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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)
The
prothrombinase
complex, which catalyzes the conversion of prothrombin to thrombin, consists of activated Factor X, Factor Va, a membrane surface and Ca2+. To examine the structures that support Factor Va binding to Factor X, we used in vitro mutagenesis to construct a chimeric molecule that includes regions of
Factor IX
and Factor X. This chimera (IXGla,E1XE2,SP) was prepared from cDNA encoding the second epidermal growth factor (EGF) and serine protease domains of Factor X linked downstream from the cDNA encoding the signal peptide, propeptide, Gla domain, and first EGF domain of
Factor IX
. The cDNAs encoding the
Factor IX
/X chimera and wild-type Factor X were each expressed in Chinese hamster ovary cells and the secreted proteins purified by affinity chromatography using polyclonal anti-Factor X antibodies. The chimera migrated as a single major band corresponding to a molecular weight of 68,000. By Western blotting, the chimeric protein stained with both polyclonal anti-Factor X and anti-
Factor IX
antibodies. gamma-Carboxyglutamic acid analysis demonstrated near complete carboxylation of both the wild-type Factor X and the
Factor IX
/X chimera. Compared with Factor X, the rate of zymogen activation of the
Factor IX
/X chimera was about 50% that of Factor X when activated by Factor IXa, Factor VIIIa, phospholipid, and Ca2+. The enzyme form of the
Factor IX
/X chimera, activated
Factor IX
/X, generated using the coagulant protein of Russell's viper venom, expressed full amidolytic activity compared with Factor Xa. The activated
Factor IX
/X chimera had about 14% of the activity of Factor Xa when employed in a
prothrombinase
assay; this activity reached 100% with increasing concentrations of Factor Va. A binding assay was employed to test the ability of the active site-inactivated
Factor IX
/Xa chimera to inhibit the binding of Factor Xa to the Factor Va-phospholipid complex, thus inhibiting the activation of prothrombin to thrombin. In this assay the active site-inactivated form of the chimera competed with Factor Xa completely but with decreased affinity for the Factor Va-phospholipid complex. These data indicate that the second EGF domain and the serine protease domain of Factor Xa are sufficient to interact with Factor Va. The
Factor IX
/X chimera is a good substrate for the tenase complex; the defective enzymatic activity of the activated
Factor IX
/X chimera can be accounted for by its decreased affinity for Factor Va relative to Factor Xa.
...
PMID:Construction, expression, and characterization of a chimera of factor IX and factor X. The role of the second epidermal growth factor domain and serine protease domain in factor Va binding. 163 19
Factor IX
is a vitamin K-dependent zymogen of a serine protease. The NH2-terminal half of the molecule consists of a Ca(2+)-binding gamma-carboxyglutamic acid (Gla)-containing module and two modules homologous to the epidermal growth factor (EGF) precursor. To elucidate the role of these non-catalytic modules of factor IXa beta in factor X activation, we have isolated and characterized fragments of bovine factor IX, containing one or both of the EGF-like modules as well as these modules linked to the Gla module. The fragments were used as inhibitors of factor IXa beta-mediated factor X activation in a plasma clotting system and in systems with purified components of the Xase complex. Fragments consisting of either the two EGF-like modules of factor IX linked together or the NH2-terminal EGF-like module alone were found to inhibit
factor Xa
generation both in the presence and absence of the cofactor, factor VIIIa. Moreover, a fragment consisting of the corresponding modules of factor X had a similar effect. We therefore propose that factor IXa beta and factor X interact directly through their EGF-like modules on or in the vicinity of a phospholipid surface. We have also found that the isolated Gla module of factor IX inhibits the formation of
factor Xa
both in the presence and absence of phospholipid but not in the absence of factor VIIIa. Our results are compatible with a model of the Xase complex, in which both the serine protease part and the Gla module of factor IXa beta interact with factor VIIIa.
...
