Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

alpha-Toxin, the major cytolysin of Staphylococcus aureus, promotes blood coagulation by its attack on human platelets (Bhakdi S., Muhly, M., Mannhardt, U., Hugo, F., Klapettek, K., Mueller-Eckhardt, C., and Roka, L. (1988) J. Exp. Med. 168, 527-542). In the present study we demonstrate that toxin attack on gel-filtered human platelets initiates the assembly of prothrombinase complexes at rates up to 10-fold of controls. Treatment of platelets with 0.1 microgram/ml alpha-toxin resulted in generation of 1.4 units of thrombin/10(8) platelets. A similar rate of thrombin generation was noted when platelets were subjected to three cycles of freezing and thawing. However, the alpha-toxin-induced prothrombinase activity was not due to platelet lysis, since less than 1% of total cellular lactate dehydrogenase was released by this alpha-toxin concentration. Two distinct and dissociable processes contributed to enhanced prothrombinase assembly. First, alpha-toxin promoted the exocytotic release of factor V from alpha-granules, which was accompanied by co-secretion of platelet factor 4. This process was calcium-dependent. Second, toxin-treated platelets exhibited an enhanced capacity to bind external factor V(a), a phenomenon that was not linked to Ca2(+)-dependent factor V secretion. Assembly of prothrombinase complexes via these two mechanisms together accounts for the procoagulant action of S. aureus alpha-toxin.
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PMID:Staphylococcus aureus alpha-toxin attack on human platelets promotes assembly of the prothrombinase complex. 211 11

The effects of soman poisoning on hematological (counts of red blood cells (RBC), white blood cells (WBC), and platelets and measurement of hematocrit) and coagulation parameters (prothrombin time, activated partial thromboplastin time, thrombin time and concentrations of fibrinogen, factor V, factor VII, and factor XI) and serum biochemistry (concentration of albumin, protein, calcium, cholesterol, triglycerides, blood urea nitrogen (BUN), magnesium, and creatinine and activities of alkaline phosphatase, alanine aminotransferase, aspartate aminotransferase, cholinesterase, creatinine phosphokinase (CPK), hydroxybutyrate dehydrogenase, and amylase) were determined at 1, 2, 4, 24, and 48 hours after poisoning of rabbits. There were significant (p less than 0.05) decreases in the RBC counts in all treatment groups that were measured initially at 4 hours and were reflected by parallel decreases in the hematocrit values. These changes were probably due to an increase in the hemolysis of the RBC rather than a decrease in the production of RBC. There were minor changes in the coagulation parameters. Generally, the fibrinogen content increased. The activated partial thromboplastin time decreased significantly (p less than 0.05) 24 and 48 hours after soman (50 micrograms/kg) poisoning. Blood cholinesterase values were significantly reduced in all treatment groups at all time periods. The CPK activity was increased after 4 and 24 hours in the 20 and 50 micrograms/kg soman groups. There were minor changes in the other biochemistry values, but none that showed a dose-response relationship; thus, they were considered to be of limited significance with regard to the toxic manifestations of soman exposure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of soman poisoning on hematology and coagulation parameters and serum biochemistry in rabbits. 212 98

The effects of medroxyprogesterone acetate (MPA) on the mechanism of coagulation in postmenopausal patients were studied and compared with those of tamoxifen by a retrospective analysis. The coagulation test parameters tested included platelet count, bleeding time, clotting time, prothrombin time, activated partial thromboplastin time, and the levels of fibrinogen, fibrin degradation products, factor II, factor V, plasminogen, alpha 2-plasmin inhibitor (alpha 2-PI) and alpha 2-plasmin inhibitor-plasmin complex (alpha 2-PI-P). A shortened APTT was noted and the levels of factors II, V, alpha 2-PI and alpha 2-PI-P were also out of the normal range during treatment in the MPA-treated group. However, these abnormal parameters recovered to within the normal range from 6 months or more after the commencement of treatment without any termination of drug administration. The patients were all asymptomatic. In contrast, a slight prolongation of bleeding time which persisted for more than 6 months was observed in the patients treated with tamoxifen. These data suggest that MPA causes a hypercoagulable state and that any change must be carefully monitored during treatment with either MPA or tamoxifen.
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PMID:The induction of a hypercoagulable state by medroxyprogesterone acetate in breast cancer patients. 215 Jun 78

