EC:3.4.21.6 - FACTA Search

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)

During the early events of coagulation of human blood by the intrinsic pathway, factor XII is activated to a form which can activate factor XI, and is proteolytically fragmented to smaller species (30,000 daltons and 70,000 daltons) which have lost most of the ability to activate factor XI but which can activate prekallikrein rapidly. The effect of these fragments on factor VII was studied. It was found that these Hageman factor fragments promoted rapid proteolysis of one-chain factor VII to a more active two-chain form. The amino-terminal sequences of the chains of activated factor VII were found to be Ala-Asx-Gly- and Ile-Val-Gly-, the same as were earlier observed after activation of factor VII by activated factor X. This finding indicates that initiation of coagulation by the intrinsic pathway also primes the extrinsic pathway.
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PMID:Activation of bovine factor VII by hageman factor fragments. 56 32

Synthetic procedures have been developed for the preparation of peptides of arginine chloromethyl ketone and applied in the preparation of affinity labels which correspond to the -Pro-Phe-Arg- C terminus of bradykinin, a physiological cleavage site of kallikrein in kininogen. Two such reagents, Ala-Phe-ArgCH2C1 and Pro-Phe-ArgCH2C1, proved to be highly effective as well as selective affinity labels for human plasma kallikrein. For example, Pro-Phe-ArgCH2C1 inactivates plasma kallikrein 50% in 24 min at a concentration of 2 x 10(-8)M, while other trypsin-like proteases are less susceptible in inactivation than kallikrein, differing by a factor of 48 for plasmin and factors of 10(2)-10(5) for factor Xa, thrombin, and urokinase. The affinity of human plasma kallikrein for Ala-Phe-ArgCH2C1 (Ki = 0.078 micron) is about 60 times that for Ala-Phe-LysCH2C1(Ki = 4.9 micron), whereas human plasmin exhibits about the same affinity for the former affinity label (Ki = 1.3 micron) as for the latter (Ki = 0.83 micron). The rate constants for the irreversible step of the affinity labeling reaction, k2, are similar for affinity labels tested with the individual proteases: 0.35 min-1 for plasma kallikrein and 0.18 min-1 for plasmin.
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PMID:Synthesis of peptides of arginine chloromethyl ketone. Selective inactivation of human plasma kallikrein. 72 86

Factor XII was purified approximately 14 000-fold from bovine plasma by ammonium sulfate fractionation followed by heparin-agarose, DEAE-Sephadex, CM-cellulose, arginine-agarose, and benzamidine-agarose column chromatography. By this method, about 15 mg of protein was purified from 15 L of plasma with an overall yield of 18%. The purified protein was homogeneous as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and amino-terminal analysis. Bovine factor XII is a glycoprotein with a mol wt of 74 000 as determined by sedimentation equilibrium centrifugation. It contains 13.5% carbohydrate including 3.4% hexose, 4.7% N-acetylhexosamine, and 5.4% N-acetylneuraminic acid. Factor XII is a single polypeptide chain with an NH2-terminal sequence of Thr-Pro-Pro-Trp-Lys-Gly-Pro-?-Lys-His. This sequence is homologous to the reactive-site regions of a number of protease inhibitors. The amino acid sequence of a carboxyl-terminal fragments prepared by cyanogen bromide digestion was found to be Leu-Cys-Ala-Gly-Phe-Leu-Glu-Gly-Gly-Thr-Asp-Ala-Cys-Gln-Gly-Asp-SER-Gly-Gly-Pro-Leu-Val-Cys-Glu-Asp-Glu. This sequence is homologous with the active site of a number of plasma serine proteases including thrombin, factor IXa, factor Xa, and plasmin. These data indicate that bovine factor XII is a precursor to a serine enzyme with an inhibitor sequence and a catalytic site located in the same single polypeptide chain.
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PMID:Isolation and characterization of bovine factor XII (Hageman factor). 86 Dec 10

Tissue factor pathway inhibitor (TFPI) is a plasma-derived protein which inhibits two of the active serine proteases present during normal blood coagulation. Inhibition of both of these proteases, factors VIIa and Xa, is thought to require a factor Xa-TFPI complex. To begin to investigate the interactions between factor Xa and TFPI, amino acids 94-155, which encode for the second Kunitz domain (K2) of TFPI, were expressed, purified, and partially characterized. Expression of the recombinant peptide was accomplished using an E. coli expression system which produced the peptide at an expression level of approximately 2-5% of total cell protein. The peptide was localized to disulfide-linked refractile bodies which were solubilized by reduction in the presence of denaturant and the soluble protein refolded. Oxidized K2 was purified from the refold mixture using a two-step procedure employing gel filtration chromatography and reverse-phase HPLC. The unprocessed form of the recombinant peptide, Met-Ala-K2 (rMA-K2), was characterized. This peptide was purified to apparent homogeneity as determined by SDS-PAGE, quantitative amino acid, Edman degradation, and electrospray mass spectrometry analyses (> 95% pure). The product bound to factor Xa covalently coupled to a solid support in the presence of 2M sodium chloride demonstrating its affinity for this enzyme. Preincubation of rMA-K2 peptide with factor Xa neutralized, with 1.1:1 stoichiometry, the ability of factor Xa to hydrolyze a small chromogenic substrate. Additionally, rMA-K2 prolonged the time to clot formation in a plasma-based assay dependent on factor Xa concentration. Finally, this peptide mildly prolonged the prothrombin and modified prothrombin times of normal pooled plasma. Taken together this data demonstrates that this region of TFPI inhibits factor Xa activity and allows for further characterization of this enzyme-inhibitor complex.
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PMID:Bacterial expression, purification, and partial characterization of amino acids 94-155 of human tissue factor pathway inhibitor (TFPI) as an inhibitor of blood coagulation factor Xa. 129 Jan 65

