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)

Proteins of the annexin/lipocortin family bind tightly to anionic phospholipids and platelets and act as in vitro anticoagulants. Annexins may be useful as tools to study the availability of anionic phospholipids on cell surfaces and their role in the regulation of blood coagulation. In the present study, we investigated the binding of annexin V (placental anticoagulant protein I) to a human ovarian carcinoma cell line, OC-2008, that constitutively expresses surface membrane tissue factor activity. Binding of annexin V to cell monolayers was calcium-dependent, specific, saturable and reversible; Scatchard analysis indicated a single class of binding sites with an apparent Kd of 9.4 +/- 3.1 nM and 5.2 +/- 1 x 10(6) sites per cell. Binding was completely inhibited by phospholipid vesicles containing phosphatidylserine, but was not inhibited by vesicles containing phosphatidylcholine. Annexin V inhibited the cell surface-dependent activity of prothrombinase complex, but did not inhibit the activity of the factor VIIa/tissue factor complex. In conclusion, these results suggest that anionic phospholipid is present on the extracellular face of OC-2008 cells; this anionic phospholipid is functionally important for the activity of the prothrombinase complex, but the importance of anionic phospholipid for the cell surface factor VIIa/tissue factor functional activity is unclear.
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PMID:Binding of annexin V to a human ovarian carcinoma cell line (OC-2008). Contrasting effects on cell surface factor VIIa/tissue factor activity and prothrombinase activity. 144 86

Studies of proteins that inhibit tissue factor activity have generally been conducted using either an extracted tissue homogenate ("thromboplastin") or tissue factor protein reconstituted into phospholipid vesicles rather than with tissue factor expressed in cell membranes (its physiological environment). In the present study, a human fibroblast cell strain was used to evaluate the effects of lipoprotein associated coagulation inhibitor (LACI), placental anticoagulant protein (PAP), and apolipoprotein A-II (apo A-II) on human tissue factor in cell membranes. LACI was tested from 7.8 to 500 pmol/L on fibroblasts cultured at cell densities ranging from 3,500 to 9,925 cells/well, and caused a progressive inhibition of tissue factor activity. PAP was tested from 3.9 nmol/L to 1 mumol/L at cell densities ranging from 4,500 to 15,400 cells/well and caused up to 83% inhibition of tissue factor activity. Inhibition by these proteins appeared to be influenced by cell density as well as whether the cells were intact or disrupted. Apo A-II, up to 1 mumol/L, did not inhibit the tissue factor activity of intact or disrupted fibroblasts at any cell density examined even though it did inhibit the activity of tissue factor in phospholipid vesicles. Of these inhibitors of tissue factor-dependent activation of factor X, LACI was the most effective in suppressing the generation of factor Xa activity. The effects obtained with apo A-II are clearly dependent on the nature of the tissue factor preparation with which it is tested. The disparity between the inhibitory effect of apo A-II on the activity of tissue factor reconstituted into lipid vesicles and the absence of effect on the activity of tissue factor remaining in cell membranes serves to reemphasize the necessity of reexamining results obtained with model systems using as nearly physiological reagents as possible.
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PMID:Human fibroblast tissue factor is inhibited by lipoprotein-associated coagulation inhibitor and placental anticoagulant protein but not by apolipoprotein A-II. 252 14

Previous studies indicated that human placental anticoagulant protein, a member of the lipocortin family, prolonged the clotting time of normal plasma when clotting was induced by brain thromboplastin or by kaolin in the presence of cephalin and calcium. Using a two-stage amidolytic assay to assess factor X activation and a tritiated peptide release assay to assess factor IX activation, we have examined the ability of purified preparations of placental anticoagulant protein (Mr = 36.5 kDa) to inhibit the activation of either factor X or factor IX by a complex of human factor VIIa-tissue factor. Placental anticoagulant protein markedly inhibits factor X and factor IX activation by factor VIIa-tissue factor in a non-competitive manner with Ki values of 40 nM and 70 nM, respectively. Placental anticoagulant protein had no effect on factor Xa amidolytic activity, and its inhibitory activity was not diminished by prior incubation with antibody raised against partially purified plasma extrinsic pathway inhibitor. Binding of placental anticoagulant protein to phospholipid vesicles, crude tissue factor and purified, relipidated human brain tissue factor apoprotein was observed only in the presence of calcium ions. These results indicate that placental anticoagulant protein is a potent factor VIIa-tissue factor inhibitor and suggests that its mechanism of action involves binding to the phospholipid portion of the tissue factor lipoprotein.
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PMID:Inhibition of human factor VIIa-tissue factor activity by placental anticoagulant protein. 296 30

