bound factor IXa by excess unlabeled factor IX or factor IXa, and direct 125I-labeled factor IXa binding studies in the presence of large molar excesses of factor IX, confirmed the conclusion from these studies that factor IX and factor IXa share approximately 300 low-affinity binding sites per thrombin-activated platelet in the presence of Ca2+ and in the absence of factor VIII and factor X, with an additional 200-250 sites for factor IXa with Kd(app) similar to that for factor IX. The presence of factor VIII and factor X increases by 5-fold the affinity of receptors on thrombin-activated platelets for factor IXa that participate in factor X activation.
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PMID:Comparative interactions of factor IX and factor IXa with human platelets. 249 33

The membrane-binding characteristics of a number of modified vitamin K-dependent proteins and peptides showed a general pattern of structural requirements. The amino-terminal peptides from human prothrombin (residues 1-41 and 1-44, 60:40) bovine factor X (residues 1-44), and bovine factor IX (residues 1-42), showed a general requirement for a free amino-terminal group, an intact disulfide, and the tyrosine homologous to Tyr44 of factor X for membrane binding. Consequently, the peptide from factor IX did not bind to membranes. Any of several modifications of the amino terminus, except reaction with trinitrobenzenesulfonic acid, abolished membrane binding by the factor X and prothrombin peptides. Calcium, but not magnesium, protected the amino terminus from chemical modification. The requirement for a free amino terminus was also shown to be true for intact prothrombin fragment 1, factor X, and factor IX. Although aggregation of the peptide-vesicle complexes greatly complicated accurate estimation of equilibrium binding constants, results with the factor X peptide indicated an affinity that was not greatly different from that of the parent protein. The most striking difference shown by the peptides was a requirement for about 10 times as much calcium as the parent proteins. In a manner similar to the parent proteins, the prothrombin and factor X peptides showed a large calcium-dependent quenching of tryptophan fluorescence. This fluorescence quenching in the peptides also required about 10 times the calcium needed by the parent proteins. Thus, the 1-45 region of the vitamin K-dependent proteins contained most of the membrane-binding structure but lacked component(s) needed for high affinity calcium binding. Protein S that was modified by thrombin cleavage at Arg52 and Arg70 showed approximately the same behavior as the amino-terminal 45-residue peptides. That is, it bound to membranes with overall affinity that was similar to native protein S but required high calcium concentrations. These results suggested that the second disulfide loop of protein S (Cys47-Cys72) and prothrombin (Cys48-Cys61) were involved in high affinity calcium binding. Since factor X lacks a homologous disulfide loop, an alternative structure must serve a similar function. A striking property of protein S was dissociation from membranes by high calcium. While this property was shared by all the vitamin K-dependent proteins, protein S showed this most dramatically and supported protein-membrane binding by calcium bridging.
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PMID:Protein structural requirements and properties of membrane binding by gamma-carboxyglutamic acid-containing plasma proteins and peptides. 258 18

Factor VIIa (F. VIIa)/tissue factor (TF) function was examined using purified human TF reconstituted into mixed phospholipid vesicles and TF expressed on cultured human umbilical vein endothelial cells (HUVEC) treated with thrombin. In reaction mixtures containing either type of TF, F. VIIa, 10 nM, either 3H-factor X or 3H-factor IX, 88 nM, and Ca2+, 5 mM, F. VIIa/TF activated factor X (F. X) several fold faster than it activated factor IX (F. IX). Adding heparin, 1 U/ml, increased rates of activation of both substrates and F. X remained the preferred substrate. Adding plasma at concentrations of 5% or above inhibited factor VIIa/TF catalytic activity. Inhibition was shown to require F. Xa as a cofactor, was prevented by antibodies to extrinsic pathway inhibitor (EPI), and was reversible by decalcification. Thus, with factor VIIa/TF formed with both types of TF, EPI appeared responsible for inhibition induced by plasma. Our data indicate that functional properties of factor VIIa/TF as delineated in reaction mixtures made with purified TF reconstituted into mixed phospholipid vesicles also hold for factor VIIa/TF activity on the surface of cultured HUVEC.
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PMID:Functional properties of factor VIIa/tissue factor formed with purified tissue factor and with tissue factor expressed on cultured endothelial cells. 261 54

We have characterized a highly purified (HP) factor IX concentrate intended for therapy of hemophilia B. The product has been prepared from pooled human plasma using a large-scale procedure combining three conventional chromatographic steps based on DEAE ion exchange and affinity on immobilized heparin. The specific activity of the product was 119 +/- 10 IU factor IX:c/mg protein (n = 15), corresponding to a purification factor of about 9,000. The concentrate was free of the vitamin K-dependent clotting factors II, VII and X and of proteins C and S. Most of the contaminants found in factor IX complex concentrate (PCC) were absent in this new product. High-molecular-weight kininogen, factors VIII, XI, XII or prekallikrein were not detected. There were no activated factors, such as factors IXa, and Xa, no thrombin and no phospholipids. Only two contaminants could be detected: C4 and inter-alpha-trypsin inhibitor (about 0.8 and 1.2 mg/1,000 IU factor IX:c, respectively). The purity of the product, as compared to PCC, was confirmed by sodium dodecylsulfate polyacrylamide gel electrophoresis, cellulose acetate electrophoresis, Grabar-Williams immunoelectrophoresis, and bidimensional immunoelectrophoresis. Thrombogenicity tests in rabbits revealed that the HP factor IX tested had a lower thrombogenic power than the PCC tested. The concentrate has been subjected to a 0.3% tri(n-butyl) phosphate-1% Tween 80 treatment for 6h at 25 degrees C during its production to reduce or eliminate the risk of transmission of plasma-borne lipid-enveloped viruses. These conditions inactivated more than 3.8 log10 of vesicular stomatitis virus and more than 4.3 log10 of sindbis virus within 1 and 2 h of treatment, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Properties of a highly purified human plasma factor IX:c therapeutic concentrate prepared by conventional chromatography. 261 59


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