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:3.4.21.6 (thromboplastin)
13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Factor IXTaipei9 is a factor IX variant from a hemophilia B patient with reduced levels of circulating protein molecules (cross-reacting material reduced, CRM). This variant contained a glycine (Gly) to glutamic acid (Glu) substitution at the 207th codon of mature factor IX. The functional consequences of the Gly-->Glu mutation in factor IXTaipei9 (IXG207E) were characterized in this study. Plasma-derived IXG207E exhibited a mobility similar to that of normal factor IX on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Its specific activity was estimated to be 3.5% that of the purified normal factor IX in a one-stage partial thromboplastin time assay (aPTT). Cleavage of factor IXG207E by factor XIa or factor VIIa-tissue factor complex appeared to be normal. When the calcium-dependent conformational change was examined by monitoring quenching of intrinsic fluorescence, both normal factor IX and IXG207E exhibited equivalent intrinsic fluorescence quenching. Activated factor IXG207E (IXaG207E) also binds antithrombin III equally as well as normal factor IXa. However, aberrant binding of the active site probe p-aminobenzamidine was observed for factor XIa-activated factor IXG207E, indicating that the active site pocket of the heavy chain of factor IXaG207E was abnormal. Moreover, the rate of activation of factor X by factor IXaG207E, as measured in a purified system using chromogenic substrates, was estimated to be 1/40 of that of normal factor IXa. A computer-modeled heavy-chain structure of factor IXa predicts a hydrophobic environment surrounding Gly-207 and this Gly forms a hydrogen bound to the active site serine-365. The molecular mechanism of the Gly-->Glu mutation in factor IXTaipei9 might result in the alteration of the microenvironment of the active site pocket which renders the active site serine-365 inaccessible to its substrate.
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PMID:Characterization of a factor IX variant with a glycine207 to glutamic acid mutation. 791 15

From one patient with systemic lupus erythematosus retaining lupus anticoagulant (LAC), we established 6 Epstein-Barr virus-transformed human B cell clones secreting antibodies that affect the coagulation assay. Two and 4 of the clones secreted IgM and IgG antibodies, respectively. Although all 6 antibodies displayed anticardiolipin activity in ELISA, the increased binding activity in the presence of beta 2-glycoprotein I was limited only to the IgG antibodies. Five antibodies (two IgM and three IgG) had LAC activity which prolonged the activated partial thromboplastin time (APTT), whereas one IgG antibody shortened the APTT. Two of the IgG producing clones had an identical Ig heavy chain gene rearrangement despite their opposite effects on the coagulation assay. These results demonstrated the heterogeneity of LACs and diversity among their physiological functions.
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PMID:Heterogeneity and diversity of IgM and IgG lupus anticoagulants in an individual with systemic lupus erythematosus. 794 29

A patient without a history of bleeding or thromboembolism presented with an activated partial thromboplastin time (aPTT) of 55.1 s (normal 24-38 s). Incubation of the patient plasma with an equal volume of normal plasma failed to correct the aPTT, suggesting the presence of an inhibitor. The MRVVT (modified Russell Viper venom time) was normal, and the anti-cardiolipin antibody titres were not elevated, indicating that the presence of a lupus anticoagulant was unlikely. Plasma prekallikrein (PK) measured by a coagulant assay (2 U/dl) was very low, but PK was in the low normal range (approximately 65%) when measured by an enzymatic assay (amidolytic) or by an antigenic assay (ELISA). The purified patient IgG reacted with purified PK, the heavy chain, and the 28 kD fragment of the heavy chain, indicating that it contained an autoantibody to PK. The purified IgG did not directly inhibit the amidolytic activity of kallikrein, but it did inhibit the activation of PK to kallikrein by activated factor XII. Activation of the contact system by dextran sulphate, as reflected by the cleavage of HK on a Western blot, was inhibited when the patient IgG was added to pooled normal plasma. The antibody appears to be oligoclonal with IgG1 being most abundant, followed by IgG4. This report appears to be the first of a spontaneously occurring antibody to prekallikrein.
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PMID:An autoantibody to human plasma prekallikrein blocks activation of the contact system. 794 59