Endotoxin-stimulated monocytes can elicit a dual procoagulant response. They express tissue factor and expose phosphatidylserine in the outer leaflet of the plasma membrane. Tissue factor, a membrane glycoprotein, is the cellular trigger of blood coagulation reactions. Phosphatidylserine is an essential anionic phospholipid for surface amplification of thrombin generation. In this study the distribution of these two procoagulant entities between activated monocytes and derived microparticles was assessed after stimulation by LPS. The presence of CD14, CD11a, and CD18, and possible associated adhesion potential were examined, particularly on microparticles. Tissue factor was evidenced by using a specific functional assay and flow cytometry. Phosphatidylserine exposure was monitored through its catalytic activity in a thrombin generation assay and by flow cytometry with the use of FITC-conjugated annexin V, a protein probe of anionic phospholipids. CD14, CD11a, and CD18 were detected by flow cytometry. The interaction of microparticle CD11a/CD18 with intracellular adhesion molecule-1 was demonstrated by using immobilized recombinant intracellular adhesion molecule-1 fusion protein. The major part of tissue factor and phosphatidylserine-dependent procoagulant activity was associated with microparticles after LPS stimulation. This was confirmed by flow cytometry. The presence of functional CD11a/CD18, and CD14 on microparticles testifies to an associated adhesion potential. These results show that membrane vesiculation could be responsible for dissemination of inducible monocyte procoagulant activities and suggest that derived microparticles could also participate in endothelium stimulation. This emphasizes the role of monocyte as a central element in the coupling between inflammation/infection and thrombosis.
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PMID:Monocyte vesiculation is a possible mechanism for dissemination of membrane-associated procoagulant activities and adhesion molecules after stimulation by lipopolysaccharide. 752 56

Two classes of antiphospholipid antibodies (APA) are associated with adverse pregnancy outcomes. Those APA identified by immunoassays using phospholipid-coated surfaces (e.g., anticardiolipin antibodies) seem to bind to the 57 kD anticoagulant protein, beta 2-glycoprotein-I, when complexed with anionic phospholipid bilayers. Such APA may or may not prolong phospholipid-dependent clotting assays. A second class of APA are identified by their interference with phospholipid-dependent clotting assays (i.e., lupus anticoagulants). The latter bind to phospholipids present in a unique hexagonal phase either alone or complexed with prothrombin or beta 2-glycoprotein-I. There is evidence that both classes of APA are directly responsible for adverse pregnancy outcomes including spontaneous abortions, stillbirths, fetal growth retardation, thrombosis, thrombocytopenia, and preeclampsia. Putative APA-mediated pathogenic mechanisms include intervillous thrombosis, intravillous infarctions and decidual vasculopathy. The thrombogenicity of APA may result from their interference with endothelial phospholipids required for antithrombin III and protein C and S anticoagulant activity and prostacyclin synthesis and/or increased endothelial expression of the procoagulants: tissue factor, von Willebrand factor, platelet-activating factor, and plasminogen activator inhibitor type-1. Other prothrombotic properties seem to include: increased platelet aggregation, and reduced beta 2-glycoprotein-1 and annexin V anticoagulant activity. Rigorous diagnostic criteria must be applied to the detection of both classes of APA because the prevention of adverse pregnancy outcomes requires potentially hazardous anticoagulant therapy.
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PMID:The immunobiology and obstetrical consequences of antiphospholipid antibodies. 752 11

Fibroblast monolayers constitutively expressing surface membrane tissue factor (TF) were treated with 0.1 mM N-ethylmaleimide (NEM) for 1 min to inhibit aminophospholipid translocase activity without inducing general cell damage. This resulted in increased anionic phospholipid in the outer leaflet of the cell surface membrane as measured by the binding of 125I-annexin V and by the ability of the monolayers to support the generation of prothrombinase. Specific binding of 125I-rVIIa to TF on NEM-treated monolayers was increased 3- to 4-fold over control monolayers after only brief exposure to 125I-rVIIa, but this difference progressively diminished with longer exposure times. A brief exposure of NEM-treated monolayers to rVIIa led to a maximum 3- to 4-fold enhancement of VIIa/TF catalytic activity towards factor X over control monolayers, but, in contrast to the binding studies, this 3- to 4-fold difference persisted despite increasing time of exposure to rVIIa. Adding prothrombin fragment 1 failed to diminish the enhanced VIIa/TF activation of factor X of NEM-treated monolayers. Moreover, adding annexin V, which was shown to abolish the ability of NEM to enhance factor X binding to the fibroblast monolayers, also failed to diminish the enhanced VIIa/TF activation of factor X. These data provide new evidence for a possible mechanism by which availability of anionic phospholipid in the outer layer of the cell membrane limits formation of functional VIIa/TF complexes on cell surfaces.
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PMID:Studies of the mechanism for enhanced cell surface factor VIIa/tissue factor activation of factor X on fibroblast monolayers after their exposure to N-ethylmaleimide. 774 Apr 53

