EC:3.4.21.6 - FACTA Search

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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)

The cDNA encoding the mature annexin V was isolated by using RT-PCR method from total RNAs of fresh human placenta. The result of sequencing indicated that the sequence of isolated annexin V cDNA was the same as the reported nucleotide sequence of annexin V. The annexin V cDNA was cloned into expression plasmid pET24a(+) under T7 promoter and then transformed into E.coli BL21(DE3). SDS-PAGE analysis revealed that the human annexin V was highly expressed and accumulated up to 38% of total bacterial proteins in soluble form after the induction by 1 mmol/L IPTG. The purified human annexin V can significantly prolong activated partial thromboplastin time (APTT).
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PMID:Cloning and Expression of Annexin V cDNA in E.coli. 1213 8

The adapter protein SLP-76 is a critical mediator of signal transduction via the platelet collagen receptor glycoprotein VI (GPVI) and its coreceptor FcRgamma. We tested the hypothesis that SLP-76 is required for collagen-induced procoagulant responses in murine platelets. Platelets from SLP-76 null (SLP-76(-/-)) or heterozygous (SLP-76(+/-)) mice were activated with the GPVI agonist convulxin, and surface expression of P-selectin (a marker of granule release) and annexin V binding (a marker of procoagulant phospholipid) were determined by flow cytometry. Convulxin induced surface expression of P-selectin in SLP-76(+/-) platelets, but not SLP-76(-/-) platelets (P <.01), and failed to stimulate annexin V binding to either SLP-76(+/-) or SLP-76(-/-) platelets. Platelet procoagulant activity was measured in a prothrombinase assay. Convulxin did not stimulate procoagulant activity in either SLP-76(+/-) or SLP-76(-/-) platelets, but fibrillar collagen produced a 1.9-fold increase in procoagulant activity in both SLP-76(+/-) and SLP-76(-/-) platelets (P <.001 versus unstimulated platelets). Similar results were obtained with platelets from FcRgamma null mice, for which collagen, but not convulxin, induced procoagulant activity (P <.01). Costimulation with thrombin and collagen produced a further (2.3-fold) increase in procoagulant activity in SLP-76(+/-) platelets (P <.05), but not in SLP-76(-/-) platelets. SLP-76(-/-) platelets also exhibited less annexin V binding than SLP-76(+/-) platelets after costimulation with thrombin and convulxin (P <.05). These findings demonstrate that an intact GPVI/FcRgamma/SLP-76 signal transduction pathway is not essential for platelet procoagulant activity induced by collagen but is necessary for maximal procoagulant response to costimulation with thrombin plus collagen. Thus, both GPVI-dependent and GPVI-independent pathways contribute to collagen-induced platelet procoagulant activity.
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PMID:Role of the adapter protein SLP-76 in GPVI-dependent platelet procoagulant responses to collagen. 1235 93

Lactadherin, a glycoprotein of the milk-fat globule membrane, contains tandem C domains with homology to discoidin-type lectins and to membrane-binding domains of blood-clotting factors V and VIII. We asked whether the structural homology confers the capacity to compete for the membrane-binding sites of factor VIII and factor V and to function as an anticoagulant. Our results indicate that lactadherin competes efficiently with factor VIII and factor V for binding sites on synthetic phosphatidylserine-containing membranes with half-maximal displacement at lactadherin concentrations of 1 to 4 nM. Binding competition correlated to functional inhibition of factor VIIIa-factor IXa (factor Xase) enzyme complex. In contrast to annexin V, lactadherin was an efficient inhibitor of the prothrombinase and the factor Xase complexes regardless of the degree of membrane curvature and the phosphatidylserine content. Lactadherin also inhibited the factor VIIa-tissue factor complex efficiently whereas annexin V was less effective. Because the inhibitory concentration of lactadherin was proportional to the phospholipid concentration, and because lactadherin was not an efficient inhibitor in the absence of phospholipid, the major inhibitory effect of lactadherin relates to blocking phospholipid sites rather than forming inhibitory protein-protein complexes. Lactadherin was also an effective inhibitor of a modified whole blood prothrombin time assay in which clotting was initiated by dilute tissue factor; 60 nM lactadherin prolonged the prothrombin time 150% versus 20% for 60 nM annexin V. These results indicate that lactadherin can function as a potent phospholipid-blocking anticoagulant.
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PMID:Lactadherin inhibits enzyme complexes of blood coagulation by competing for phospholipid-binding sites. 1251 9