Factor VIIIa is a non-covalent heterotrimer of A1, A2, and A3-C1-C2 subunits. Previously, we speculated that the central portion of the A2 subunit, in and around the activated protein C-sensitive bond at Arg562-Gly (Fay, P. J., Smudzin, T.M., and Walker, F.J. (1991) J. Biol. Chem. 266, 20139-20145), is important for macromolecular interactions within the factor Xase enzyme complex. A peptide corresponding to factor VIII residues 558-565, SVDQRGNQ and designated FVIII558-565, was chemically synthesized and inhibited factor Xa generation in a purified system with an apparent KI of 105 microM. Tryptic cleavage of FVIII558-565 eliminated its inhibitory activity, whereas a scrambled sequence version of the peptide possessed < 30% the inhibitory activity of the native version. Overlapping peptides FVIII556-564 and FVIII561-569 were also inhibitory and confirmed the importance of residues in and around the scissile bond for functional factor Xase. Kinetic analysis revealed that peptide-mediated inhibition was non-competitive with respect to factor X. However, increasing factor IXa concentration overcame the observed inhibition. Furthermore, the peptide inhibited the factor IXa-dependent enhancement of factor VIIIa reconstituted from isolated A1/A3-C1-C2 dimer plus A2 subunit. Isolated factor VIII heavy chain (contiguous A1-A2 domains) was cleaved at Arg336 by an equimolar concentration of factor IXa in a reaction that was phospholipid-independent. No proteolysis of the isolated A1 subunit was observed in a similar reaction. These results indicate that the A2 subunit sequence delineated by residues 558-565 contributes to the interaction of cofactor with protease and that this interaction is essential for intrinsic factor Xase activity. Furthermore, that this peptide blocks both factor Xase activity and the capacity of factor IXa to stabilize the labile factor VIIIa heterotrimer suggest that this latter property is of physiologic significance.
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PMID:Factor VIIIa A2 subunit residues 558-565 represent a factor IXa interactive site. 805 Nov 50

A protease purified from the venom of the elapid snake Naja naja oxiana converts human blood coagulation factor Va into a molecule (factor VaNO) with greatly reduced cofactor activity. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate revealed that the venom protease cleaved a small peptide from the heavy chain of factor Va and reduced the apparent M(r) from 105,000 to 101,000. This peptide was isolated by high performance liquid chromatography on a reversed-phase column. Amino acid sequence analysis of the peptide indicated that the venom enzyme cleaved the peptide bond between His682 and Asp683, thus removing 27 amino acids from the carboxyl-terminal part of the heavy chain. The cofactor activities of factors Va and VaNO were compared by measuring their abilities to support factor Xa-catalyzed prothrombin activation in the presence of phospholipids and calcium ions. Both factor Va molecules stimulated the binding of factor Xa to negatively charged phospholipids. However, the amounts of factor Va required for half-maximal incorporation of factor Xa into the membrane-bound factor Xa-Va complex were much lower for native factor Va (0.25 nM) than for factor VaNO (2.01 nM). At saturating concentrations of factor Va or factor VaNO the kcat values for prothrombin activation were 114 s-1 for factor Va and 128 s-1 for factor VaNO. The Km values for prothrombin determined under these conditions were 0.24 and 0.83 microM for prothrombinase complexes with native factor Va and factor VaNO, respectively. Direct binding studies revealed that factors Va and VaNO bind with equal affinity to phospholipids. These data indicate that factor VaNO is impaired in its ability to interact with factor Xa and prothrombin. Together with the structural data this implies that the carboxyl-terminal Asp683-Arg709 domain of the heavy chain is required for optimal interaction of factor Va with factor Xa and prothrombin.
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PMID:Functional properties of human factor Va lacking the Asp683-Arg709 domain of the heavy chain. 805 Nov 66

