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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 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, we have carried out equilibrium binding studies with human factor IXa after replacing the first epidermal growth factor (EGF) domain by the corresponding polypeptide region of factor X (Lin, S.-W., Smith, K. J., Welsch, D., and Stafford, D. W. (1990) J. Biol. Chem. 265, 144-150). The
chimeric protein
, factor IX(Xegf1), as well as the wild-type, factor IXwt, produced in embryo kidney cells, and factor IX isolated from human plasma were radiolabeled with 125I and activated with factor XIa. Direct binding studies with thrombin-activated platelets showed normal stoichiometry and affinity of binding of factor IXa(Xegf1) (566 sites/platelet, Kd = 0.69 nM) and factor IXawt (590 sites/platelet, Kd = 0.61 nM) in the presence of factor VIIIa (5 units/ml) and factor X (1.5 microM) compared to factor IXaN (558 sites/platelet, Kd = 0.67 nM). The concentration of factor IXaN, factor IXawt, and factor IXa(Xegf1) required for half-maximal rates of
factor Xa
formation were 0.63, 0.7, and 0.83 nM, indicating that the Kdapp for binding of factor IXa(Xegf1) to the factor X activating complex on activated platelets is normal. These studies suggest either that the EGF-1 domain of factor IXa is not involved in factor IXa binding to platelets or that the EGF-1 domain from factor X when inserted into factor IXa, suffices to promote normal factor IXa binding.
...
PMID:The role of the first growth factor domain of human factor IXa in binding to platelets and in factor X activation. 156 3
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
DNA sequences encoding Ile-Glu-Gly-Arg and human prorenin were joined and placed under the transcriptional control of the Escherichia coli trp promoter-operator in the expression vector pTR501. E. coli cells transformed with pTR501 expressed high levels (30% of total cell protein) of prorenin as part of a hybrid protein with the trp E gene product. The
chimeric protein
, accumulated in a sedimentable form, was dissolved in 6 M guanidine X HCl, purified to near homogeneity, and renatured by dialysis. The complete prorenin sequence was then excised from the renatured hybrid protein using blood
coagulation factor Xa
, a proteinase which is highly specific for the tetrapeptide insert Ile-Glu-Gly-Arg introduced between the 9 amino-terminal residues of the trp E gene product and the first amino acid (Thr 1) of prorenin. Human prorenin thus obtained was readily activatable with trypsin and showed close similarities to naturally occurring prorenin in its biochemical and immunochemical properties.
...
PMID:Synthesis and characterization of human prorenin in Escherichia coli. 353 94
The cDNA encoding a chimeric human protein C (PC), in which its epidermal growth factor-(EGF) like regions have been replaced with equivalent structures from human factor IX (fIX), was constructed and the gene product was expressed in human 293 cells. A molecular subpopulation of the recombinant
chimeric protein
(r-[PC/delta EGF-1,2/delta fIXEGF-1,2]) was purified that contained the full complement (9 residues/mol) of gamma-carboxyglutamic acid (Gla). After conversion by thrombin to its activated form (r-[APC/delta EGF-1,2/delta fIXEGF-1,2]), this latter enzyme was found to possess approximately 10% of the activity of wild-type recombinant APC (wtr-APC) in an APTT assay. In assay systems employing purified components, the activity of the mutant enzyme toward
prothrombinase
cofactor Va (fVa) and tenase cofactor VIII (fVIII) was approximately 30% and < 10%, respectively, of that of wtr-APC. The
chimeric protein
displayed full reactivity with a Ca(2+)-dependent monoclonal antibody to the Gla domain of PC, yielding a C50 for Ca2+ that was very similar to that obtained with wtr-PC (ca. 3.7 mM). Titrations of the dependency on Ca2+ of the intrinsic fluorescence of r-[PC/delta EGF-1,2/delta fIXEGF-1,2] allowed calculation of a C50 value of 0.34 mM, again very similar to that of wtr-PC. As with wtr-PC, Ca2+ inhibited the thrombin-catalyzed activation of r-[PC/delta EGF-1,2/delta fIXEGF-1,2] with aKi of 148 microM, as compared to a Ki of 125 microM for wtr-PC. At a saturating level of Ca2+, activation of r-[PC/delta EGF-1,2/delta fIXEGF-1,2/] by the thrombin/thrombomodulin (thrombin/TM) complex occurred at approximately 70% of the rate of that of wtr-PC.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Construction, expression, and properties of a recombinant chimeric human protein C with replacement of its growth factor-like domains by those of human coagulation factor IX. 829 11
Antiplatelet-antithrombin-staphylokinase (PLATSAK) is a
chimeric protein
that was recombinantly produced in Escherichia coli cells. The protein was designed to target haemostasis at three different levels. It consists of staphylokinase for activation of fibrinolyis, the Arg-Gly-Asp sequence for the prevention of platelet aggregation, and an antithrombotic peptide for the inhibition of thrombin. The in vivo activity of PLATSAK was evaluated by assessing its effect on platelet deposition in a baboon model of arterial and venous thrombosis. Dacron vascular graft segments and expansion chambers, inserted as extensions into permanent femoral arteriovenous shunts, were used to simulate arterial and venous thrombosis, respectively. PLATSAK (3.68 mg/kg) was administered as a bolus 10 minutes before placement of the thrombogenic devices. Platelet deposition onto the graft surface and in the expansion chamber was imaged in real time with a scintillation camera as the deposition of 111In-labeled platelets. After 2 hours, platelet deposition in the graft segments and expansion chambers was inhibited by 50% and 85%, respectively, when compared to control studies. The activated partial
thromboplastin
time was lengthened to greater than 120 seconds. Interestingly, the level of fibrinogen degradation products in plasma did not increase after administration of PLATSAK. These results demonstrate that PLATSAK effectively inhibited platelet deposition in both arterial- and venous-type thrombosis in an animal model.