Plasma-reduced platelet concentrates are commonly administered to prevent febrile transfusion reactions and to avoid fluid overload in neonates. Because little is known about the influence of centrifugation and resuspension on functional aspects of platelets, we examined the effects of plasma-reduction on platelet aggregation and platelet-dependent thrombin generation. Our results show that plasma reduction and resuspension of the platelet pellet in saline or plasma results in a significant reduction in platelet aggregation to a combination of the platelet agonists adenosine diphosphate and epinephrine (p < 0.001). In contrast, when a combination of the more potent agonists collagen and thrombin was used, platelet aggregation was maintained. Likewise, no decline was observed in platelet-dependent thrombin generation as measured by the functional prothrombinase assay or Annexin V binding. We conclude that centrifugation and resuspension of platelets to render the concentrate plasma-free, as a routine procedure in blood banking, variably affects in vitro platelet aggregability but does not significantly affect platelet-dependent thrombin generation.
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PMID:The effect of plasma depletion of platelet concentrates on platelet aggregation and phosphatidylserine expression. 1264 22

Prothrombinase activity was tested on thrombin- and SFLLRN-activated platelets treated with RO318220, a potent inhibitor of protein kinase C. RO318220 completely inhibited platelet dense and alpha-granule secretion at a concentration of 20 microM but had no effect on prothrombinase activity in the presence of excess factor Va (20 nM). This indicates that protein kinase C activity and agonist-initiated secretion are not necessary for the development of a procoagulant surface. Treatment with 75 to 150 microM RO318220 potentiated platelet-supported thrombin generation up to 280% of control platelets with no change in Kd appFXa. Treated with increasing concentrations of RO318220, an increasing proportion of thrombin-stimulated platelets bound annexin V with decreasing binding sites per platelet. A lower mean forward scatter (FSC-H) of platelets treated with RO318220 suggested platelet vesiculation as a result of RO318220 treatment; however, 100 microM calpeptin pretreatment eliminated the decrease in FSC-H without affecting either the increase in platelets positive for annexin V binding, the decrease in binding sites per platelet, or the 3-fold increase in prothrombinase activity. Thus, RO318220 appears to increase prothrombinase activity by increasing platelet responsiveness to thrombin rather than by inducing platelet vesiculation. This suggests that RO318220 inhibits a signaling molecule within a negative regulatory pathway that governs platelet procoagulant surface changes.
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PMID:The protein kinase C inhibitor RO318220 potentiates thrombin-stimulated platelet-supported prothrombinase activity. 1280 57

Transmittance waveforms are generated during clot formation on photo-optical coagulation analyzers. We previously showed that 61.5% of patients with antiphospholipid antibodies (APLA) exhibited a negative deflection in the pre-coagulation phase of the prothrombin time (PT slope 1). The current studies investigated the 'molecular basis' of this abnormal parameter. We found that the negative PT slope 1 is IgG-mediated and is not dependent on the presence of fibrinogen or thrombin activity. We also found that IgG from most of the patients required a specific thromboplastin and the presence of prothrombin or beta(2)-glycoprotein I beta(2) GPI) to produce an abnormal IgG wave-form assay. In addition, the abnormal IgG waveform required cofactor binding to phospholipids when beta(2) GPI was the cofactor, and annexin V could partially block this interaction. In conclusion, these results showed that the interactions of IgG with phospholipids via beta(2) GPI or prothrombin constitute the core mechanisms of the abnormal waveforms.
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PMID:Prothrombin and beta 2-glycoprotein I frequently contribute to antiphospholipid antibody interactions with phospholipids and the generation of abnormal waveform profiles in coagulation assays. 1288 68

The antiphospholipid (aPL) syndrome is an autoimmune condition that is marked by recurrent pregnancy losses and/or systemic vascular thrombosis in patients who have antibodies against phospholipid/co-factor complexes. The mechanism(s) for pregnancy losses and thrombosis in this condition is (are) not known. Annexin A5 is a potent anticoagulant protein, expressed by placental trophoblasts and endothelial cells, that crystallizes over anionic phospholipids, shielding them from availability for coagulation reactions. We previously presented data supporting the hypothesis that aPL antibody-mediated disruption of the anticoagulant annexin A5 shield could be a thrombogenic mechanism in the aPL syndrome. However, this has remained a subject of controversy. We therefore used atomic force microscopy, a method previously used to study the crystallization of annexin A5, to image the effects of monoclonal human aPL antibodies on the crystal structure of the protein over phospholipid bilayers. In the presence of the aPL monoclonal antibodies (mAbs) and beta(2)-GPI, the major aPL co-factor, structures presumed to be aPL mAb-antigen complexes were associated with varying degrees of disruption to the annexin A5 crystallization pattern over the bilayer. In addition, measurements of prothrombinase activity on the phospholipid bilayers showed that the aPL mAbs reduced the anti-coagulant effect of annexin A5 and promoted thrombin generation. These data provide morphological evidence that support the hypothesis that aPL antibodies can disrupt annexin A5 binding to phospholipid membranes and permit increased generation of thrombin. The aPL antibody-mediated disruption of the annexin A5 anticoagulant shield may be an important prothrombotic mechanism in the aPL syndrome.
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PMID:Human monoclonal antiphospholipid antibodies disrupt the annexin A5 anticoagulant crystal shield on phospholipid bilayers: evidence from atomic force microscopy and functional assay. 1293 61