PMID:Effects of gamma-carboxyglutamic acid and epidermal growth factor-like modules of factor IX on factor X activation. Studies using proteolytic fragments of bovine factor IX. 173 81
The activation of human coagulation factor IX by human tissue factor.factor VIIa.PCPS.Ca2+ (TF.VIIa.PCPS.Ca2+) and
factor Xa
.PCPS.Ca2+ enzyme complexes was investigated. Reactions were performed in a highly purified system consisting of isolated human plasma proteins and recombinant human tissue factor with synthetic phospholipid vesicles (PCPS: 75% phosphatidylcholine (PC), 25% phosphatidylserine (PS)).
Factor IX
activation was evaluated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, [3H]factor IX activation peptide assay, colorimetric substrate thiobenzyl benzyloxycarbonyl-L-lysinate (Z-Lys-SBzl) hydrolysis, and specific incorporation of a fluorescent peptidyl chloromethyl ketone.
Factor IX
activation by the TF.VIIa.PCPS.Ca2+ enzyme complex was observed to proceed through the obligate non-enzymatic intermediate species factor IX alpha. The simultaneous activation of human coagulation factors IX and X by the TF.VIIa.PCPS.Ca2+ enzyme complex were investigated. When factors IX and X were presented to the TF.VIIa complex, at equal concentrations, it was observed that the rate of factor IX activation remained unchanged while the rate of factor X activation slowed by 45%. When the proteolytic cleavage products of this reaction were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, it was observed that the intermediate species factor IX alpha was generated more rapidly when factor X was present in the reaction mixture. When factor IX was treated with
factor Xa
.PCPS in the presence of Ca2+, it was observed that factor IX was rapidly converted to factor IX alpha. The activation of factor IX alpha by the TF.VIIa.PCPS.Ca2+ complex was evaluated, and it was observed that factor IX alpha was activated more rapidly by the TF.VIIa.PCPS.Ca2+ complex than was factor IX itself. These data suggest that factors IX and X, when presented to the TF.VIIa.PCPS.Ca2+ enzyme complex, are both rapidly activated and that
factor Xa
, which is generated in the initial stages of the extrinsic pathway, participates in the first proteolytic step in the activation of factor IX, the generation of factor IX alpha.
...
PMID:Cooperative activation of human factor IX by the human extrinsic pathway of blood coagulation. 204 Jun 36
Factor IX
is a multidomain protein essential for hemostasis. We describe a mutation in a patient affecting the first epidermal growth factor (EGF)-like domain of the protein. All exons and the promoter region of the gene were amplified by the polymerase chain reaction method, and sequenced. Only a single mutation (C----G), that predicts the substitution of Pro55 by Ala in the first EGF domain was found in the patient's gene. This mutation leads to new restriction sites for four enzymes. One new site (Nsi) was tested in the amplified exon IV fragment and was shown to provide a rapid and reliable marker for carrier detection and prenatal diagnosis in the affected family. The factor IX protein, termed factor IXHollywood (IXHW), was isolated to homogeneity from the patient's plasma. As compared with normal factor IX (IXN), IXHW contained the same amount of gamma-carboxy glutamic acid but twice the amount of beta-OH aspartic acid. Both IXHW and IXN contained no detectable free -SH groups. Further, IXHW could be readily cleaved to yield a factor IXa-like molecule by factor Xla/Ca2+. However, IXaHW (compared with IXaN)
activated factor X
approximately twofold slower in the presence of Ca2+ and phospholipid (PL), and 8- to 12-fold slower in the presence of Ca2+, PL, and factor VIIIa. Additionally, IXaHW had only approximately 10% of the activity of IXaN in an aPTT assay. In agreement with the nuclear magnetic resonance-derived structure of EGF, the Chou-Fasman algorithm strongly predicted a beta turn involving residues Asn-Pro55-Cys-Leu in IXN. Replacement of Pro55 by Ala gave a fourfold decrease in the beta turn probability for this peptide, suggesting a change(s) in the secondary structure in the EGF domain of IXHW. Since this domain of IXN is thought to have one high-affinity Ca2+ binding site and may be involved in PL and/or factor VIIIa binding, the localized secondary structural changes in IXHW could lead to distortion of the binding site(s) for the cofactor(s) and, thus, a dysfunctional molecule.
