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)

A 72-yr-old male with a lifelong history of easy bruisability and posttraumatic bleeding had a prolonged prothrombin time and activated partial thromboplastin time. His plasma Stypven, Taipan, and Echis carinatus venom clotting times were prolonged. The presence of a dysprothrombin was confirmed by the discrepancy between plasma prothrombin coagulant activity and prothrombin antigen levels. His plasma prothrombin was capable of being completely absorbed onto and then eluted from barium sulfate. Crossed immunoelectrophoresis of his plasma prothrombin, and normal plasma prothrombin, into agarose containing rabbit anti-human factor II antibody were similar. Crossed immunoelectrofocusing, a procedure combining isoelectric focusing in disc gels with electroimmunoassay in the second dimension, demonstrated that the patient's prothrombin antigen was more basic than normal. The eluate from barium sulfate absorbtion of patient plasma, when reacted with Echis carinatus venom (which directly cleaves prothrombin to thrombin) clotted purified fibrinogen at a rate slower than normal plasma eluate. SDS-slab gel electrophoresis revealed that the prothrombin present in the patient's eluate was cleaved by Echis carinatus venom. These studies suggest that the coagulopathy of prothrombin Houston results from the generation of a dysfunctional thrombin.
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PMID:Prothrombin Houston: a dysprothrombin identifiable by crossed immunoelectrofocusing and abnormal Echis carinatus venom activation. 736 70

The effects of normal platelets and dysfunctional platelets on the activities of prothrombin complex components (fluid-phase factor X, factor V, and prothrombin) and on prothrombin conversion products were studied in nonanticoagulated plasma by both functional and physical methods. Rapid centrifugation of small blood volumes at 24 degrees C yielded PRP and PPP before changes could be detected by functional and physical means. It was shown for the first time in native nonanticoagulated PRP that prothrombin and factor V consumption by functional assays depends on physiologically active platelets, since inhibition by PGE and theophylline or by dibutyryl cyclic AMP and acceleration by ADP was observed. These platelet-dependent phenomena occurred in two stages: (1) a decrease in factor V activity coinciding with platelet clumping and (2) a decrease in prothrombin activity simultaneous with clot appearance. Neither of these stages was clearly separated in recalcified citrated plasma. In studies of patients (Glanzmann's thrombasthenia, Hermansky-Pudlak syndrome, and Gray platelet syndrome) inhibition of the first stage and abnormalities in subsequent clotting events occurred only in Gray platelet syndrome patients, whose platelets carry a defect in alpha-granules. Finally, with [3H]prothrombin and SDS-PAGE, prothrombin conversion was found to be platelet-dependent and to proceed mainly through the factor Xa activation pathway.
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PMID:The procoagulant effect of platelets on conversion of prothrombin to thrombin in nonanticoagulated plasma. 738 Dec 94

The M(r) of the complexes formed when factor Xa reacts with antithrombin III (ATIII) in plasma were estimated by gel filtration and SDS-polyacrylamide electrophoresis. The predominant species of factor Xa-ATIII detected after plasma and plasma to which factor Xa had been added were gel filtered on Sephadex G-200 and Sepharose 4B had apparent M(r) > 200,000, in which factor Xa-ATIII was associated with vitronectin. Addition of factor Xa-ATIII to ATIII-depleted plasma also resulted in the formation of factor Xa-ATIII-vitronectin complexes with M(r) > 200,000. Using polyclonal antibodies to human factor Xa-ATIII and ATIII as the capture and detector antibodies, respectively, a sensitive and specific enzyme-linked immunosorbent assay was developed to quantify factor Xa-ATIII in plasma. The relationship between factor Xa-ATIII production and prothrombinase activity in vivo was investigated by quantifying factor Xa-ATIII and prothrombin fragment 1 + 2 endogenous to the plasmas of blood donors and patients with Hodgkin's and non-Hodgkin's lymphoma. Whereas the concentrations of prothrombin fragment 1 + 2 in the 84 normal plasmas increased with age, those of factor Xa-ATIII (mean +/- SD of 34.7 +/- 13.8 pM) did not, and no correlation existed between the concentrations of the two parameters in normal plasmas. In contrast, a highly significant correlation between the concentrations of these two parameters was found in the plasmas of the cancer patients which coincidentally also had higher concentrations of both factor Xa-ATIII and prothrombin fragment 1 + 2 than the normal plasmas. Thus, ATIII may differentially influence prothrombinase formation and activity in normal individuals and cancer patients.
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PMID:Measurement of factor Xa-antithrombin III in plasma: relationship to prothrombin activation in vivo. 764 8