Thrombomodulin is an endothelial glycoprotein that serves as a cofactor for protein C activation. To examine the ligand specificity of human thrombomodulin, we performed equilibrium binding assays with human thrombin, thrombin S205A (wherein the active site serine is replaced by alanine), meizothrombin S205A, and human factor Xa. In competition binding assays with CV-1(18A) cells expressing cell surface recombinant human thrombomodulin, recombinant wild type thrombin and thrombin S205A inhibited 125I-diisopropyl fluorophosphate-thrombin binding with similar affinity (Kd = 6.4 +/- 0.5 and 5.3 +/- 0.3 nM, respectively). However, no binding inhibition was detected for meizothrombin S205A or human factor Xa (Kd greater than 500 nM). In direct binding assays, 125I-labeled plasma thrombin and thrombin S205A bound to thrombomodulin with Kd values of 4.0 +/- 1.9 and 6.9 +/- 1.2 nM, respectively. 125I-Labeled meizothrombin S205A and human factor Xa did not bind to thrombomodulin (Kd greater than 500 nM). We also compared the ability of thrombin and factor Xa to activate human recombinant protein C. The activation of recombinant protein C by thrombin was greatly enhanced in the presence of thrombomodulin, whereas no significant activation by factor Xa was detected with or without thrombomodulin. Similar results were obtained with thrombin and factor Xa when human umbilical vein endothelial cells were used as the source of thrombomodulin. These results suggest that human meizothrombin and factor Xa are unlikely to be important thrombomodulin-dependent protein C activators and that thrombin is the physiological ligand for human endothelial cell thrombomodulin.
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PMID:Ligand specificity of human thrombomodulin. Equilibrium binding of human thrombin, meizothrombin, and factor Xa to recombinant thrombomodulin. 131 33

We examined the potential toxicity of desflurane in 13 young 25.0 +/- 2.3 (mean +/- SD) yr-old men, given 7.35 +/- 0.81 MAC-hours of desflurane anesthesia. Hepatic and renal function tests, serum electrolytes, and standard urine and hematologic tests were performed before, during, and after anesthesia. No toxicity was found. There were no changes in tests of hepatocellular integrity (plasma alanine transferase activity), synthetic function (serum albumin, prothrombin time, partial thromboplastin time), or renal function (serum creatinine concentration, blood urea nitrogen concentration). Decreases in red blood cell count, hematocrit, and blood hemoglobin concentration during and immediately after anesthesia were attributed to blood sampling and infusion of intravenous electrolyte solution. These values returned by 4 days after anesthesia to values not different from those before anesthesia. Increased white blood cell counts and blood glucose concentrations noted during anesthesia with other inhaled anesthetics were also seen in these volunteers. Desflurane appears to have no greater toxicity than currently used inhaled anesthetics and, because of its lesser metabolism, may have lesser or not toxicity.
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PMID:Desflurane does not produce hepatic or renal injury in human volunteers. 155 24

University of Wisconsin solution is currently recognized as the best solution for long-term organ preservation. It is recommended that UW solution be used as the in situ flush prior to organ explantation. The purpose of our study was to determine if hepatic allograft function was impaired by flushing the graft in situ with Euro-Collins and later flushing the graft ex vivo with UW solution, prior to cold storage. Fifty-six donors were randomly assigned to either an EC (n = 24) or UW (n = 32) in situ flush. The livers flushed with EC in situ were later flushed with 1 L of UW on the back table and stored in UW solution. Livers flushed with UW in vivo were similarly flushed and stored in UW on the back table. Concerning the donor allograft, there was no statistical difference (P greater than 0.05) between groups in sex, race, blood type, arterial anatomy, age, prothrombin time (PT), partial thromboplastin time (PTT), total bilirubin (TBR), direct bilirubin (DBR), aspartate amino transferase (AST), or alanine amino transferase (ALT). In addition, the recipients were compared for differences in sex, race, blood type, preoperative status, number of rejections, recipient age, length of surgery, and ischemia time and patient survival. There was no significant difference between groups (P greater than 0.05). There was no significant difference in patient survival (P = 0.238). Values for TBR, AST, ALT, PT, PTT, and AP were collected immediately preoperatively and postoperatively and on postoperative days 1, 3, 7, 14, and 28. There was no difference between groups in these values (P greater than 0.05). In our study there was no difference between the groups with respect to graft performance. This would justify the use of EC as an in situ flush during solid organ procurement and flushing with UW solution on the back table with an estimated savings of $400 to $1200 per procurement.
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PMID:A prospective randomized trial between Euro-Collins and University of Wisconsin solutions as the initial flush in hepatic allograft procurement. 158 93