Protein C is a vitamin K-dependent serine protease zymogen that upon activation inhibits the coagulation cascade by inactivating factors Va and VIIIa. In an attempt to improve the anticoagulant activity of activated protein C (APC), we have prepared a mutant of protein C in mammalian cells in which Glu at position 192 (chymotrypsin numbering system) has been replaced with Gln (PC E192Q). Our strategy is based on the observation that the same substitution in thrombin improves the catalytic activity toward natural and synthetic substrates that contain Asp residues at P3 and P3'. Since factor Va also has an Asp at position P3 in the APC cleavage site of the factor Va heavy chain, we hypothesized that APC E192Q would inactivate factor Va more rapidly than wild type APC. The mutant inactivated factor Va approximately 2-3-fold faster than wild type. In plasma the mutant exhibited slightly less anticoagulant activity than wild type enzyme. Further characterization revealed that APC E192Q is inhibited 280 times faster than APC by alpha 1-antitrypsin (K2 = 2.8 x 10(3) M-1S-1 versus 10 M-1 S-1), and unlike APC, APC E192Q is inhibited by antithrombin III in the presence of heparin (K2 = 1.17 x 10(3) M-1 S-1) M-1 S-1) and absence of heparin (K2 = 57 M-1 S-1). Ca2+ increased K2 more than 4-fold with or without heparin. Unlike wild type APC, APC E192Q was effectively inhibited by pancreatic trypsin inhibitor (Ki = 10.6 +/- 0.26 nM) and tissue factor pathway inhibitor (58 +/- 5 nM). Like factor Xa, APC E192Q rapidly processed factor IX to factor IX alpha. These observations suggest that even though Glu at position 192 is not an optimal residue for catalyzing factor Va inactivation, it is an evolutionary adaptation to slow inhibition by plasma protease inhibitors.
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PMID:Conversion of glutamic acid 192 to glutamine in activated protein C changes the substrate specificity and increases reactivity toward macromolecular inhibitors. 810 82

Platelet-derived coagulation factor Va is the primary secreted substrate for a thrombin-stimulation-dependent platelet kinase. Human platelet factor Va, consisting of a molecular weight (M(r)) 105,000 heavy chain and an M(r) 74,000 light chain, incorporates phosphate in at least two sites on the light chain. Phosphorylated factor Va represents 50% of the secreted protein-associated phosphate. This modification occurs exclusively at serine residues and is inhibited by H-7 and staurosporine, which suggests a protein kinase C (PKC)-mediated event. Purified plasma factor V and Va are phosphorylated in the light chain region by rat brain PKC. The activity of platelet factor Va in prothrombinase on platelets is not altered when phosphorylation is inhibited by staurosporine. Plasma-derived factor Va in the presence of thrombin stimulated platelets is phosphorylated on both the heavy chain and the light chain. Plasma factor V and factor Va heavy chain phosphorylation occurs without light chain phosphorylation in the presence of added 32P gamma-ATP and non-stimulated or collagen-stimulated platelets or casein kinase II. This differential phosphorylation of factor Va heavy and light chain shows two independent platelet kinase activities that act on factor Va. The heavy chain factor V/Va kinase activity is similar to casein kinase II, which we have demonstrated previously to act on factor Va and accelerate activated protein C inactivation of the cofactor. Our data show platelet-dependent phosphorylation of platelet and plasma factor V and Va resulting in significant covalent modifications of the cofactor. These modifications may play a role in directing the extracellular distribution of factor V and factor Va.
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PMID:Platelet coagulation factor Va: the major secretory platelet phosphoprotein. 816 84

In order to elucidate the role of protein C (PC) in the rat, we expressed, purified, and characterized recombinant rat PC. The purified recombinant rat PC was 70-90% two-chain (41 kDa heavy chain; 22 and 23 kDa light chain) and 10-30% single-chain (61 kDa). Amino acid analysis confirmed the presence of 10 moles of gamma-carboxyglutamic acid residues per mol of protein. For comparison, plasma rat PC was purified from a barium citrate precipitate using similar method. Plasma rat PC was a two-chain form (41 kDa heavy chain; 22 kDa light chain) with no detectable single-chain nor 23 kDa light chain. For determination of the in vitro secreted species, primary cultured rat hepatocytes were incubated for 6 h with methionine-free MEM containing vitamin K1, aprotinin, and [35S]methionine. The supernatant was immunoprecipitated and analyzed by SDS-PAGE followed by autoradiography. Approximately 90% of the PC radioactivity migrated as a two-chain molecule. These results indicate that rat PC is secreted mainly as a two-chain molecule from the liver. PROTAC-activated forms of recombinant rat PC, plasma rat PC, and plasma human PC hydrolyzed the S-2366 chromogenic substrate at the same rate. Recombinant rat PC was also activated by the thrombin-thrombomodulin complex at a rate similar to plasma rat PC. The anticoagulant activities of the three activated PCs were examined in rat plasma. Both recombinant and plasma rat PC prolonged the activated partial thromboplastin time in a dose-dependent manner, but plasma human PC was less effective.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Recombinant rat protein C: comparative studies of structure, function and synthesis with plasma protein C. 816 47