We found a 81-year-old man with Hashimoto's disease and bullous pemphigoid whose activated partial thromboplastin time (APTT) and prothrombin time (PT) were prolonged. Mixing studies with normal plasma failed to correct APTT and PT, suggesting the presence of circulating inhibitor. The patient's factor V activity was 11% of normal control and was not corrected by mixing with normal plasma, indicating the presence of an inhibitor against factor V. This inhibitory activity was observed up to 32 times dilution of the patient's plasma. The inhibitor activity against factor V was not detected in the fraction of the patient's plasma that passed through Protein A Sepharose, but detected in the elution with glycine-HCl buffer. Furthermore, using SDS-PAGE and immunoblotting method, purified IgG from the patient's plasma reacted with a protein with molecular weight (74KD) equivalent to F1F2 of factor Va which was activated by thrombin. The inhibitory activity was associated with IgG4 subclass. These data indicate that the inhibitor was IgG antibody which inhibit F1F2 of factor V. Autoimmune mechanism was strongly suggested for the development of the antibody.
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PMID:Study on an antibody against F1F2 fragment of human factor V in a patient with Hashimoto's disease and bullous pemphigoid. 770 78

A cDNA coding for the E isoform of alpha-1-antiproteinase (also called alpha-1-antitrypsin or alpha-1-proteinase inhibitor) was isolated by oligonucleotide hybridization following immunochemical screening of the rabbit liver cDNA library. The deduced amino acid sequence of the E isoform showed 96.4% identity in 413 residues of the F and S-1 isoforms of rabbit alpha-1-antiproteinase. The N-terminal half of the amino acid residues of the three isoforms was almost identical, but the putative reactive-site loop structure (P8-P'8) was significantly different in the various forms, the P1 site of the E form being glutamic acid. Interaction of the recombinant E form with the various proteinases was investigated by SDS/PAGE, followed by immunoblot analysis. The recombinant protein and trypsin formed a 62 kDa equimolar complex, which gradually became graded to the 37 kDa fragment through several intermediates. The E form also formed a complex of a similar size with elastase and became degraded to the 31 kDa fragment. Several proteinases which cleaved the E form without forming a detectable complex on SDS/PAGE are chymotrypsin, protease V8, pancreas kallikrein, thermolysin, papain and ficin. Other proteinases, with a stringent substrate specificity, such as thrombin, factor Xa, plasmin, plasma kallikrein and cathepsin G, did not attack the E form. Unlike the F and S-1 forms of rabbit plasma alpha-1-antiproteinase, the recombinant E form did not inhibit the amidolytic and proteolytic activities of trypsin. Neither elastase nor protease V8 was inhibited by the E form. Thus the change in the amino acid residues in the reactive-site loop, probably in the P1 site, is responsible for the loss of inhibitory activity of rabbit alpha-1-antiproteinase E. The novel character of the E form could provide a new insight into the interaction of serpin and proteinases.
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PMID:Rabbit alpha-1-antiproteinase E: a novel recombinant serpin which does not inhibit proteinases. 773 71

From the saliva of the vampire bat Desmodus rotundus, we isolated an unknown anticoagulant protein which we have named draculin. Its molecular mass as determined by non-reduced SDS-PAGE is about 83 kDa. The reduced polypeptide shows a slower migration. HPLC in a molecular sieve matrix yields a single, symmetrical peak corresponding to 88.5 kDa. Isoelectric focusing shows an acidic protein with pI = 4.1-4.2. Aminoacid analysis is compatible with a single chain polypeptide of about 80 kDa. Cyanogen bromide cleavage yields a single 16-aminoacid peptide, corresponding to the amino-terminus of the native molecule. Draculin inhibits the activated form of coagulation factors IX and X. It does not act on thrombin, trypsin, chymotrypsin and does not express fibrinolytic activity. The inhibition is immediate and not readily reversible, with a stoichiometry of about two molecules of draculin per molecule of factor IXa or Xa. Surprisingly, the inhibitory activity against either factor is not affected by the presence of the other. Draculin binds quantitatively to either immobilised factor Xa or factor IXa. Our preliminary interpretation is that there are two forms of draculin that hardly differ in structure. Both bind to factor Xa and to factor IXa but one form inhibits factor Xa and the other inhibits factor IXa. When added to plasma, draculin increases the lag phase as well as the height of the peak of thrombin generation.
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PMID:Purification and partial characterization of draculin, the anticoagulant factor present in the saliva of vampire bats (Desmodus rotundus). 774 May 3

The cloning, purification and characterization of full-length annexin V, expressed intracellularly in Saccharomyces cerevisiae is detailed. Following homogenization in a glass bead mill, clarification by ultracentrifugation and fractional ammonium sulfate precipitation, the 319 amino acid protein was purified by column chromatography on phenyl-Sepharose and heparin-Sepharose. Annexin V elutes on reverse phase C4 silica as a single peak with greater than 97% homogeneity and is further characterized by a molecular mass of 34 kDa from electrophoresis under reducing conditions on SDS gels. Dynamic light scattering experiments reveal annexin V exists as a monomer in solution. Amino terminal Edman degradation afforded no sequence, therefore the carbamidomethylated protein was chemically cleaved with cyanogen bromide. Separation of the resulting peptide fragments on reverse phase HPLC followed by N-terminal sequencing and electrospray mass spectrometry supported the correct sequence as well as the existence of an acetyl blocking group on the N-terminus. The protein exhibits an isoelectric point of 4.73 by column chromatofocusing. Secondary structure predictions from CD spectroscopy indicate that the molecule is correctly folded. In anticoagulant assays, the purified protein exhibits dose-response effects in activated partial thromboplastin time (APTT) prolongation and doubles the clotting time of control human plasma at 70 micrograms ml-1. More specifically, in a factor Xa inhibition assay in which the activation of factor X via the tissue factor-factor VIIa complex is monitored by the cleavage of a factor Xa chromogenic substrate, recombinant annexin V exhibits a 50% inhibitory concentration (IC50) in the low nanomolar range.
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PMID:Isolation and characterization of recombinant annexin V expressed in Saccharomyces cerevisiae. 776 33

