UNIPROT:P08758 - FACTA Search

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Query: UNIPROT:P08758 (annexin V)
9,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidized cholesterol compounds or oxysterols are thought to be potent membrane-destabilizing agents. Anionic phospholipids, chiefly phosphatidylserine, have a procoagulant potential due to their ability to favour the membrane assembly of the characteristic clotting enzyme complexes including the tissue factor-dependent initiating complex. However, in resting cells, phosphatidylserine is sequestered in the inner leaflet of the plasma membrane. When THP-1 monocytic cells were cultured in the presence of 7beta-hydroxycholesterol (7beta-OH) or 25-hydroxycholesterol (25-OH), prothrombinase, which reflects anionic phospholipid exposure and tissue factor (TF) procoagulant activities, increased in a time- and dose-dependent manner. 7beta-OH appeared 1.5- to 2-fold more potent than 25-OH. Interestingly, no effect of cholesterol itself could be detected on procoagulant activities. Nevertheless, no difference in TF activity could be detected between oxysterol-treated and control cells after disruption. TF antigen expression was the same in oxysterol-treated and control cells as shown by flow cytometry. In contrast, the use of labelled annexin V, a protein probe of anionic phospholipids, revealed an elevated number of cells with exposed phosphatidylserine. Because the latter also constitutes a signal for phagocyte recognition of apoptotic cells and fragments, and a proportion of cells displayed altered morphology with condensed chromatin and membrane blebs, analysis of DNA was performed and indicated apoptosis in oxysterol-treated cells. Hence, oxysterol-induced phosphatidylserine exposure and enhanced TF activity may results from apoptosis. These results suggest relationships between oxysterol and the amplification of coagulation reactions by monocytic cells resulting from induced phosphatidylserine exposure.
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PMID:Oyxsterols induce membrane procoagulant activity in monocytic THP-1 cells. 861 54

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

Microparticles are released during in vitro platelet activation and have been detected in vivo in several pathologies. Their characterization is of interest as they may play a potential role in hemostasis. Here, we report the formation of microparticles as the result of increases in intracellular Ca2+ brought about by inhibition of Ca(2+)-ATPases. They were isolated following centrifugation of the activated platelet suspension over a sucrose layer. Flow cytometric studies using annexin V-FITC as a probe for aminophospholipids, prothrombinase activity measurements and annexin V inhibition experiments enabled us to evaluate the procoagulant activity of microparticles prepared in this way. The efficiency of the annexin V inhibition (IC50 = 10-20 nM) of this activity confirmed significant anticoagulant properties for this protein. Microparticles also contained the glycoprotein IIb-IIIa complex, detected in flow cytometry at a density higher than on the remnant platelets. The activation of calpain, a Ca(2+)-dependent protease, in platelets was shown to be more efficient under conditions of a sudden Ca2+ influx. The microparticles contained only the active form of calpain detected by Western blotting using a monoclonal antibody able to recognize both the unactivated and the activated catalytic subunit of the enzyme. However, flow cytometry failed to find significant amounts of active calpain on the microparticle or on the platelet surface. Our results, while confirming the procoagulant activity of microparticles, also document for the first time the exclusive presence of the activated form of calpain, inferring a possible role for this protease in microparticle-mediated functions.
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PMID:Procoagulant activity and active calpain in platelet-derived microparticles. 879 23

It has recently been proved that, in vitro, red blood cells (RBCs) from patients with homozygous beta-thalassemia behave as procoagulant cells. The procoagulant activity of beta-thalassemia RBCs might be the result of an increased exposure of procoagulant phospholipids (i.e. phosphatidylserine) in the outer leaflet of the membrane. In order to test this hypothesis, we compared the catalytic properties of RBCs of patients with beta-thalassemia and homozygous sickle cell disease (SS-RBCs) with that of controls. The catalytic parameters (Km, kcat) of prothrombin activation by factor Xa were determined both in the absence and in the presence of RBCs. The turn-over number (kcat) of the reaction was not modified by normal, SS- or beta-thalassemia RBCs. The Km was lower in the presence of normal RBCs (mean value: 9.1 microM) than in the absence of cells (26 microM). The Km measured in the presence of either SS-RBCs (mean value: 1.6 microM) or beta-thalassemia RBCs (mean value: 1.5 microM) was significantly lower compared to normal RBCs (p < 0.001). No significant difference was observed between SS-RBCs and beta-thalassemia RBCs. Annexin V, a protein with high affinity and specificity for anionic phospholipids, inhibited the procoagulant activity of both SS-RBCs and beta-thalassemia RBCs, in a dose-dependent manner. More than 95% inhibition was achieved at nanomolar concentrations of annexin V. These results indicate that the procoagulant activity of both beta-thalassemia RBCs and SS-RBCs may be fully ascribed to an abnormal exposure of phosphatidylserine at the outer surface of the red cells.
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PMID:Increased procoagulant activity of red blood cells from patients with homozygous sickle cell disease and beta-thalassemia. 888 64