Cancer procoagulant (CP) is a cysteine proteinase found in a variety of malignant cells and tissues and in human amnion-chorion tissue. It initiates coagulation by activating factor X. However, the amino acid sequence of the substrate protein that determines the cleavage site of cysteine proteinases is different from that of the serine proteinases that normally activate factor X, such as factor IXa, VIIa and Russell's Viper Venom (RVV). Therefore, it was of interest to determine the site of cleavage of human factor X by CP. Purified CP was incubated with purified factor X and the reaction mixture was electrophoresed on a 10% Tris-tricine SDS-PAGE gel. The proteins were electroeluted on to a polyvinylidene difluoride (PVDF) membrane, and stained with Coomassie blue. The heavy chain of activated factor X was cut out of the PVDF membrane and sequenced with an Applied Biosystems 477A with on-line HPLC. The primary cleavage sequence was Asp-Ala-Ala-Asp-Leu-Asp-Pro-; two other secondary sequences Ser-Ile-Thr-Trp-Lys-Pro- and Glu-Asn-Pro-Phe-Asp-Leu were found. The penultimate amino acid on the carbonyl side of the hydrolysed amide bond plays a critical role for the recognition of the cleavage site of cysteine proteinases. These data indicate that the penultimate amino acid for the primary cleavage site of factor X by CP is proline-20 and for the secondary sites, proline-13 and proline-28. This is in contrast to arginine-52 that determines the specificity of the cleavage by normal serine proteinase activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The site of activation of factor X by cancer procoagulant. 179 60

A recombinant gene for BPTI (bovine pancreatic trypsin inhibitor) is expressed in Escherichia coli using a MBP (maltose-binding protein) fusion vector. BPTI is fused through an FXa (blood coagulation factor Xa protease) target sequence (Ile-Glu-Gly-Arg) to the C-terminus of MBP. The MBP moiety of the hybrid protein enables purification in one step utilizing MBP's affinity to cross-linked amylose, and the FXa target sequence allows specific cleavage of the hybrid protein. Effective FXa cleavage is achieved by spacing the FXa target sequence and Arg-1 of the BPTI sequence with four residues (Met-Glu-Ala-Glu). The resulting N-terminal extended BPTI is readily converted to the wild-type sequence by trimming with cathepsin C exopeptidase, for the activity of which the spacing tetrapeptide is optimized. FXa cleavage is prohibited when the target sequence is placed next to Arg-1. In this construction, off-target cleavage at a somewhat homologous sequence (Val-Pro-Gly-Arg) results in five- or six-residue extended BPTI, indicating new details of the FXa specificity. The yield of highly purified recombinant BPTI is 3-6 mg/liter of culture, making the MBP-BPTI expression system convenient for the production of sufficient amounts of protein for NMR studies. 1H NMR is used to analyze the N-extended BPTI analogues.
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PMID:BPTI and N-terminal extended analogues generated by factor Xa cleavage and cathepsin C trimming of a fusion protein expressed in Escherichia coli. 182 11

An active site mutant bovine prothrombin cDNA (Ser528----Ala) has been constructed, subcloned, and expressed in Chinese hamster ovary cells. The recombinant mutant prothrombin, expressed at the level of 1.5-2.0 micrograms/ml of cell medium, was fully carboxylated (9.9 +/- 0.4 mol of gamma-carboxyglutamic acid/mol of prothrombin). The mutant prothrombin could be activated to thrombin by Taipan snake venom and activated to meizothrombin by ecarin in a manner comparable to native bovine prothrombin or recombinant wild-type bovine prothrombin. The mutant meizothrombin thus formed was stable and did not autolyze. The initial rate of cleavage of mutant prothrombin catalyzed by the full prothrombinase was only 28% of the rate of cleavage of native prothrombin, while recombinant wild-type prothrombin was cleaved at the same rate as the native molecule. The mutant thrombin, obtained from the mutant prothrombin in situ by prothrombinase or Taipan snake venom activation, showed no enzymatic activity toward either fibrinogen or a synthetic chromogenic substrate, D-phenylalanyl-L-pipecolyl-L-arginine-p-nitroanilide dihydrochloride (S2238). The mutant thrombin also bound dansylarginine-N-(3-ethyl-1,5-pentanediyl)amide, a specific fluorescent inhibitor of the thrombin active site, with a weaker binding affinity (kd = 5.4 x 10(-8) M) than did native thrombin (kd = 1.7 x 10(-8) M). These results indicate that the mutant recombinant prothrombin described here is a useful tool for the study of meizothrombin or thrombin without the complications arising from the proteolytic activities of these molecules. Study of the activation of this mutant has already revealed a functional link between the site of initial cleavage by the prothrombinase and the conformation at the nascent active site of prothrombin.
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PMID:Expression, isolation, and characterization of an active site (serine 528----alanine) mutant of recombinant bovine prothrombin. 190 92

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