The interactions of the isolated heavy and light chains of factor Va with factor Xa were evaluated using active-site-modified factor Xa [(carboxytetramethyl)rhodamine-Glu-Gly- Arg-factor Xa (ctr-EGR-Xa)]. The Kd for the factor Va heavy-chain interaction with ctr-EGR-Xa was 60 microM. A series of monoclonal antibodies directed against bovine factor Va were tested for their ability to inhibit thrombin formation in an assay using the fluorescent thrombin inhibitor dansylarginine N,N-(3-ethyl-1,5-pentanediyl)amide (DAPA). Monoclonal antibody alpha BFV-4, which recognizes the light chain of the cofactor, was found to inhibit the formation of thrombin. Similarly, monoclonal antibody alpha BFV-5, which is directed against the heavy chain of the cofactor, was found to inhibit thrombin formation. In contrast, monoclonal antibody alpha BFV-1, also directed against the heavy chain of the cofactor, did not inhibit thrombin generation by the prothrombinase complex. Monoclonal antibodies alpha BFV-4 and alpha BFV-5 inhibited the interaction of active-site-modified radiolabeled factor Xa (125I-Xa-EGR) with factor Va bound to PC/PS-coated microtiter wells, whereas nonimmune mouse IgG did not have any effect on the 125I-Xa-EGR.membrane-bound factor Va interaction. The antibodies effect upon the phospholipid-independent interaction between the cofactor and ctr-EGR-Xa was evaluated by analytical ultracentrifugation. Both alpha BFV-4 and alpha BFV-5 inhibited the phospholipid-independent interaction between factor Va and ctr-EGR-Xa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contribution of the heavy and light chains of factor Va to the interaction with factor Xa. 820 89

Factor VIII and factor V function as cofactors in the blood coagulation cascade to accelerate the rate of activation of factor X and prothrombin, respectively. Both cofactors require proteolytic activation by either activated factor X or thrombin for functional activity. Human factor VIII and factor V expressed in mammalian cells are both modified by posttranslational sulfation of tyrosine residues. In the present study, the posttranslational addition of sulfate in factor V expressed in transfected Chinese hamster ovary (CHO) cells was demonstrated by [35S]sulfate incorporation into the thrombin-cleaved 94-kDa heavy chain and the 150-kDa activation peptide. The presence of tyrosine sulfate in recombinant factor V was confirmed by barium hydroxide hydrolysis and two-dimensional thin-layer electrophoresis. The importance of sulfation for factor V secretion and activity was evaluated by characterizing factor V expressed in Chinese hamster ovary cells grown in the presence of sodium chlorate, a potent inhibitor of posttranslational sulfation in intact cells. Increasing concentrations of sodium chlorate inhibited the incorporation of [35S]sulfate into factor V but did not inhibit the synthesis or secretion of factor V. However, the specific activity of factor V secreted in the presence of sodium chlorate was reduced 5-fold. The reduced activity was attributed to (1) slower cleavage and activation by thrombin and (2) a reduced intrinsic activity of factor Va. In contrast, sulfation of factor V did not affect the rate of activation mediated by factor Xa. These results show that sulfation of factor V is required for efficient thrombin activation but not for activation by factor Xa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Posttranslational sulfation of factor V is required for efficient thrombin cleavage and activation and for full procoagulant activity. 820 29


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