Meizothrombin is an intermediate that is produced during the conversion of prothrombin to thrombin in systems composed of purified factor Xa and factor Va that are quantitatively assembled on an anionic phospholipid surface. The biological significance of this intermediate has recently been challenged by the apparent absence of meizothrombin during clotting of sodium citrate-anticoagulated plasma. We analyzed the formation of thrombin during coagulation of nonanticoagulated, unchilled, minimally manipulated whole blood in glass tubes. The process was stopped at 0, 3, 5, and 7 minutes by the addition of biotinylated peptidyl chloromethyl-ketone active-site labeling reagents. Plasma/serum was separated by centrifugation, and labeled species were extracted by immunoadsorption with a polyclonal anti-prothrombin antibody. The purified prothrombin-derived species were separated by SDS-polyacrylamide gradient gel electrophoresis and visualized on a chemiluminescent avidin blot. Meizothrombin appeared as an intermediate product of this reaction and persisted with some increase through the 7-minute time point. We also observed incorporation of the active-site label into a species of lower molecular weight consistent with the B1 chain of beta- and/or gamma-thrombin. These degraded forms of thrombin have not been previously demonstrated in a biologically relevant preparation. Our data clearly establish the generation of meizothrombin as an intermediate product of thrombin generation during whole-blood clotting. The data also represent the first experimental evidence for the generation of beta- and gamma-thrombin in a biologically relevant environment and time scale.
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PMID:Evidence that meizothrombin is an intermediate product in the clotting of whole blood. 777 29

A highly purified human thrombin was prepared from plasma. The procedure involved the adsorption of prothrombin from human plasma by barium chloride and precipitation by using ammonium sulfate. The partially purified prothrombin was activated by tissue thromboplastin and followed by chromatography on Amberllte and SP-Sephadex. The purified enzyme is homogeneous on SDS-PAGE and has a specific activity toward fibrinogen of 2000 NIH U/mg. The recovery is about 30% approximately 40%. This highly purified human thrombin can be used as a tool enzyme in the downstream procedure of fused recombinant proteins expressed by genetic engineering.
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PMID:[High purification of human thrombin]. 778 Nov 26

The transition of the factor IX zymogen into the enzyme factor IXa beta was investigated. For this purpose, the activation intermediate factors IX alpha and IXa alpha were purified after cleavage of the Arg145-Ala146 and Arg180-Val181 bonds, respectively. These intermediates were compared for a number of functional properties with factor IXa beta, which is cleaved at both positions. Factor IXa alpha was equal to factor IXa beta in hydrolyzing the synthetic substrate CH3SO2-Leu-Gly-Arg-p-nitroanilide (kcat/Km approximately 120 s-1 M-1) but was less efficient in factor X activation. Factor IX alpha was incapable of generating factor Xa but displayed reactivity toward p-nitrophenol p-guanidinobenzoate and the peptide substrate. The catalytic efficiency, however, was 4-fold lower compared with factor IXa alpha and factor IXa beta. Factor IX alpha and factor IXa beta had similar affinity for the inhibitor benzamidine (Ki approximately 2.5 mM), and amidolytic activity of both species was inhibited by Glu-Gly-Arg-chloromethyl ketone and antithrombin III. Unlike factor IXa beta, factor IX alpha was unable to form SDS stable complexes with antithrombin III. Moreover, inhibition of factor IXa beta and factor IX alpha by Glu-Gly-Arg-chloromethyl ketone followed distinct pathways, because factor IX alpha was inhibited in a nonirreversible manner and displayed only minor incorporation of the dansylated inhibitor into its catalytic site. These data demonstrate that the catalytic site of factor IX alpha differs from that of the fully activated factor IXa beta. Factor IX and its derivatives were also compared with regard to complex assembly with factor VIII in direct binding studies employing the immobilized factor VIII light chain. Factor IX alpha and factor IXa beta displayed a 30-fold higher affinity for the factor VIII light chain (Kd approximately 12 nM) than the factor IX zymogen. Factor IXa alpha showed lower affinity (Kd approximately 50 nM) than factor IX alpha and factor IXa beta, which may explain the lower efficiency of factor X activation by factor IXa alpha. Collectively, our data indicate that cleavage of the Arg180-Val181 bond develops full amidolytic activity but results in suboptimal binding to the factor VIII light chain. With regard to cleavage of the Arg145-Ala146 bond, we have demonstrated that this results in the transition of the factor IX zymogen into an enzyme that lacks proteolytic activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cleavage at arginine 145 in human blood coagulation factor IX converts the zymogen into a factor VIII binding enzyme. 779 66

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