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:3.4.21.69 (APC)
16,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

More than 1% of the couples whishing children suffer from recurrent miscarriage, but investigations and treatment are not consensual. Most patients have several risk factors, and a minimum investigation of known factors has to be undertaken: karyotyping of the couple, hysteroscopy for searching uterine anatomic anomalies, evaluation for thrombophilias (anticardiolipin antibodies, lupus anticoagulant, protein C activity, Proteine S activity, factor V Leiden and factor II mutations, activated protein C resistance), antinuclear antibodies. Systemic diseases (like lupus) and endocrine abnormalities (like thyroid diseases and diabetes mellitus) have to be detected by clinical examination and questioning. No endocrine investigation is recommended, unless irregular menstruations or sterility. Research in recurrent pregnancy loss are conducted in new associated factors, such as skewed-X-chromosome inactivation, maternal HLA types, modifications in specific immune molecules and cells regulation. Therapeutic proposals are preimplantation genetic diagnosis in case of abnormal karyotiping, hysteroscopic surgery for septate uterus, aspirin plus heparin in antiphospholipid-positive patients, and aspirin plus corticosteroids in systemic lupus. Heparin seems to improve obstetrical prognosis for patients with congenital or acquired thrombophilias, but there are only few studies carried out on the subject. This new therapeutic approach should incite the patients with a negative medical appraisal to be referred to specialized consultations in order to include them in eventual clinical tests. Finally, empathic listening and psychological support are necessary in a pathology with multiple etiological factors.
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PMID:[Early recurrent spontaneous abortion: How to take care in 2006?]. 1698 88

Influenza infections increase the risk of diseases associated with a prothrombotic state, such as venous thrombosis and atherothrombotic diseases. However, it is unclear whether influenza leads to a prothrombotic state in vivo. To determine whether influenza activates coagulation, we measured coagulation and fibrinolysis in influenza-infected C57BL/6 mice. We found that influenza increased thrombin generation, fibrin deposition, and fibrinolysis. In addition, we used various anti- and prothrombotic models to study pathways involved in the influenza-induced prothrombotic state. A reduced capacity to generate activated protein C in TM(pro/pro) mice increased thrombin generation and fibrinolysis, whereas treatment with heparin decreased thrombin generation in influenza-infected C57Bl/6 mice. Thrombin generation was not changed in hyperfibrinolytic mice, deficient in plasminogen activator inhibitor type-1 (PAI-1(-/-)); however, increased fibrin degradation was seen. Treatment with tranexamic acid reduced fibrinolysis, but thrombin generation was unchanged. We conclude that influenza infection generates thrombin, increased by reduced levels of protein C and decreased by heparin. The fibrinolytic system appears not to be important for thrombin generation. These findings suggest that influenza leads to a prothrombotic state by coagulation activation. Heparin treatment reduces the influenza induced prothrombotic state.
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PMID:Effects on coagulation and fibrinolysis induced by influenza in mice with a reduced capacity to generate activated protein C and a deficiency in plasminogen activator inhibitor type 1. 1712 43

