Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Factor VII-VIIa, in association with tissue factor, participates in the complex which initiates blood coagulation through the extrinsic pathway. To identify functional domains on factor VII which mediate the activation of factor X, 16 synthetic peptides corresponding to 55% of the primary structure were assayed for their ability to inhibit factor VII function. Factor Xa formation was inhibited by eight of the peptides in a dose-dependent manner. Kinetic analyses indicated noncompetitive inhibition of factor X activation by seven of these peptides. Peptide-(347-361) inhibited factor Xa cleavage of a chromogenic substrate by a competitive mechanism and was excluded from further analysis in this study. Among the seven inhibitory peptides which have the ability to prevent the factor VIIa-tissue factor-mediated conversion of factor X to factor Xa, peptide-(285-305) was most inhibitory, with a Ki value of 2.4 microM. The Ki values were in the range of 42-65 microM for peptides-(44-50), -(194-214), -(208-229), and -(376-390). The least inhibitory peptides were at positions 170-178 and 330-340, with a Ki value greater than 200 microM. Polyclonal antibodies were raised against four of these peptides; and when antisera were assayed by a solid-phase radioimmunoassay, they bound not only to their respective immunizing peptides, but also to factor VII. The Fab fragments of specific IgG preparations, affinity-purified on a factor VII-agarose column, inhibited the rate of factor X activation in a dose-dependent manner. Six of the seven inhibitory peptides represent amino acid sequences within the heavy chain of factor VII, and the remaining one corresponds to a sequence within the light chain. The corresponding regions in the x-ray crystal structure of chymotrypsin represented by the six heavy chain inhibitory peptides are found to be located in three distinct regions, one region located spatially distal to the active site and the other two regions located relatively closer to the active site and the substrate-binding pocket. The results suggest that at least three specific regions in the heavy chain and one region in the light chain of factor VII mediate its interaction with the factor X activation complex.
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PMID:Identification of molecular sites on factor VII which mediate its assembly and function in the extrinsic pathway activation complex. 198 71

Factor VIII heavy chain (FVIII HC) polypeptides have been studied in both normal plasma and FVIII concentrates on exposure to three coagulation proteases. FVIII samples were incubated with labelled affinity-purified anti-FVIII Fab' fragments, immunocomplexes formed were visualized by autoradiography after sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE), and apparent relative molecular masses (Mr) of each band assigned. FVIII HC polypeptides were detected in all types of samples, including plasma, without further purification. Normal plasma contained a range of polypeptides with the largest dominant band at a net apparent Mr of 250-300 kD, and the smallest at 80-90 kD: the bands visualized correspond to the 90-210 kD HC species seen on conventional analysis of purified FVIII. No bands were produced from samples of haemophilic plasma. Treatment of plasma or FVIII concentrate with low concentrations (1 IU/ml) of thrombin removed the 250-300 kD and other intermediate bands, intensified then removed the 80-90 kD polypeptide and produced a band at 40-50 kD. Thrombin-associated rise and fall in FVIII clotting activity by one-stage assay correlated with intensity of the 80-90 kD polypeptide. A polypeptide of Mr 40-50 kD was also produced after incubation with activated factor X: activated factor VII plus thromboplastin had no effect on HC structure. FVIII polypeptides were visualized in prothrombin complex concentrates, with a more degraded profile seen in a deliberately 'activated' product.
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PMID:Proteolysis of factor VIII heavy chain polypeptides in plasma and concentrates. 206 61

Proclotting enzyme is an intracellular serine protease zymogen closely associated with an endotoxin-sensitive hemolymph coagulation system in limulus. Its active form, clotting enzyme, catalyzes conversion of coagulogen to insoluble coagulin gel. We present here the cDNA and amino acid sequences, disulfide locations, and subcellular localization of proclotting enzyme. The isolated cDNA for proclotting enzyme consists of 1,501 base pairs. The open reading frame of 1,125 base pairs encodes a sequence comprising 29 amino acid residues of prepro-sequence and 346 residues of the mature protein with a molecular mass of 38,194 Da. Three potential glycosylation sites for N-linked carbohydrate chains were confirmed to be glycosylated. Moreover, the zymogen contains six O-linked carbohydrate chains in the amino-terminal light chain generated after activation. The cleavage site that accompanies activation catalyzed by trypsin-like active factor B, proved to be an Arg-Ile bond. The resulting carboxyl-terminal heavy chain is composed of a typical serine protease domain, with a sequence similar to that of human coagulation factor XIa (34.5%) or factor Xa (34.1%). The light chain has a unique disulfide-knotted domain which shows no significant homology with any other known proteins. Thus, this proclotting enzyme has a mammalian serine protease domain and a structural domain not heretofore identified in coagulation and complement factors. Immunohistochemical studies showed that the proclotting enzyme is localized in large granules of hemocytes.
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PMID:Proclotting enzyme from horseshoe crab hemocytes. cDNA cloning, disulfide locations, and subcellular localization. 226 34

