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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intact annexin V but not its fragments bound specifically to platelets in the presence of calcium. Maximal binding observed was 0.87 pmole annexin V per 10(8) platelets with an apparent dissociation constant of 2.13 x 10(-11) M. This represents approximately 5000 binding sites per platelet. Platelet stimulation by thrombin increased the binding of annexin V by 40-fold. Addition of phospholipid vesicles or treatment with phospholipase C inhibited annexin V binding to platelets, suggesting that phospholipid is the binding site for annexin V and that phosphatidylcholine forms at least part of this site. Binding of annexin V did not cause platelet aggregation and did not affect thrombin or collagen induced aggregation. However annexin V significantly inhibited the binding of protein S to the platelet surface.
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PMID:Interaction of annexin V and platelets: effects on platelet function and protein S binding. 838 98

We compared the relative abilities of unfractionated heparin and annexin V to prevent fibrin accretion onto injured jugular veins in vivo. Heparin was used to accelerate the inhibition of thrombin by antithrombin III, and annexin V was used to inhibit the assembly of the prothrombinase complex on phospholipid surfaces, thereby blocking thrombin generation. Rabbit jugular veins were isolated in situ, a 2 cm segment was injured by perfusing it with air, and then blood flow was re-established. Five minutes later, each rabbit was injected with heparin (20 U/kg) or annexin V (0.3 mg/kg) and then with 125I-fibrinogen. The amount of 125I-fibrin accumulation onto each injured vessel wall segment was measured 4 h later. Each injured vessel was completely de-endothelialized as a result of the air perfusion as demonstrated by electron microscopy. 125I-fibrin accretion onto the injured jugular veins was enhanced 2.4-fold as compared to the uninjured veins in sham-operated animals. Heparin treatment did not reduce fibrin accretion, whereas, annexin V treatment decreased fibrin accretion by 60%, p < 0.05. This latter effect was achieved without sustained circulating anticoagulation. Additional experiments confirmed that the inhibitory effect of annexin V on fibrin accretion was associated with a surface specific effect, since more annexin V bound to the injured jugular vein segments as compared to the non-injured jugular veins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of heparin and annexin V on fibrin accretion after injury in the jugular veins of rabbits. 847 45

Annexin V, a protein with a high affinity and a strict specificity for aminophospholipids at physiologic calcium concentrations, was used to probe platelet activation and the development of procoagulant activity. Platelet secretion was studied in parallel using VH10, a murine monoclonal antibody specific for GMP-140, an alpha-granule membrane glycoprotein. Both proteins were labeled with fluorescein isothiocyanate and platelet activation was assessed by flow cytometry. Microparticles, which are shed from the platelet surface and also support procoagulant activity, were distinguished from platelets according to their associated light scattering signal. The relative ability of different inducers to trigger exposure of the procoagulant surface and microparticle formation was: ionophore A23187 > thrombin plus collagen > collagen > thrombin. The density of aminophospholipid on microparticles was higher than on remnant platelets. Platelet activation by these agonists was accompanied by GMP-140 exposure, both on platelets and microparticles. Here, thrombin was the most efficient agonist. The mechanisms responsible for the above processes were investigated using E-64-d, a specific membrane-permeable inhibitor of Ca(2+)-activated protease (calpain); tetracaine, an activator of calpain; and N-ethylmaleimide and diamide, two sulfhydryl-reactive agents. These agents were added to platelets alone or before stimulation by agonists. Calpain activity was assessed by the hydrolysis of cytoskeletal proteins as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Results showed that calpain activity is not essential for aminophospholipid translocation or for secretion. In contrast, although sulfhydryl-reactive agents alone can trigger procoagulant activity, they inhibit microvesicle formation and platelet secretion induced by the above agonists, suggesting that different mechanisms account for these phenomena. The use of annexin V in flow cytometry is a rapid method to assess procoagulant activity in platelets and the loss of phospholipid asymmetry in cell membranes.
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PMID:Annexin V as a probe of aminophospholipid exposure and platelet membrane vesiculation: a flow cytometry study showing a role for free sulfhydryl groups. 849 Jan 69