The 'lupus anticoagulant' phenomenon is the best documented functional effect of antiphospholipid (aPL) antibodies, occurring either by inhibition of the prothrombinase and/or Factor X activation reactions. Understanding the mechanism by which aPL antibodies inhibit phospholipid dependent coagulation reactions may yield important clues about their 'thrombogenic effects' in vivo. We conducted a series of studies to determine the specificity, diversity, and mechanism by which aPL antibodies inhibit phospholipid dependent reactions. Results showed that purified immunoglobulins with lupus anticoagulant and anti-cardiolipin activities were absorbed by negatively charged phospholipids and both activities were recovered from the phospholipid-antibody precipitate. Purified aPL antibodies inhibited the prothrombinase reaction in a plasma free system in which beta 2-glycoprotein 1 (beta 2-GP1) was absent. Affinity purified aPL antibodies had 25-50 times the inhibitory activity of immunoglobulin preparations. The phospholipid binding proteins, beta 2-GPI and placental anticoagulant protein I (PAP I), independently inhibited the prothrombinase reaction, and when these proteins were combined with aPL, inhibition of the prothrombinase reaction was additive. Antibodies of syphilis had no inhibitory effect, partially accounted for by lack of specificity for phosphotidylserine (PS). Although aPL antibodies inhibited the protein C activation reaction, there was no correlation of these activities with inhibition of the prothrombinase reaction. Together, these results show that aPL exert their effects by interaction with negatively charged phospholipids, in particular phosphotidylserine, but lack of correlation between inhibition of the prothrombinase and protein C activation reactions, suggests that the nature of the coagulation protein is also important.
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PMID:Functional effects of anticardiolipin antibodies. 890 63

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 has a calcium-dependent binding affinity for anionic phospholipids and activated platelets, and prevents prothrombinase activity. We investigated the clinical significance of IgG anti-annexin V antibodies in patients with SLE. The study population consisted of 140 patients with SLE. Sera were examined for IgG anti-annexin V antibodies by ELISA. IgG anti-annexin V antibodies were detected in 27 of 140 patients (19%). Significantly higher incidences of arterial or venous thrombosis, intrauterine fetal loss, and prolonged activated partial thromboplastin time were found in patients with anti-annexin V antibodies than in those without anti-annexin V antibodies. Three patients with thrombosis were found not to have anticardiolipin antibodies, but to show sustained serological reactions for anti-annexin V antibodies, irrespective of prednisolone administration. These results indicated the clinical characteristics of SLE patients with anti-annexin V antibodies, and that these antibodies may be associated with the pathogenesis of thrombotic events.
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PMID:Clinical significance of anti-annexin V antibodies in patients with systemic lupus erythematosus. 906 99

Prothrombin activation by prothrombinase was investigated on platelets adhered onto a fibrinogen-coated coverslip mounted in a flow chamber. Once bound to the fibrinogen, platelets gradually changed their morphology: they developed pseudopods, spread over the surface and finally transformed into balloon-shaped cells. This last morphologic change required the presence of calcium and was accompanied by the exposure of procoagulant phospholipid at the outer membrane as detected by the capability of the platelets to bind fluorescein-labelled annexin V. Prothrombinase complexes were allowed to assemble on these adhered platelets by perfusion with factor Xa and varying concentrations of factor Va and prothrombin. The steady-state rate of thrombin formation during continuous flow increased with the prothrombin concentration but not with the factor Va between 0.05 and 0.5 nM. Once prothrombinase was assembled, factor Xa could be omitted from the perfusion mixture without affecting the steady state rate of thrombin production. Our study demonstrates the efficient ability of the procoagulant surface of adherent platelet to support the assembly of stable prothrombinase complexes. Thrombin production was limited by the rate of supply of prothrombin towards the catalytic surface.
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PMID:Prothrombin conversion under flow conditions by prothrombinase assembled on adherent platelets. 916 17

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