...
PMID:PLATSAK, a potent antithrombotic and fibrinolytic protein, inhibits arterial and venous thrombosis in a baboon model. 1082 83
Many recombinant proteins are synthesized as fusion proteins containing affinity tags to aid in the downstream processing. After purification, the affinity tag is often removed by using a site-specific protease such as
factor Xa
(FXa). However, the use of FXa is limited by its expense and availability from plasma. To develop a recombinant source of FXa, we have expressed two novel forms of FXa using baby hamster kidney (BHK) cells as host and the expression vector pNUT. The
chimeric protein
FIIFX consisted of the prepropeptide and the Gla domain of prothrombin linked to the activation peptide and protease region of FXa, together with a cellulose-binding domain (CBD(Cex)) as an affinity tag. A second variant consisted of the transferrin signal peptide linked to the second epidermal growth factor-like domain and the catalytic domain of FX and a polyhistidine tag. Both FX variants were secreted into the medium, their affinity tags were functional, and following activation, both retained FXa-specific proteolytic activity. However, the yield of the FIIFX-CBD(Cex) fusion protein was 10-fold higher than that of FX-CBD(Cex) and other forms of recombinant FX reported to date. The FXa derivatives were used to cleave two different fusion proteins, including a biologically inactive alpha-factor-hirudin fusion protein secreted by Saccharomyces cerevisiae. After cleavage, the released hirudin demonstrated biological activity in a thrombin inhibition assay, suggesting that this method may be applicable to the production of toxic or unstable proteins. The availability of novel FX derivatives linked to different affinity tags allows the development of a versatile system for processing fusion proteins in vitro.
...
PMID:Factor X fusion proteins: improved production and use in the release in vitro of biologically active hirudin from an inactive alpha-factor-hirudin fusion protein. 1104 37
Expression and purification of proteins in recombinant DNA systems is a powerful and widely used technique. Frequently there is the need to express the protein of interest as a fusion protein or
chimeric protein
. Fusion protein technology is frequently used to attach a "signal" which can be used for subsequent localization of the protein or a "carrier" which can be used to deliver a "therapeutic" such as a radioactive molecule to a specific site. In addition to these applications, fusion protein technology can be employed for several other useful purposes. Of these, the most frequent reason is to provide a 'tag' or 'handle' which will aid in the purification of the protein. Another useful purpose is to improve the expression or folding of the protein of interest. In these latter two situations, it is often necessary to remove the fusion partner before the recombinant protein of interest can be used for further studies. This removal process involves the insertion of a unique amino acid sequence that is susceptible to cleavage by a highly specific protease. Thrombin and
factor Xa
are the most frequently used proteases for this application. The purpose of this review is to discuss the application of thrombin and
factor Xa
for the cleavage of fusion proteins. It is emphasized that while these enzymes are quite specific for cleavage at the inserted cleavage site, proteolysis can frequently occur at other site(s) in the protein of interest. It is necessary to characterize the protein of interest after cleavage from the affinity label to assure that there are no changes in the covalent structure of the protein of interest. Examples are presented which describe the proteolysis of the protein of interest by either
factor Xa
or thrombin.
...
PMID:A critical review of the methods for cleavage of fusion proteins with thrombin and factor Xa. 1296 35