Phosphatidylserine (PS) is normally restricted to the inner leaflet of the plasma membrane of cells (including blood platelets). Upon cell activation PS may become exposed to the outer surface of the cell. Cell membranes with surface exposed PS at the outside form a catalytic surface for coagulation reactions. When platelets are activated with ionophore or with thrombin in combination with thapsigargin, calcium induced scrambling of phospholipids takes place, resulting in PS exposure. Concomitant with PS exposition structural changes take place. On resting and activated platelets we combined the immunocytochemical detection of surface exposed PS with (ultra)structural information. Blood platelets were activated in the presence of annexin V, a protein which binds to PS in the presence of Ca2+. Annexin V was found to bind to lipid bilayers containing more than 5 mole % PS as estimated by binding of fluorescent-labelled annexin V to liposomes with varying PS concentrations. After vitrification, freeze-substitution and embedding of the platelets, annexin V was located on ultra thin sections, as detected by an anti-annexin V antibody and gold labelled protein A. Upon activation, the platelets show two different forms; irregular platelets with unchanged cytoplasm and round cells with apparently diluted cytoplasm. Activation with ionophore initially resulted in both forms, but after ten minutes only round platelets with diluted cytoplasm were observed. Both forms of these platelets as well as the microvesicles were found to be annexin V positive. However upon activation with thrombin in combination with thapsigargin, only the round cells with diluted cytoplasm and microvesicles were annexin V positive, whereas platelets with unchanged cytoplasm, even when microvesicles are present, are negative for annexin V.
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PMID:Ultrastructural detection of surface exposed phosphatidylserine on activated blood platelets. 856 Apr 27

Platelets are exposed to thrombin when they take part in arterial thrombus formation, and they may return to the circulation when they are freed by fibrinolysis and dislodged by flowing blood. Thrombin causes the expression of procoagulant activity on platelets, and if this activity persists, the recirculating platelets may contribute to subsequent thrombosis. We have developed techniques to degranulate human platelets by treatment with thrombin, and recover then as single, discrete platelets that aggregate in response to both weak and strong agonists. In the present study we examined the duration of procoagulant activity on the surface of thrombin-degranulated platelets by two methods: a prothrombinase assay, and the binding of 125I-labeled annexin. Control platelets generated 0.9 +/- 0.4 U thrombin per 10(7) platelets in 15 min. Suspensions of thrombin-degranulated platelets formed 5.4 +/- 0.1 U thrombin per 10(7) platelets in this time. Binding of 125I-annexin V was also greater with thrombin-treated platelets than with control platelets (controls: 1.7 +/- 0.1 ng annexin/10(7) platelets; thrombin-degranulated platelets: 6.8 +/- 0.2 ng annexin/10(7) platelets). With thrombin-degranulated platelets, increased procoagulant activity and annexin binding persisted for at least 4 h after degranulation and resuspension, indicating that the catalytic activity for the prothrombinase complex is not reversed during this time. These platelets maintained their ability to aggregate for 4 h, even in response to the weak agonist, ADP. Thus, platelets that have taken part in thrombus formation and returned to the circulation may contribute to the promotion of further thrombotic events because of the persistence of procoagulant activity on their surface.
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PMID:Prolonged expression of procoagulant activity of human platelets degranulated by thrombin. 857 29

We have demonstrated the presence of a saturable, reversible, and Ca(2+)-dependent binding site for 125I-labeled factor X ([125I]factor X) on human platelets (16000 +/- 2000 sites per platelet, Kd = 320 +/- 40 nM, n = 12) activated with either thrombin or the thrombin receptor agonist peptide, SFLLRN-amide, but not with ADP. Bound [125I]factor X could be completely removed by the addition of a Ca2+ chelator or an excess of unlabeled factor X. Antibodies that inhibit binding of factor X to the MAC-1 integrin receptor of monocytes and those directed against human factor V, failed to disrupt [125I]factor X binding to platelets. Prothrombin, but neither factor VII, factor IX, protein C, nor protein S, was an effective competitor of [125I]factor X binding with a K1 approximately Kd. [125I]Prothrombin also binds to activated (but not unactivated) platelets in a saturable, reversible, and Ca(2+)-dependent manner (20500 +/- 1500 sites, Kd = 470 +/- 110 nM, n = 3). Annexin V potently inhibited the binding of both [125I]factor X and [125I]prothrombin (IC50 approximately 3 nM). Factor X, prothrombin, and prothrombin fragment 1 (residues 1-155) were equipotent inhibitors of [125I]prothrombin and [125I]factor X binding, whereas Gla-domain-less factor X was unable to compete with [125I]factor X for platelet binding sites. Thus, it is the Gla-domains of factor X and prothrombin that appear to contain the regions necessary for platelet binding. The results of studies utilizing artificial phospholipid surfaces have led to the hypothesis that the substrates (FX and prothrombin) for the intrinsic pathway FXase and prothrombinase complexes are bound to the phospholipid surface. The factor X/prothrombin binding site we have described on the surface of activated platelets permits the utilization of surface-bound substrates by these complexes when they are assembled on a physiologic surface.
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PMID:A binding site expressed on the surface of activated human platelets is shared by factor X and prothrombin. 868 25

Phosphatidylserine was exposed on the surface of human umbilical endothelial cells (ECV304) a few minutes after adding thrombin in vitro, as monitored by prothrombinase assays with and without annexin V. Jurkat T cells adhered to the thrombin-treated cells. The adhesion was inhibited by annexin V, indicating that it was mediated by exposed phosphatidylserine on the endothelial cells.
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PMID:Phosphatidylserine-mediated adhesion of T-cells to endothelial cells. 871 56