Although the thrombin/thrombomodulin complex is considered the physiological activator of protein C, factor Xa (f.Xa) can also activate protein C in a reaction that is potentiated by glycosaminoglycans. To explore this phenomenon, we first examined the effect of glycosaminoglycans of varying degrees of sulfation on the kinetics of protein C activation by f.Xa in the presence of Ca2+ and phosphatidylcholine-phosphatidylserine vesicles (PCPS). Heparin increased the rate of protein C activation by f.Xa by 4-fold. In contrast, N-desulfated heparin had no effect on activation, whereas dextran sulfate, which is more sulfated than heparin, increased catalytic efficiency 21-fold. These data suggest that the capacity of glycosaminoglycans to catalyze protein C activation by f.Xa depends on their degree of sulfation. The affinities of individual glycosaminoglycans for protein C and f.Xa were measured in the absence or presence of PCPS by monitoring changes in extrinsic fluorescence when fluorescein-labeled f.Xa or protein C was titrated with the various glycosaminoglycans. Heparin binds protein C with low affinity in the absence or presence of PCPS. In contrast, the affinity of heparin for f.Xa is 86-fold higher in the presence of PCPS compared to that in the absence of PCPS. Similar results were obtained using surface plasmon resonance. These findings suggest that a high affinity glycosaminoglycan binding site is exposed when f.Xa binds to PCPS. The observation that heparin promotes f.Xa-mediated activation of prethrombin 1 only in the presence of phospholipid suggests that glycosaminoglycan binding modulates the active site of f.Xa. This study reveals that when f.Xa interacts with anionic phospholipids, glycosaminoglycans bind f.Xa more tightly, allosterically modulate its active site, and enhance its capacity to activate protein C.
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PMID:In the presence of phospholipids, glycosaminoglycans potentiate factor Xa-mediated protein C activation by modulating factor Xa activity. 1734 67

Enoxaparin, a low-molecular-weight heparin used to treat and prevent deep venous thrombosis, has been evaluated in several clinical trials. Thrombosis induced by enoxaparin with no evidence of heparin-induced thrombocytopenia (HIT) is seldom described. We report a rare case in which an 89-year-old African-American female developed large, multiple, painful lesions induced by enoxaparin administration. Laboratory investigations for HIT, disseminated intravascular coagulation, protein C, protein S, factor V, factor VIII, antithrombin III, and homocysteine deficiency were negative. Unfortunately, despite aggressive management for 2 weeks, the patient developed severe sepsis and died.
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PMID:Enoxaparin-induced skin necrosis: a fatal outcome. 1766 18

Heparinization requires monitoring, but optimal methods for measuring the anticoagulant effects of heparin remain to be determined. We compared prothrombinase-induced clotting time (PiCT) and two chromogenic anti-factor Xa activity (anti-Xa) assays in monitoring high-dose heparinization during cardiopulmonary by-pass (CPB). Heparin effects were serially measured with PiCT and two anti-Xa assays in 100 patients. Antithrombin and protein C activities were measured preoperatively, and antithrombin activity was measured during CPB. Activation of coagulation was assessed with measurements of prothrombin fragment F1+2, soluble fibrin complexes, and D-dimer before, during, and after CPB. During CPB mean ranges of PiCT and of anti-Xa heparin levels measured with (anti-Xa A) and without (anti-Xa B) dextran sulfate and antithrombin supplementation were 5.0-5.2, 4.7-5.0, and 4.5-4.9 IU/ml, respectively. There was poor agreement between PiCT and anti-Xa and between the two anti-Xa assays (r = 0.32-0.65 and broad limits of agreement). Patients with low preoperative antithrombin or protein C levels had lower PiCT (p = 0.028 and p = 0.01) and anti-Xa A (both p<0.001) levels during CPB than others. Patients with the lowest heparin activities during CPB (lowest deciles of PiCT and anti-Xa A) had higher subsequent F1+2 after CPB (p = 0.002 and p = 0.02), and patients with high heparin levels required fewer transfusions of packed red blood cells than others. In conclusion, in the challenging setting of CPB there is poor agreement between anti-Xa assays and PiCT. However, coagulation-based PiCT could provide an alternative to the chromogenic anti-Xa assays. Higher heparin levels during CPB were confirmed to associate with reduced transfusion requirements.
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PMID:Monitoring high-dose heparinization during cardiopulmonary by-pass--a comparison between prothrombinase-induced clotting time (PiCT) and two chromogenic anti-factor Xa activity assays. 1827 95