...
PMID:Factor IXHollywood: substitution of Pro55 by Ala in the first epidermal growth factor-like domain. 216 23
Factor IX
is the zymogen of the serine protease factor IXa involved in blood coagulation. In addition to a catalytic domain homologous to the chymotrypsin family, it has Ca2+, phospholipid, and factor VIIIa binding regions needed for full biologic activity. We isolated a nonfunctional factor IX protein designated factor IXEagle Rock (IXER) from a patient with hemophilia B. The variant protein is indistinguishable from normal factor IX (IXN) in its migration on sodium dodecyl sulfate-gel electrophoresis, isoelectric point in urea, carbohydrate content and distribution, number of gamma-carboxyglutamic acid residues, and beta-OH aspartic acid content, and in its binding to an anti-IXN monoclonal antibody which has been shown previously to inhibit the interaction of factor VIIIa with factor IXaN. Further, IXER is cleaved to yield a factor IXa-like molecule by factor XIa/Ca2+ at a rate similar to that observed for IXN. However, in contrast to IXaN, IXaER does not bind to antithrombin-III (specific inhibitor of IXaN) and does not catalyze the activation of factor X (substrate) to
factor Xa
. To identify the mutation in IXER, all eight exons of IXN and IXER gene were amplified by the polymerase chain reaction technique and cloned. A single point mutation (G----T) which results in the replacement of Val for Gly363 in the catalytic domain of IXER was identified. Gly363 in factor IXa corresponds to the universally conserved Gly193 in the active site sequence of the chymotrypsin serine protease family. X-ray crystallographic data in the literature demonstrate a critical role of this Gly in stabilizing the active conformation of chymotrypsin/trypsin in two major ways: 1) in the formation of the substrate binding site; and 2) in the development of the oxyanion hole. Our computer structural data support a concept that the Gly363----Val change prevents the development of the active site conformation in factor IXa such that the substrate binding site and the oxyanion hole are not formed in the mutated enzyme.
...
PMID:Experimental and theoretical evidence supporting the role of Gly363 in blood coagulation factor IXa (Gly193 in chymotrypsin) for proper activation of the proenzyme. 230 34
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.
...
PMID:Notes on clotting in a Burmese python (Python molurus bivittatus). 234 66
The genetic basis of a mild form of haemophilia Bm has been investigated. The patient under investigation has a mild bleeding disorder and has never experienced spontaneous bleeds.
Factor IX
coagulant activity (FIX:C) was 0.15 units/ml and factor IX antigen (FIX:Ag) 1.32 units/ml. The prothrombin time performed with an ox brain
thromboplastin
was 65 s (normal plasma 31 s). Studies of the abnormal factor IX protein in this patient showed a normal molecular weight and normal calcium binding properties. Activation of the mutant factor IX with factor XIa showed normal proteolytic cleavage. DNA sequence from the eight factor IX exons and flanking introns was amplified from this patient using the polymerase chain reaction. The amplified material was subjected to direct chain termination nucleotide sequencing. The only nucleotide sequence alteration found was a G----C transversion at nucleotide 20,524, changing the amino acid encoded at residue 182 from valine to leucine. This residue is one amino acid removed from the beta cleavage site of factor IX. This residue is highly conserved in other vitamin K dependent serine proteases and we propose that its alteration in this patient is responsible for his mild haemophilic phenotype, and for the abnormal interaction of this factor IX protein with the extrinsic system of coagulation.
...