Previous studies demonstrated that several cultured human tumor cell lines potentiate the conversion of prothrombin to thrombin by factor Xa and calcium in the absence of exogenous factor Va. In the present study, the specific binding of radioiodinated preparations of human factor X and factor Xa to a human hepatocellular carcinoma cell line (HepG2) that constitutively synthesizes a factor V/Va molecule, and a human bladder carcinoma cell line (J82) that does not synthesize factor V/Va, was examined. Radioiodinated factor Xa bound specifically to J82 and HepG2 cells, whereas no significant specific binding of 125I-factor X to either cell was observed. The binding isotherm of 125I-factor Xa to each tumor cell line exhibited a hyperbolic profile, and Scatchard analysis demonstrated a single class of binding site for factor Xa on each cell surface with Kd values of 1.66 +/- 0.39 and 1.64 +/- 0.52 nM and 566,000 +/- 71,000 and 28,000 +/- 6,000 binding sites/cell for HepG2 and J82 cells, respectively. Thrombin formation by cell-bound factor Xa was hyperbolic and saturable at 5 nM factor Xa on each cell line. Hanes-Woolf plots of the prothrombin activation data indicated that half-maximal rates of thrombin formation occurred at factor Xa concentrations of 1.50 +/- 0.43 nM and 1.42 +/- 0.48 nM on HepG2 and J82 cells, respectively. Pretreatment of J82 cells with polyclonal anti-human factor V IgG had no measurable effect on either the binding of 125I-factor Xa or prothrombin activation. However, pretreatment of HepG2 cells with anti-human factor V IgG inhibited prothrombin activation in a dose-dependent manner, but did not inhibit the binding of factor Xa to this cell. When both cell lines were preincubated with exogenous human factor Va, the binding of factor Xa to either HepG2 or J82 cells was marginally affected. These data indicate that HepG2 and J82 cells have cell surface factor Xa binding sites proximal to, but independent of, cell surface factor Va of either exogenous or endogenous origin.
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PMID:Binding of human factors X and Xa to HepG2 and J82 human tumor cell lines. Evidence that factor Xa binds to tumor cells independent of factor Va. 216 Sep 56

Mitogenesis, cell differentiation and immune-inflammatory responses are regulated by the coordinated assembly of proteases with specific cellular receptors. We have investigated the possibility that immune effector cells may express a high-affinity protease receptor. To address this hypothesis, we have generated mAb to factor V and its activated form Va, a circulating plasma protein that binds the serine protease of the coagulation cascade, factor Xa. Further, by flow microfluorimetry screening, we have isolated a panel of these mAb that recognize a surface molecule expressed on transformed monocytic cells. We now show that these mAb bind to blood monocytes, to CD3- CD16+ CD56+ NK cells, and with considerable heterogeneity, to neutrophils. A small subset of CD3+ cells (5 to 10%) was also identified by these probes and further phenotypically characterized by two-color flow microfluorimetry as predominantly coexpressing CD2, CD4 or CD8, CD57, CD11b, and alpha/beta TCR. This subset of CD3+ cells was expanded in vitro by both lectin- or Ag-specific stimulation. In addition, long term alloreactive stimulation resulted in approximately 8- to 10-fold increased expression of the molecule recognized by these mAb. Functional analyses were performed on a selected T cell clonal derivative of the transformed cell line HuT 78. These cells bound 125I-factor Xa in a specific reaction saturated at 194,000 +/- 26,000 molecules/cell with a Kd approximately 10 to 20 nM and inhibited by the mAb panel described above. These data suggest that immune effector cells express a dynamically regulated protease receptor that is immunologically related to the plasma coagulation protein factor V and its activated form Va. We propose the term effector cell protease receptor-1 to tentatively identify this molecule, and we speculate on its possible involvement in specialized protease-mediated effector functions.
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PMID:Identification of effector cell protease receptor-1. A leukocyte-distributed receptor for the serine protease factor Xa. 216 87