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

Annexin V binds with high affinity to procoagulant phospholipid vesicles and thereby inhibits the procoagulant reactions catalysed by these surfaces in vitro. In vivo, vascular endothelial cells are known to catalyse the formation of thrombin by the expression of binding sites at which procoagulant complexes can assemble. Here, we have studied the binding capacity of recombinant annexin V (rANV) to quiescent, phorbol 12-myristate 13-acetate (PMA)- and tumour necrosis factor alpha (TNF-alpha)-stimulated cultured human umbilical-vein endothelial cells (HUVEC). The dissociation constant (Kd) was 15.5 +/- 3.3 nM and the number of binding sites was 8.8 (+/- 3.9) x 10(6)/cell. These binding parameters did not change significantly during a 30 h incubation period with PMA or TNF-alpha. rANV inhibited HUVEC-mediated factor Xa formation via the extrinsic as well as the intrinsic route. Activation of factor X by the tissue factor-factor VII-factor X complex and tenase complex was inhibited with IC50 values of 43 +/- 30 nM and 33 +/- 24 nM respectively. Endothelial-cell-mediated generation of thrombin by the prothrombinase complex was inhibited by rANV with an IC50 of 16 +/- 12 nM. Preincubation of rANV with the endothelial cells did not significantly influence the IC50 values. These results show that rANV binds to the same extent to quiescent, PMA- and TNF-stimulated HUVEC, and, as a result of this binding, rANV efficiently inhibits endothelial-cell-mediated thrombin formation.
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PMID:Binding of recombinant annexin V to endothelial cells: effect of annexin V binding on endothelial-cell-mediated thrombin formation. 806 19

Blood coagulation is initiated on cells which present a macroscopic surface to the flowing blood stream. We have used a continuous flow enzyme reactor to model this system and to investigate the effects of shear rate and mass transport on the activation of factor X by the complex of the transmembrane protein, tissue factor, and the serine protease, factor VIIa. This initial step of blood coagulation was found to be half-maximal at very low enzyme densities (0.03-0.06%) on the wall of the capillaries. In agreement with hydrodynamic theory, the apparent Km in the flow reactor was correlated with the cube root of the wall shear rate. These data indicate that at high tissue factor densities (> 0.6%) the activation of 150 nM factor X is controlled by the flux of X toward the surface, which is controlled by wall shear rate and substrate concentration. The appearance of the product, Xa, in the effluent was delayed to 8-12 min, which was caused by high-affinity binding of Xa to the phospholipid. This delay was considerably shortened by embedding tissue factor into PC or by coating the PS/PC surface with the phospholipid binding protein, annexin V. At low tissue factor densities, annexin V inhibited X activation by 45%, while no inhibition was observed at high densities. We demonstrate that when the reaction is limited by substrate flux, addition of further enzyme does not increase reaction rates. This contrasts with classical three-dimensional catalysis in which the initial velocity is ordinarily linear with the enzyme concentration.
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PMID:Transport rate limited catalysis on macroscopic surfaces: the activation of factor X in a continuous flow enzyme reactor. 815 55

A human ex vivo thrombosis model was used to investigate whether recombinant annexin V (rANV) can prevent thrombus formation under venous and arterial blood flow conditions. In this model, blood from an antecubital vein of healthy donors was allowed to flow directly over the extracellular matrix of tumor necrosis factor-stimulated endothelial cells (TNF-ECMs). TNF-ECMs were preincubated with rANV (2.9 mumol/L) for 30 minutes. With this rANV concentration all binding sites present on TNF-ECMs (1.6 +/- 0.5 x 10(12)/cm2) are occupied, and a maximal inhibition was observed in a tissue factor-dependent clotting assay. Fibrin deposition and platelet and leukocyte adhesion were measured on the rANV-treated and nontreated TNF-ECMs. Nontreated TNF-ECMs were used as controls. rANV inhibited fibrin deposition by 81% at a wall shear rate of 100 s-1. A nonsignificant inhibition was also observed at 650 s-1. Platelet-matrix adhesion, which is more prominent at higher shear rates, was significantly decreased by 60% at 100 s-1 but not at 650 s-1. The average leukocyte adherence was nonsignificantly lowered at 100 s-1. Virtually no leukocytes adhered at 650 s-1. The results demonstrated that rANV can inhibit blood coagulation under venous blood flow conditions and may serve as an antithrombotic drug.
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PMID:Annexin V inhibits the procoagulant activity of matrices of TNF-stimulated endothelium under blood flow conditions. 817 59

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