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)

Thrombospondin is a multifunctional glycoprotein of platelet alpha-granules and a variety of growing cells. We demonstrate that thrombospondin is a slow tight-binding inhibitor of plasmin as determined by loss of amidolytic activity, loss of ability to cleave fibrinogen, and decreased lysis zones in fibrin plate assays. Stoichiometric titrations indicate that approximately 1 mol of plasmin interacts with 1 mol of thrombospondin, an unexpected result considering the trimeric nature of thrombospondin. Plasmin in a complex with streptokinase or bound to epsilon-aminocaproic acid is protected from inhibition by thrombospondin, thereby implicating the lysine-binding kringle domains of plasmin in the inhibition process. Thrombospondin also inhibits urokinase plasminogen activator, but more slowly than plasmin, stimulates the amidolytic activity of tissue plasminogen activator, and has no effect on the amidolytic activity of alpha-thrombin or factor Xa. These results, therefore, identify thrombospondin as a new type of serine proteinase inhibitor and potentially important regulator of fibrinolysis.
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PMID:Thrombospondin is a slow tight-binding inhibitor of plasmin. 153 Oct 22

Tick anticoagulant peptide (TAP) is a 60 amino acid protein which is a highly specific inhibitor of human blood coagulation factor Xa (fXa) isolated from the tick Ornithodoros moubata [Waxman, L., Smith, D. E., Arcuri, K. E., & Vlasuk, G. P. (1990) Science 248, 593-596]. Due to the limited quantities of native TAP, a recombinant version of TAP produced in Saccharomyces cerevisiae was used for a detailed kinetic analysis of the inhibition interaction with human fXa. rTAP was determined to be a reversible, slow, tight-binding inhibitor of fXa, displaying a competitive type of inhibition. The binding of rTAP to fXa is stoichiometric with a dissociation constant of (1.8 +/- 0.02) x 10(-10) M, a calculated association rate constant of (2.85 +/- 0.07) x 10(6) M-1 s-1, and a dissociation rate constant of (0.554 +/- 0.178) x 10(-3) s-1. Binding studies show that 35S-rTAP binds only to fXa and not to DFP-treated fXa or zymogen factor X, which suggests the active site of fXa is required for rTAP inhibition. That rTAP is a unique serine proteinase inhibitor is suggested both by its high specificity for its target enzyme, fXa, and also by its unique structure.
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PMID:Tick anticoagulant peptide: kinetic analysis of the recombinant inhibitor with blood coagulation factor Xa. 227 97

Steady state kinetic studies have provided evidence for intrinsic prothrombinase activity of human factor X zymogen in a chromogenic assay system. Using a prothrombin substrate, kinetic parameters have been obtained for the action of factors X and Xa. The Km for prothrombin is of a different order of magnitude for the zymogen as compared with the active enzyme. Using a kinetic approach, we have obtained evidence for the binding of factor Xa zymogen to cofactors essential for the coagulant activity of factor Xa. Zymogen enzymatic activity is not inhibited by a specific serine proteinase inhibitor, (p-amidino-phenyl)methanesulfonyl fluoride (p-APMSF), a potent inhibitor of factor Xa. The apparent slow rate of zymogen inhibition by antithrombin III (AT III) as compared with the active enzyme suggests a different kind of zymogen-antithrombin interaction. Blood clotting studies paralleled the kinetic data. Factor X zymogen evidences factor VIII inhibitor bypassing activity (FEIBA) in an in vitro direct clotting system employing factor VIII deficient inhibitor plasma as substrate in both activated or nonactivated partial thromboplastin assay. Most significantly, zymogen coagulant is refractory to inhibition by p-APMSF or AT III. We conclude that a system consisting of factor X zymogen-phospholipid-factor Va can physiologically initiate blood clotting in the presence of inhibitors and may have a major role in the bypass mechanism of therapeutic prothrombin complex concentrate (PCC).
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PMID:Apparent intrinsic prothrombinase activity of human Factor X zymogen: identification with Factor VIII inhibitor bypassing activity (FEIBA). 633 7

Chicken embryo proteinases, one of which is a blood clotting factor Xa-like proteinase, are known to effectively cleave the haemagglutinin (HA) of Influenza B viruses to permit their replication in chicken embryonated eggs. Here we show that injection of the serine proteinase inhibitor, aprotinin, into the allantoic cavity of eggs infected with Influenza B/Hong Kong/73 and B/Lee/40 viruses suppresses the viral HA cleavage and reduces the virus proteolytic activation and replication. Effective inhibition dose was determined as approximately 10.0 micrograms of aprotinin per embryo that corresponds to 0.1 microM concentration. However, heparin, which is known to be a direct inhibitor of the Factor Xa, was not able to suppress Influenza B virus hemagglutinin cleavage and replication in chicken embryo system. These data shed light on the pattern of proteinases involved in the Influenza B virus proteolytic activation and indicate that aprotinin possesses antiviral potential against Influenza B viruses.
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PMID:Replication of influenza B virus in chicken embryos is suppressed by exogenous aprotinin. 751 25