The functional characterization of human platelet-released factor V and its activation by factor Xa and thrombin was studied by functional assessment of cofactor activity and Western blotting analyses of platelet releasates, obtained by stimulating washed suspensions of platelets with various agonists, including collagen, collagen with ADP, and the calcium ionophore A23187. Platelet factor V was released as a partially proteolyzed molecule that was bound to platelet microparticles, irrespective of the agonist used. Radiolabeled plasma factor V was not cleaved for up to 30 min following release when added to platelets prior to stimulation, suggesting that platelet factor V was stored in a partially proteolyzed form. Released platelet factor V possessed significant cofactor activity that was increased only 2-3-fold by either factor Xa or thrombin. The factor V subunits that expressed cofactor activity were isolated and found to consist of peptides of Mr = 220,000 and 150,000. Incubation of released platelet factor V with factor Xa or thrombin yielded the same cleavage pattern, in which two peptides of Mr = 105,000 and 74,000 appeared to be electrophoretically indistinguishable from thrombin-activated plasma factor V. Under the conditions of these studies, factor Xa activated platelet-released factor V 50-100 times more effectively than thrombin. This observation may be due in part to the existence of platelet factor V in a partially proteolyzed state, or its association with platelet microparticles following platelet stimulation. These data collectively suggest that platelet-released factor V may be the foremost initiator of prothrombinase complex assembly and function during the early stages of coagulation with additional cofactor activation accomplished by factor Xa.
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PMID:Functional characterization of human platelet-released factor V and its activation by factor Xa and thrombin. 221 16

There is evidence that by catalyzing thrombin inhibition, several glycosaminoglycans can inhibit the thrombin-mediated amplification reactions of coagulation and thereby delay prothrombin activation. The two amplification reactions can apparently be catalysed by endogenously generated factor Xa and thrombin. This study provides evidence which suggests that on a molar basis, an agent which can only catalyse thrombin inhibition is approximately 10 times more effective than an agent which can only catalyse factor Xa inhibition in their ability to inhibit intrinsic prothrombin activation. We determined the concentrations of each of heparin, dermatan sulfate and a pentasaccharide with high affinity for antithrombin III, to delay intrinsic prothrombin activation for at least 15s. Heparin catalyses both thrombin and factor Xa inhibition; dermatan sulfate catalyses only thrombin inhibition, while the pentasaccharide only catalyses factor Xa inhibition. Efficient prothrombin activation, which coincided with both factor X activation and factor V proteolysis, was first observed 45s after CaC12 was added to contact-activated plasma. Heparin (approximately 0.1 microM) prolonged by at least 30 s the time required for the activation of the three clotting factors to begin. The minimum concentrations of the pentasaccharide and dermatan sulfate to delay the activation of prothrombin, factors X and V were approximately 50 microM and approximately 5 microM, respectively. Thus, each anticoagulant could inhibit intrinsic prothrombin activation only when it inhibited activation of both factors X and V. A combination of approximately 5 microM pentasaccharide and approximately 0.05 microM dermatan sulfate similarly delayed the activation of all three clotting factors. Thus, while catalysis of thrombin inhibition is a more effective pathway than catalysis of factor Xa inhibition for delaying prothrombin activation, the simultaneous catalysis of thrombin and factor Xa inhibition can synergistically improve the ability of a sulfated polysaccharide to delay prothrombin activation.
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PMID:Inhibition of factor X and factor V activation by dermatan sulfate and a pentasaccharide with high affinity for antithrombin III in human plasma. 222 66