PMID:A mutation adjacent to the beta cleavage site of factor IX (valine 182 to leucine) results in mild haemophilia Bm. 237 9
The 24-hr variations in clotting times and vitamin K-dependent blood coagulation factors were studied in rats kept on a 12-hr light-dark cycle (light on: 0600-1800 hours). Clotting times were determined under a binocular microscope by measuring the time required for the formation of the first fibrin thread. Factors II, VII and X were analyzed by the prothrombin test while the factor IX was quantified using the activated partial
thromboplastin
time assay. Results indicated that the clotting times were significantly longer during the dark (activity) period with a peak at 1:00 and a trough at 17:00. Similarly, a variation was found in factor activity levels: prothrombin (II), factor VII and factor X had higher activities during the light span (rest period). The highest activities found at 13:00 and 09:00 were statistically different from the minimum activity levels obtained at 21:00.
Factor IX
did not show a significant circadian variation.
...
PMID:Circadian rhythms of blood clotting time and coagulation factors II, VII, IX and X in rats. 260 89
Factor IX
Chicago-2 and prothrombin Madrid were purified from patients with hemophilia B and congenital dysprothrombinemia, respectively. Each protein displays defects in zymogen activation secondary to the failure to cleave one of the sessile bonds whose cleavage is necessary for full coagulant activity. These proteins were isolated by immunoaffinity chromatography using conformation-specific antibodies directed at either factor IX or prothrombin.
Factor IX
Chicago-2 is cleaved abnormally by factor XIa, yielding a pattern consistent with the failure to cleave the sessile bond between Arg 145 and Ala 146. Prothrombin Madrid is cleaved abnormally by
factor Xa
, yielding a pattern consistent with the failure to cleave the sessile bond between Arg 271 and Thr 272. Peptide mapping was performed on reduced and alkylated factor IX, factor IX Chicago-2, prothrombin, and prothrombin Madrid, and the hydrolysates were separated by high-performance liquid chromatography. The mutant peptide in factor IX Chicago-2 was identified by automated Edman degradation as residues 143 through 188 of factor IX, and had a histidine substituted for arginine at residue 145. The mutant peptide identified in prothrombin Madrid corresponds to residues 267 through 285 of prothrombin and has the substitution of cysteine for arginine at residue 271. These mutations, each occurring at arginines, are identical to those in factor IX Chapel Hill and prothrombin Barcelona. These results suggest that a limited repertoire of point mutations, many affecting arginine residues, may be responsible for hereditary defects of the vitamin K-dependent proteins in patients with normal antigen levels.
...
PMID:Molecular defects of factor IX Chicago-2 (Arg 145----His) and prothrombin Madrid (Arg 271----cys): arginine mutations that preclude zymogen activation. 275 9
Inhibition of Factor VIIa-tissue factor activity by a plasma component(s) that requires
factor Xa
has been described recently. In this communication, we have developed a specific radiometric assay (which utilizes 3H-
Factor IX
and is sensitive to less than 1% of plasma level) for this inhibitor and have measured its activity in various disease states. Strikingly, the levels of this inhibitor were found to be normal in patients with advanced chronic hepatocellular disease but low in patients with disseminated intravascular coagulation (DIC). When endotoxin was used to induce DIC in rabbits, the levels of this inhibitor fell by 25-90%. Human umbilical vein endothelial cells (HUVE), bovine pulmonary artery endothelial cells, and a human hepatoma cell line (HepG2) all synthesized and secreted this inhibitor, whereas a promyelocytic cell line (HL-60) did not and a monocytic cell line (U937) appears to synthesize only small amounts. When ammonium sulfate-fractionated human plasma and serum-free conditioned media from both HUVE and HepG2 cells were electrophoresed on sodium dodecyl sulfate acrylamide gels, two activity peaks corresponding to Mr approximately 45,000 and Mr approximately 33,000 were eluted in each case. These observations suggest that (a) the inhibitor is consumed in DIC and that (b) endothelial cells (or other cells) synthesize sufficient amounts of this inhibitor in vivo to compensate for any decreased production by liver cells.
...
PMID:Inhibitor of the factor VIIa-tissue factor complex is reduced in patients with disseminated intravascular coagulation but not in patients with severe hepatocellular disease. 303 84
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