An 84-year-old female patient was scheduled to undergo AVR, CABG, and Maze procedure. She had a history of hypertension, cerebral infarction, and branch retinal vein occlusion. Warfarin was administered preoperatively. Before the cardiopulmonary bypass (CPB), heparin 5,000 units was administered. Activated coagulation times (ACTs) before and after CPB were 123 sec and 157 sec, respectively. Additional heparin of 5,000 units extended ACT to 221 seconds, which was not enough for the CPB. Heparin 10,000 units was added, and ACT was 157 sec. AntithrombinIII (ATIII) and platelet counts were 75% and 270,000 mm(-3), respectively. ATIII 1,500 units was administered. ACT and ATIII became 133 sec and 123%, respectively. Because heparin resistance did not respond to ATIII, the operative method was changed to off-pump CABG. A postoperative examination revealed high factor VIII activity of 263%. Other results were as follows: protein C antigen, 40%; protein S antigen, 65%; factor VII, 50%; platelet factor 4, 12%; heparin cofactor II, 104%; von Willebrand factor antigen, 181%; heparin-PF4-IgG antibody, negative; factor VIII inhibitor, negative. The low values of protein C, protein S, and factor VII may have been caused by warfarin. Other values were normal, except for the von Willebrand factor antigen.
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PMID:[Heparin resistance associated with elevated factor VIII]. 1841 8

To examine the effects of anticoagulants and the role of thrombin on neutrophil-platelet-endothelial cell interactions in septic shock. Controlled experiments using phase-contrast microscopy to study neutrophil, platelet, and endothelial cell interactions in flowing cell suspensions under simulated physiologic conditions. University research laboratory. Adult patients with septic shock and normal volunteers. Microslides were coated with human umbilical vein endothelial cells. Neutrophils and platelets removed from control subjects were stimulated with plasma from patients in septic shock and perfused over endothelial cells. Heparin (H), argatroban (A), antithrombin III (ATIII), and recombinant human activated protein C (rhAPC) with and without thrombin were added to cells suspended in septic plasma and normal plasma. The number of neutrophils adherent to endothelial cells, neutrophil rolling velocity, and the number of neutrophils in aggregates were determined. Flow cytometric analysis of cells was used to identify cell activation and the formation of platelet-neutrophil aggregates. Heparin, A, ATIII, rhAPC all significantly decreased neutrophil adhesion and aggregation, and increased rolling velocity of neutrophils suspended in septic plasma. These results are similar to those observed with normal plasma but present greater absolute changes. Platelet-neutrophil aggregation, platelet activation, and neutrophil activation were significantly decreased by each of the anticoagulants. The addition of thrombin to cell suspensions containing anticoagulants reversed the effects of H, A, ATIII, rhAPC on neutrophil adhesion, adherence, and rolling velocity. In addition, thrombin attenuated the effects of each of these agents on platelet-neutrophil aggregation, platelet activation, and neutrophil activation. These data suggest that H, A, ATIII, and rhAPC decrease sepsis-induced neutrophil-endothelial cell interactions. The reversal of this effect by thrombin suggests that these agents alter neutrophil-endothelial interactions through their anticoagulant effects and the resulting decrease in thrombin activity.
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PMID:The effect of anticoagulants and the role of thrombin on neutrophil-endothelial cell interactions in septic shock. 1863 42

We evaluated systemic alterations to the blood coagulation system that occur during a coronary thrombotic event. Peripheral blood coagulation in patients with acute coronary thrombosis was compared with that in people with stable coronary artery disease (CAD). Blood coagulation and platelet activation at the microvascular injury site were assessed using immunochemistry in 28 non-anticoagulated patients with acute myocardial infarction (AMI) versus 28 stable CAD patients matched for age, sex, risk factors, and medications. AMI was associated with increased maximum rates of thrombin-antithrombin complex generation (by 93.8%; P< .001), thrombin B-chain formation (by 57.1%; P< .001), prothrombin consumption (by 27.9%; P= .012), fibrinogen consumption (by 27.0%; P= .02), factor (f) Va light chain generation (by 44.2%; P= .003), and accelerated fVa inactivation (by 76.1%; P< .001), and with enhanced release of platelet-derived soluble CD40 ligand (by 44.4%; P< .001). FVa heavy chain availability was similar in both groups because of enhanced formation and activated protein C (APC)-mediated destruction. The velocity of coagulant reactions in AMI patients showed positive correlations with interleukin-6. Heparin treatment led to dampening of coagulant reactions with profiles similar to those for stable CAD. AMI-induced systemic activation of blood coagulation markedly modifies the pattern of coagulant reactions at the site of injury in peripheral vessels compared with that in stable CAD patients.
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PMID:Systemic blood coagulation activation in acute coronary syndromes. 1924 65