An improved activated factor X-based clotting method was used to investigate activity of procoagulant phospholipid (PPL) in blood samples collected into various anticoagulants and in plasmas with a range of abnormalities. The dilute activated factor X-activated clotting time (XACT) was carried out on a mixture of specimen with phospholipid-free porcine plasma. PPL from the test sample is then rate-limiting, controlling the clotting time so that the XACT is shortened from a maximum of approximately 120 s with citrated platelet-free plasma to approximately 30 s with freeze-thawed platelet-rich plasma. XACT results were only shortened slightly by fresh normal platelet-rich plasma, but were shortened significantly by platelets that had been activated by freeze-thawing. This improved method for PPL was not prolonged by deficiencies of known clotting factors and therapeutic levels of heparin, and it was surprisingly resistant to most lupus anticoagulants. However, it was extremely sensitive to PPL, detecting down to 50 ng/ml synthetic phospholipid added to phospholipid-free plasma. Excellent correlation was achieved between XACT shortening and microparticle count assessed by annexin V-binding and flow cytometry in normal plasma spiked with platelet microparticles. In citrated blood specimens, XACT shortened with time in a temperature-dependent manner. XACT results on blood samples anticoagulated with ethylenediamine tetra-acetate were more stable, and these would be preferable for assessing PPL expression ex vivo. XACT was significantly shorter in whole blood samples than in normal platelet-rich or platelet-poor plasmas, suggesting that PPL was normally expressed more by cells or aggregates larger than platelets or microparticles.
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PMID:A new activated factor X-based clotting method with improved specificity for procoagulant phospholipid. 1461 60

During myocardial infarction (MI), platelet activation and endothelial apoptosis are responsible for the release of procoagulant membrane-derived microparticles (MP) in the blood flow. MP prothrombotic and proinflammatory properties may be crucial for coronary prognosis. Elevated amounts of circulating procoagulant MP were described in diabetes mellitus (DM), and could be of particular significance in a MI context. We evaluated the prothrombotic status of DM and non-DM (NDM) patients at days 1 and 6 after MI, by measurement of circulating procoagulant MP and soluble GPV (sGPV), the platelet glycoprotein V major fragment released upon thrombin cleavage. Variations were compared to values measured in healthy volunteers (HV). Procoagulant MP were captured onto insolubilized annexin V and quantified by prothrombinase assay. Their cellular origin was assessed. With respect to HV, the levels of procoagulant MP detected at D1 and D6 were elevated in DM and NDM, MP being significantly higher in DM vs. NDM. The high amounts of platelet-derived MP and the correlation between procoagulant MP and sGPV, testify to the central role of thrombin-activated platelets during MI in both DM and NDM subsets. The release of platelet and endothelial cell-derived MP persisted at D6 and was more important in DM, the associated prothrombotic risk being also reflected by higher levels of sGPV. The endothelial damage revealed by endothelial-derived MP was twice that observed in NDM patients. In DM patients presenting cardio-vascular events at 6 month follow-up, MP levels were significantly higher at D1 after MI than in those without complication (24.9 +/- 4.8 vs. 12.3 +/- 2.7 nM PhtdSer, p = 0.02), suggesting a prognostic potential for MP.
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PMID:Sustained elevated amounts of circulating procoagulant membrane microparticles and soluble GPV after acute myocardial infarction in diabetes mellitus. 1496 Nov 63

The biphasic waveform that can predict for disseminated intravascular coagulation (DIC) is due to the formation of a calcium-dependent complex between C reactive protein (CRP) and very low density lipoprotein (VLDL). As thrombin generation is pivotal to DIC, this aspect has been specifically investigated and the VLDL component has been found to increase prothrombinase activity via both quantitative and qualitative changes. The specific prothrombinase activity of VLDL from patients manifesting the biphasic waveform was 2.5 times that of normal individuals or critically ill patients without the biphasic waveform. This activity was due to an increase in anionic phospholipid surfaces that could be inhibited with excess annexin V and which was dependent on structurally intact apolipoprotein B. The qualitative change appeared to be due to a deficiency of phosphatidylethanolamine in VLDL from patients with the biphasic waveform. The functional consequence of this enhanced prothrombinase activity was an increased procoagulant effect in plasma. Using a modified activated partial thromboplastin time assay, the mean normal clot time decreased significantly when VLDL from patients with biphasic waveforms was substituted. These results indicate that VLDL derived from patients with the biphasic waveform can enhance thrombin procoagulant activity. As the CRP-VLDL complex exists in vivo, it could have a pathogenic role in disseminating the process of intravascular coagulation.
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PMID:Prothrombinase enhancement through quantitative and qualitative changes affecting very low density lipoprotein in complex with C-reactive protein. 1498 28

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