The human intracellular serine proteinase inhibitor, proteinase inhibitor 6 (PI-6), was expressed in the methylotropic yeast Pichia pastoris. The PI-6 cDNA was modified to encode six histidine residues immediately after the initiation codon, and was placed under the control of the P. pastoris alcohol oxidase promoter in the vector pHIL-D2. On the methanol induction, active recombinant PI-6 was produced within the yeast cells, and following cell lysis, was separated from yeast proteins by affinity chromatography using nickel nitrilo-tri-acetic acid (NTA) resin. The interaction of recombinant PI-6 with a range of serine proteinases was studied. Second order association rate constants (ka) were derived for the interaction with trypsin (1.8 x 10(6) M-1 s-1), thrombin (1.2 x 10(5) M-1 s-1), urokinase plasminogen activator (4.0 x 10(4) M-1 s-1), plasmin (1.3 x 10(6) M-1 s-1), and activated protein C (7.5 x 10(3) M-1 s-1). By monitoring complex formation, recombinant PI-6 was also shown to interact with factor Xa. No complex formation was observed with chymotrypsin, human leukocyte elastase, cathepsin G and tissue plasminogen activator, although PI-6 is apparently a substrate for chymotrypsin, leukocyte elastase and cathepsin G.
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PMID:Production and characterization of recombinant human proteinase inhibitor 6 expressed in Pichia pastoris. 754 63

Antithrombin is a member of the serine proteinase inhibitor (serpin) family which contain a flexible reactive site loop that interacts with, and is cleaved by the target proteinase. In cleaved and latent serpins, the reactive site loop is inserted into a large central beta-sheet in the same molecule, whereas in ovalbumin, a nonfunctional serpin, the reactive site loop is completely exposed and in an alpha-helical conformation. However, in neither conformation can the reactive site loop bind to target proteinases. Here we report the structure of an intact and cleaved human antithrombin complex. The intact reactive site loop is in a novel conformation that seems well suited for interaction with proteinases such as thrombin and blood coagulation factor Xa.
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PMID:The intact and cleaved human antithrombin III complex as a model for serpin-proteinase interactions. 765 6

Aprotinin, a broad spectrum serine proteinase inhibitor, is becoming increasingly used to control bleeding during surgery. Heparinized patients treated with aprotinin for cardiac surgery have a much longer activated clotting time (ACT) than expected for the dose of heparin used and a similar effect has been observed with the activated partial thromboplastin time (APTT). Since APTT reagents vary in their sensitivity to heparin we compared the effect of aprotinin on 25 commercially available products with respect to the APTT response to heparin. Aprotinin (Bayer) was added to normal, pooled, citrated plasma at concentrations of 0, 100, 200, 300 and 400 kallikrein inhibition units (KIU)/ml and mucosal heparin was then added to give concentrations of 0, 0.25, 0.5, 0.75 and 1.0 IU/ml. Duplicate APTTs were performed on each of these 25 plasma samples according to the manufacturers' instructions. As expected, different commercial reagents exhibited different sensitivities to heparin. There was also variation in the sensitivity to aprotinin but this did not correlate with the heparin sensitivity. The prolongation of the APTT by heparin was markedly increased by aprotinin. For example, APTT ratios at 0.5 IU/ml heparin increased up to eight-fold in the presence of 'therapeutic' levels of aprotinin (200 KIU/ml) and this effect was even more pronounced at higher heparin levels. The activator used did not significantly influence the effect of aprotinin on the APTT although there was a trend for kaolin-activated reagents to be less affected by the addition of aprotinin to heparinised plasma.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of aprotinin on the response of the activated partial thromboplastin time (APTT) to heparin. 768 30

The serine proteinase inhibitor antithrombin III (ATIII) is a key regulatory protein of intrinsic blood coagulation. ATIII attains its full biological activity only upon binding polysulfated oligosaccharides, such as heparin. A series of synthetic peptides have been prepared based on the proposed heparin binding regions of ATIII and their ability to bind heparin has been assessed by CD spectrometry, by isothermal titration calorimetry, and by the ability of the peptides to compete with ATIII for binding heparin in a factor Xa procoagulant enzyme assay. Peptide F123-G148, which encompasses both the purported high-affinity pentasaccharide binding region and an adjacent, C-terminally directed segment of ATIII, was found to bind heparin with good affinity, but amino-terminal truncations of this sequence, including L130-G148 and K136-G148 displayed attenuated heparin binding activities. In fact, K136-G148 appears to encompass only a low-affinity heparin binding site. In contrast, peptides based solely on the high-affinity binding site (K121-A134) displayed much higher affinities for heparin. By CD spectrometry, these high-affinity peptides are chiefly random coil in nature, but low microM concentrations of heparin induce significant alpha-helix conformation. K121-A134 also effectively competes with ATIII for binding heparin. Thus, through the use of synthetic peptides that encompass part, if not all, of the heparin binding site(s) within ATIII, we have further elucidated the structure-function relations of heparin-ATIII interactions.
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PMID:Heparin binding domain peptides of antithrombin III: analysis by isothermal titration calorimetry and circular dichroism spectroscopy. 800 80