The reaction of alpha 2-macroglobulin (alpha 2M) with the two-chain enzyme plasma kallikrein results in covalent bond formation between the catalytic subunit and the inhibitor. We have recently published a model of alpha 2M which suggests that this phenomenon may be a general mechanism when multisubunit proteinases are inactivated by alpha 2M. In order to test this hypothesis, we studied the reactions of factor Xa, plasmin, streptokinase-plasmin and alpha-thrombin with alpha 2M. In the case of factor Xa the catalytic heavy chain demonstrated greater than 99% covalent incorporation while over 97% of the light chain failed to crosslink to the inhibitor. Preferential binding of the catalytic light chains of plasmin (70% covalent incorporation) and plasmin in complex with streptokinase (79% covalent incorporation) was also observed. Finally, 82% covalent incorporation of the catalytic heavy chain of alpha-thrombin was found. These studies demonstrate that in the case of multisubunit proteinases, the chain containing the active site demonstrates preferential binding as predicted by the model supporting placement of the site of covalent binding close to the "bait region" of alpha 2M.
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PMID:Specificity of alpha 2-macroglobulin covalent cross-linking for the active domain of proteinases. 243 19

The inactivation of activated factor X (factor Xa) by alpha 2-macroglobulin (alpha 2M) was studied. The second-order rate constant for the reaction was 1.4 X 10(3) M-1 s-1. The binding ratio was found to be 2 mol of factor Xa/mol of alpha 2M. Interaction of factor Xa with alpha 2M resulted in the appearance of four thiol groups per molecule of alpha 2M. The apparent second-order rate constants for the appearance of thiol groups were dependent on the factor Xa concentration. Sodium dodecyl sulfate gradient polyacrylamide gel electrophoresis was used to study complex formation between alpha 2M and factor Xa. Under nonreducing conditions, four factor Xa-alpha 2M complexes were observed. Reduction of these complexes showed the formation of two new bands. One complex (Mr 225,000) consisted of the heavy chain of the factor Xa molecule covalently bound to a subunit of alpha 2M, while the second complex (Mr 400,000) consisted of the heavy chain of factor Xa molecule and two subunits of alpha 2M. Factor Xa was able to form a bridge between two subunits of alpha 2M, either within one molecule of alpha 2M or by linking two molecules of alpha 2M. Complexes involving more than two molecules of alpha 2M were not formed.
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PMID:Inhibition of human blood coagulation factor Xa by alpha 2-macroglobulin. 244 77

A monoclonal antibody (designated alpha BFX-2b) prepared against bovine factor X inhibited factor X activity in human, bovine, porcine, rabbit, and canine plasma. In assays using purified prothrombinase components, factor Xa, factor Va, phospholipid vesicles, and calcium ion with the fluorescent active site thrombin inhibitor dansylarginyl-N-(3-ethyl-1,5-pentanediyl)amide, the antibody inhibited the conversion of prothrombin to thrombin. Antibody alpha BFX-2b also blocked prothrombinase cleavage of the macromolecular substrates prethrombin 1 and prethrombin 2 but did not inhibit factor Xa hydrolysis of the synthetic substrate benzoyl-Ile-Glu-Gly-Arg-p-nitroanilide. The antibody also prevented the inactivation of factor Xa by antithrombin III but did not prevent the inactivation by soybean trypsin inhibitor. Antibody alpha BFX-2b bound factor Xa with a stoichiometry of 1:1 and an apparent dissociation constant of 9.0 x 10(-11) mol/L as estimated from its inhibition of prothrombinase activity. Antibody alpha BFX-2b did not prevent binding of factor Xa to factor Va-phospholipid as measured by using fluorescence polarization or high-pressure liquid gel chromatography with the fluorescent Factor Xa analogue dansyl-glutamyl-glycyl-arginyl-Xa. Immunoblotting of factor X following electrophoresis on sodium dodecyl sulphate-polyacrylamide gels and transfer to nitrocellulose indicated that the antigenic determinant recognized by antibody alpha BFX-2b was found on the heavy chain of factors X and Xa. From these observations it can be concluded that antibody alpha BFX-2b recognizes a highly conserved epitope on the factor X heavy chain that is remote from the topographic sites required for prothrombinase complex assembly and substrate hydrolysis but may be located at or near a portion of the macromolecular substrate binding site.
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PMID:An inhibitory monoclonal antibody to factor X that blocks prothrombin activation but not prothrombinase enzyme assembly. 246 54