Thrombomodulin (TM), which variably contains a chondroitin sulfate (+/-CS), forms an anticoagulant complex with thrombin (IIa). IIa-TM(+/-CS) converts protein C (PC) into activated PC (APC), which then inactivates activated factors V (FVa) and VIII (FVIIIa). This reduces prothrombinase and tenase complexes that generate IIa. Heparin (H) increases the rate of IIa-TM inhibition by antithrombin (AT) and enhances FV cleavage by APC. Our novel covalent AT-H (ATH) product, has superior anticoagulant activity compared to AT + unfractionated H (UFH). We studied mechanisms by which ATH versus AT + UFH inhibits IIa-TM(+/-CS), and ATH influences on APC cleavage of FV/FVa compared to UFH. Findings would determine how these reactions moderate ATH's overall effects as an anticoagulant. Discontinuous second order rate inhibition assays of IIa-TM(+/-CS) inhibition by AT + UFH or ATH were performed in presence or absence of human umbilical vein endothelial cells (HUVECs). FV/FVa cleavage by APC in the presence of UFH or ATH was analysed by Western blots. ATH increased IIa-TM(+/-CS) inhibition to a greater degree than AT + UFH, both on plastic and HUVEC surfaces. Unlike UFH, ATH did not accelerate FV cleavage by APC, but ATH did enhance FVa cleavage relative to UFH. Increased IIa-TM inhibition by ATH downregulates PC activation. However, ATH does accelerate downstream inactivation of FVa, which increases its potency for IIa generation inhibition compared to UFH. This trend holds true in the presence of APC's cofactor, protein S. Overall, ATH may have a balanced function towards inhibiting or accelerating PC pathway activities.
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PMID:Covalent antithrombin-heparin effect on thrombin-thrombomodulin and activated protein C reaction with factor V/Va. 2021 84

Protein C in its activated form (APC) limits thrombin generation. Protein C inhibitor (PCI) readily neutralizes APC. Heparin accelerates this reaction, which may complicate anticoagulant treatment in patients with varying APC generation potential. A potent anticoagulant conjugate of antithrombin and heparin (ATH) was prepared, and its effect on APC+PCI reactions was tested. Second order rate constants for APC+PCI reactions were measured by discontinuous rate experiments in the presence of heparin or ATH. Similarly, low molecular weight fractions of heparin (LMWH) and ATH (LMWATH) were tested, as was high molecular weight ATH (HMWATH). Mechanisms of heparin or ATH binding to APC or PCI were assessed using electrophoresis. While heparin gave a higher maximal APC inhibition rate compared to ATH, peak inhibition rate was achieved at comparatively lower ATH concentrations. Since LMWH was ineffective at enhancing APC inhibition by PCI, unfractionated heparin likely acts by bridging APC and PCI. Unlike heparin, ATH may conformationally activate either APC or PCI since LMWATH significantly catalyses APC inhibition. Binding studies showed that ATH readily associates with APC. Thus, although a small fraction of ATH efficiently catalyses APC inhibition by PCI, complete ATH preparations induce a decreased maximal rate of APC-PCI formation compared to unfractionated heparin.
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PMID:Effect of covalent antithrombin-heparin on activated protein C inactivation by protein C inhibitor. 2053 15


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