The full-length cDNA encoding a novel human intracellular serine proteinase inhibitor has been sequenced and found to encode a 376 amino acid protein (M(r) approximately 42.5K) that we designate as cytoplasmic antiproteinase. Analysis of the primary structure revealed that the cytoplasmic antiproteinase has the majority of structural motifs conserved among the greater superfamily of serine proteinase inhibitors, or serpins. On the basis of several criteria such as amino acid identity and the absence of a classical N-terminal signal peptide, the cytoplasmic antiproteinase represents a new member of the intracellular serpin family. Further inspection of the cytoplasmic antiproteinase amino acid sequence identified three potential N-glycosylation sites and Arg341-Cys342 as the reactive site P1-P1' residues, respectively. We have also employed the slow binding kinetic approach to detail the mechanism of bovine trypsin and human factor Xa inhibition by the novel cytoplasmic antiproteinase. Inhibition of trypsin by the cytoplasmic antiproteinase was preceded by a two-step mechanism corresponding to the formation of an initial loose complex, followed by an isomerization step to a more stable, tight complex. The binding of the cytoplasmic antiproteinase to trypsin occurred with a second-order association rate constant of 2.8 x 10(6) M-1 s-1 and an overall equilibrium constant of 22.5 pM, demonstrating that the factor is a potent inhibitor of this proteinase. Under the appropriate conditions, the tight complex between trypsin and the cytoplasmic inhibitor was reversible, indicated by an exponential regeneration of proteinase amidolytic activity from the preformed complex. Therefore, the tight complex appears to be stabilized predominantly by reversible bonds that form between trypsin and the cytoplasmic inhibitor. In contrast to the inhibition of trypsin, the inhibition of factor Xa amidolytic activity by the cytoplasmic antiproteinase followed a single-step binding mechanism. The apparent first-order rate constant for factor Xa inhibition was found to increase as a linear function of the inhibitor concentration range studied. Formation of the inhibitory complex between factor Xa and the cytoplasmic antiproteinase occurred with a second-order association rate constant of approximately 1.3 x 10(5) M-1 s-1 and a equilibrium constant of 3.7 nM. These findings suggests that the cytoplasmic inhibitor may initially encounter significant energy barriers for proper alignment with the substrate binding cleft of factor Xa. However, once aligned, the reaction proceeds rapidly to a tight factor Xa.inhibitor complex that dissociates at a slow rate.
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PMID:Complementary DNA cloning and kinetic characterization of a novel intracellular serine proteinase inhibitor: mechanism of action with trypsin and factor Xa as model proteinases. 813 80

A recent report described a thrombin inhibitory activity in the soluble fraction of human placenta and the cytosolic fraction of K562 cells. Isolation and characterization of the functionally inactive 35-38-kDa placental form of this protein revealed that it was a novel serine proteinase inhibitor (Coughlin, P. B., Tetaz, T., and Salem, H. H. (1993) J. Biol. Chem. 268, 9541-9547). In the present study, we observed a 67-kDa sodium dodecyl sulfate (SDS)-stable complex when 125I-thrombin was incubated with the cytosolic fraction of a monkey kidney epithelial cell line, BSC-1. This complex was not observed in either the particulate cell fraction extracted with 0.2% Triton X-100 or medium conditioned by cells, suggesting that the thrombin-complexing factor is confined to the cytoplasm. The cytoplasmic antithrombin activity was purified to apparent homogeneity from the cytosol of BSC-1 cells previously pulsed with [35S]methionine by a combination of heparin-agarose chromatography, Mono Q fast protein liquid chromatography, and anhydrotrypsin-Affi-Gel 10 affinity chromatography. Analysis of the affinity-purified preparation by SDS-polyacrylamide gel electrophoresis and fluorography revealed a single protein with an apparent molecular mass of 38 kDa. The purified 38-kDa protein inhibited the amidolytic activities of thrombin, trypsin, urokinase, and factor Xa but not that of elastase. Incubation of the 38-kDa protein with excess thrombin identified approximately 60% of the labeled 38-kDa protein in an SDS-stable 67-kDa complex. The purified 38-kDa inhibitor was cleaved with cyanogen bromide and the isolated peptides subjected to microsequencing. Amino acid sequence obtained for a region within this protein exhibited significant homology with human antithrombin III and plasminogen activator inhibitors 1 and 2. This homologous peptide contained the full complement of residues designated as highly conserved in helix F of the greater serine proteinase inhibitor superfamily. In addition, an internal sequence of GGGGDIHQGF was found in the monkey cytoplasmic inhibitor, which is identical to that reported for an internal sequence of the human placental inhibitor. These findings confirm the existence of a novel cytoplasmic serine proteinase inhibitor in mammalian cells and provide additional details of its molecular properties. The physiological function of this novel serine proteinase inhibitor in cytoplasm is unknown.
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PMID:Isolation and characterization of an intracellular serine proteinase inhibitor from a monkey kidney epithelial cell line. 840 7


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