Factor X Friuli was isolated from plasma by immunoaffinity and ion exchange chromatography and compared with normal factor X purified by the same method. Similar molecular weights were observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of the intact or activated factor X molecules including their respective heavy and light chains. These data indicated that there were no gross structural differences between the normal and variant proteins. Immunochemical assays employing either polyclonal or 46 monoclonal antibodies (MoAbs) did not reveal any structural deviations. Two-dimensional peptide maps indicated that while the light chains of normal and Friuli factor X were very similar, the heavy chains of the native and activated molecules contained a limited number of differences. These data suggested that the defect in factor X Friuli may be a point mutation which lies within the activated heavy chain defined by the 195-424 amino acid sequence. Activation of factor X Friuli in purified systems showed that Russell's viper venom cleaved the molecule at 70% of the normal rate, while the rate of proteolysis of the variant protein was reduced 98% and 75% when incubated with the extrinsic and intrinsic activation complexes, respectively. These data support the clinical laboratory findings and the hypothesis that the defect associated with the Friuli variant may reflect an abnormal interaction between factor X Friuli and the nonproteolytic cofactors of the extrinsic and intrinsic factor X activation complexes. Fluorescence polarization studies suggested that a bound dansylated inhibitor of factor Xa was not oriented to the same extent within the active site of the variant enzyme relative to normal factor Xa until the addition of phospholipid and factor Va. Activated factor X Friuli generated thrombin from prothrombin in a purified system, but at one third the normal rate that was attributed to the Kcat suggesting a secondary effect of this defect.
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PMID:Isolation and characterization of the factor X Friuli variant. 247 58

A complex composed of factor Xa and phospholipid vesicles assembled in the presence of calcium ions catalyzes a discrete cleavage of the heavy chain of bovine protein C that is indistinguishable from that produced by thrombin as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This cleavage generates an active site capable of hydrolyzing small substrates and inactivating factor Va function in the prothrombinase complex. Activation of protein C by factor Xa requires both calcium ions and phospholipid vesicles and proceeds at a rate an order of magnitude greater than that observed for alpha-thrombin in solution. gamma-Carboxyglutamic acid-domainless protein C is not activated by factor Xa, consistent with the requirement for phospholipid and distinguishing this reaction from protein C activation by thrombin. Thrombomodulin serves as a cofactor for the factor Xa-catalyzed reaction, forming a 1:1 complex with factor Xa (apparent Kd = 5.7 X 10(-10) M) and stimulating the saturated rate of protein C activation by factor Xa (kcat = 149 min-1) to levels comparable with the thrombin-thrombomodulin complex. Protein C activation by factor Xa is not inhibited by the specific thrombin inhibitor dansyl-N-(3-ethyl-1,5-pentanediyl)amide but is inhibited by antithrombin III, tripeptide-chloromethyl ketones, and the monoclonal antibody alpha-BFX-2b that is highly specific for factor Xa. These data indicate that thrombomodulin is promiscuous in its role as a cofactor and suggest the existence of an alternative pathway for protein C activation in vivo.
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PMID:The activation of bovine protein C by factor Xa. 255 Apr 35

Synthesis and secretion of blood coagulation factor X was studied during incubations of hepatocytes prepared by perfusion of rat livers with collagenase. The apparent molecular weight of factor X isolated from the incubation medium was about 14,000 less than factor X isolated from rat plasma. The extracellular form of factor X was a two-chain polypeptide and the observed difference in molecular weight was reflected in the heavy chain. Since these properties were more characteristic of factor Xa than factor X, experiments were designed to determine if factor X activation occurred during the incubations. Clotting factor assays indicated that factor X secreted by hepatocytes was present as factor Xa. Also, when purified plasma factor X was added to incubations of hepatocytes the added factor X was converted to factor Xa. Plasma membranes prepared from isolated hepatocytes or from liver homogenates contained an enzyme that converted factor X to factor Xa in a calcium-dependent reaction. The results suggest that the activity is due to the presence of thromboplastin (tissue factor) and factor VII in the membrane preparations.
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PMID:The activation of factor X by hepatocyte plasma membranes. 261 30


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