Coagulation factor Va is a cofactor which combines with the serine protease factor Xa on a phospholipid surface to form the prothrombinase complex. The phospholipid-binding domain of bovine factor Va has been reported to be located on the light chain of the molecule and more precisely on a fragment of Mr = 30,000 which is obtained after digestion of factor Va light chain by factor Xa. This proteolytic fragment is located in the NH2-terminal part of factor Va light chain (residues 1564-1765). In order to further characterize the lipid-binding domain of bovine factor Va, isolated bovine light chain was preincubated with synthetic phospholipid vesicles (75% phosphatidylcholine, 25% phosphatidylserine) and digested with trypsin, chymotrypsin, and elastase. Two peptide regions protected from proteolytic cleavage were identified and characterized from each proteolytic digestion. A comparison of the NH2-terminal sequence and amino acid composition of the two tryptic peptides with the deduced sequence of human factor V indicates a match with residues 1657-1791 of the light chain of human factor V for one peptide and residues 1546-1656 for the other peptide. When chymotrypsin or elastase were used for digestion, the NH2-terminal sequence of one peptide showed a match with residues 1667-1797 of the light chain, while the other peptide presented an NH2-terminal sequence identical with the previously described for the bovine factor Va light chain. When these peptides were assayed for direct binding to phospholipid vesicles, only the tryptic and the chymotryptic peptides covering the middle region of the A3 domain of the bovine factor Va light chain demonstrated an ability to interact with phospholipid vesicles. Thus, knowing that the factor Xa cleavage site on the factor Va light chain is located between residues 1765 and 1766 of the light chain this lipid-binding region of the bovine factor Va is further localized to amino acid residues 1667-1765.
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PMID:Identification and characterization of a phospholipid-binding site of bovine factor Va. 225 16

The activation of bovine prothrombin was studied with highly purified clotting factors and using a coagulation assay developed to look at the initial rate of prothrombin conversion as well as the conversion rate over a time course of 75 min. Activation of prothrombin by factor Xa alone was slow. The rate of prothrombin conversion increased markedly with the addition of each of the accessory components Ca2+, phospholipid and bovine factor V, respectively. With the complete prothrombinase complex comprising factor Xa, Ca2+, phospholipid and factor V, the rate increase was about 22,000-fold higher compared to the action of factor Xa and Ca2+ on prothrombin alone. The rates of thrombin formation obtained with activated factor X1 were only about 70% the values obtained with factor X2. The rate of prothrombin activation and the difference between the activities of the activated factors X1 and X2 are discussed.
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PMID:Activation of bovine prothrombin as monitored by the clotting assay. 232 20

The activation of human factor V by factor Xa and thrombin was studied by functional assessment of cofactor activity and sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by either autoradiography of 125I-labeled factor V activation products or Western blot analyses of unlabeled factor V activation products. Cofactor activity was measured by the ability of the factor V/Va peptides to support the activation of prothrombin. The factor Xa catalyzed cleavage of factor V was observed to be time, phospholipid, and calcium ion dependent, yielding a cofactor with activity equal to that of thrombin-activated factor V (factor Va). The cleavage pattern differed markedly from the one observed in the bovine system. The factor Xa activated factor V subunits expressing cofactor activity were isolated and found to consist of peptides of Mr 220,000 and 105,000. Although thrombin cleaved the Mr 220,000 peptide to yield peptides previously shown to be products of thrombin activation, cofactor activity did not increase. N-Terminal sequence analysis confirmed that both factor Xa and thrombin cleave factor V at the same bond to generate the Mr 220,000 peptide. The factor Xa dependent functional assessment of 125I-labeled factor V coupled with densitometric analyses of the cleavage products indicated that the cofactor activity of factor Xa activated factor V closely paralleled the appearance of the Mr 220,000 peptide. This observation facilitated the study of the kinetics of factor V activation by allowing the activation of factor V to be monitored by the appearance of the Mr 220,000 peptide (factor Xa activation) or the Mr 105,000 peptide (thrombin activation). Factor Xa catalyzed activation of factor V obeyed Michaelis-Menten kinetics and was characterized by a Km of 10.4 nM, a kcat of 2.6 min-1, and a catalytic efficiency (kcat/Km) of 4.14 X 10(6) M-1 s-1. The thrombin-catalyzed activation of factor V was characterized by a Km of 71.7 nM, a kcat of 14.0 min-1, and a catalytic efficiency of 3.26 X 10(6) M-1 s-1. This indicates that factor Xa is as efficient an enzyme toward factor V as thrombin.
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PMID:Activation of human factor V by factor Xa and thrombin. 232 51


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