Recently it has been suggested that antiphospholipid antibodies may not be specific for phospholipids but directed to beta2glycoprotein 1 (beta2GP1), phospholipid-beta2GP1 complexes, prothrombin, or prothrombin-phospholipid complexes. To explore this issue further, we examined the influence of two phospholipid binding proteins, annexin V (placental anticoagulant protein I (PAP I)) and beta2GP1, on the activity of immunoglobulin G (IgG) fractions from patients with antiphospholipid syndrome (APS), both in the prothrombin-thrombin conversion assay and in the anticardiolipin enzyme-linked immunosorbent assay (ELISA). Results showed that each of eight IgG-APS; fractions, as well as PAP I and beta2GP1, individually inhibited the prothrombinase reaction. When IgG-APS samples were combined with PAP I or beta2GP1, or both PAP I and beta2GP1, inhibition of the prothrombinase reaction was additive. In the anticardiolipin ELISA, PAP I inhibited IgG-APS binding to cardiolipin, but beta2GP1 enhanced IgG-APS binding to cardiolipin. The "enhancing" effect of beta2GP1 in the ELISA system was neutralized by PAP I, an effect partially overcome by increasing the concentration of beta2GP1. Similar results were observed when affinity-purified anticardiolipin antibodies were used in place of whole IgG-APS preparations. These data indicate that IgG preparations obtained from the 8 patients with APS recognize similar epitopes; on anionic phospholipids in the anticardiolipin test and in the prothrombin-thrombin conversion assay. These data do not exclude the possibility that the IgG preparations may bind prothrombin-phospholipid or beta2GP1-phospholipid complexes.
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PMID:Studies on the interaction of placental anticoagulant protein I, beta 2 glycoprotein 1, and antiphospholipid antibodies in the prothrombinase reaction and in the solid phase anticardiolipin assays. 876 15

Blood platelets provide the major surface for thrombin generation. When platelets are activated they expose phosphatidylserine (PS) on their outer membranes, providing the surface on which two procoagulant enzyme complexes, the Xase and prothrombinase complexes, assemble. We hypothesized that there is biological variability in platelet procoagulant activity. To test this hypothesis, we activated isolated platelets from seventeen volunteers, and added plasma concentrations of factors VIII, IXa, and X for the Xase complex assembly, and F.Xa and II for the prothrombinase complex. Xase and prothrombinase activity were assayed using a chromogenic substrate. We found a two- to three-fold variation in Xase and prothrombinase activity, respectively. The distribution of Xase activity in the population was symmetric, while the distribution of prothrombinase activity was positively skewed. The difference in distribution implies that simple expression of procoagulant lipid was not the only determinant of procoagulant activity. Variation in prothrombinase activity was not due to the amount of platelet-released F.V. Neither microparticle production nor F.X binding correlated with Xase or prothrombinase activity. Using fluorescein-conjugated annexin V, we also found no direct correlation between the level of PS exposure and Xase or prothrombinase activity. This indicates that platelets must make other contributions, in addition to PS, to the activity of the Xase and prothrombinase complexes. There is evidence that platelets possess specific receptors for some coagulation proteins, although these receptors have not been isolated. Biological variability in the expression of platelet receptors might explain the differences in Xase and prothrombinase activities in our study.
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PMID:Variability in platelet procoagulant activity in healthy volunteers. 890 12

Annexin V was found to inhibit factor IXa-catalyzed factor X activation on both thrombin-activated human platelets and artificial lipid vesicles containing phosphatidylserine, supporting previous observations of the importance of negatively-charged lipid in potentiating the reaction. Annexin V reduced the Vmax of factor X activation in factor IXa titrations on the platelet surface with an IC50 of 4 nM in the absence of thrombin-activated factor VIII (factor VIIIa), and 4.5 nM in its presence, whereas there was no effect on the EC50,FIXa. This noncompetitive inhibition is consistent with interference of recognition of the factor IXa binding site on the platelet, which was confirmed by equilibrium binding of [125I]-factor IXa to thrombin-activated platelets where, in the absence of factor VIIIa and factor X, annexin V reduced the number of factor IXa binding sites/platelet from 610 to 320, without changing the Kd,app. In the presence of factor VIIIa and factor X, annexin V reduced the number of binding sites, but also raised the Kd,app. Although factor VIIIa improved the affinity of factor IXa for the lipid surface from Kd approximately 60 nM in its absence to Kd 1 nM in its presence, addition of annexin V to factor IXa titrations on lipid vesicles in the presence of factor VIIIa increased the EC50,FIXa with an IC50 of 1.5 nM, without affecting the Vmax. These data provide evidence that factor IXa, although requiring negatively-charged phospholipid for part of its binding site, is accommodated differently on platelets and on artificial vesicles.
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PMID:Annexin V inhibition of factor IXa-catalyzed factor X activation on human platelets and on negatively-charged phospholipid vesicles. 898 28


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