EC:3.4.21.69 - FACTA Search

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)

Patients with systemic lupus erythematosus (SLE) have an increased risk of thrombosis and this is increased in the presence of antiphospholipid antibodies (APA). These APA are also associated with thrombosis in patients who do not have SLE. We compared haemostatic parameters in SLE patients with and without APA, and also compared patients who had APA but not SLE with healthy normal controls. No relationships between the natural anticoagulants, antithrombin III, heparin cofactor II, protein C and protein S, and the presence of APA were found. In the patients with SLE both tissue plasminogen activator antigen and plasminogen activator inhibitor (PAI) were increased, but these changes were not due to APA which had no effect on fibrinolysis in these patients. In the patients with APA who did not have SLE the fibrinolytic response to venous occlusion was reduced due to raised levels of PAI; similar changes have, however, been reported in some patients with idiopathic thrombosis.
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PMID:The fibrinolytic response to venous occlusion and the natural anticoagulants in patients with antiphospholipid antibodies both with and without systemic lupus erythematosus. 170 91

Tremendous progress have been performed during the last 25 years in thrombosis. Thrombotic disease can result either from increased deposition or decreased dissolution of fibrin. Since the first observation of a familial antithrombin III deficiency, numerous inherited defects of antithrombotin III, protein C, protein S, heparin cofactor II and plasminogen have been described and were assumed to be responsible of a thrombophilic state. However a disparity in the clinical expression of heterozygous deficiency in coagulation inhibitors or molecular abnormalities of coagulation does exist. On one hand, the prevalence of such molecular diseases is not yet perfectly known and on the other hand, contributory factors (acquired environmental insults or other genetic abnormalities) could play a role in individuals already predisposed to thrombosis. The molecular genetics of deficiencies is going to help us to establish specific gene lesions and thromboembolic history relationships. The analysis of structural or regulatory mutations in the genes of the different coagulation inhibitors, of the molecules of the fibrinolytic system, and of the fibrinogen molecule will greatly increase our knowledge of the molecular basis of thrombosis. The influence of the genetic polymorphism of these molecules on the risk of thrombosis should be studied. Finally, cellular aspects of thrombosis including the role of blood cells and endothelial cells will bring lot of informations on the comprehension of thrombotic diseases.
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PMID:[Molecular basis of thrombosis]. 176 58

6 patients with deep vein thrombosis triggered by drug therapy, that is oral contraceptives in 5 and the anticonvulsant tranexamic acid in 1, are described. These cases were among 40 symptomatic patients out of a total group of 81 with congenital coagulation inhibitor defects studied over 10 years at the Institute of Medical Semiotics, Padua, Italy. The 5 women with deep vein thrombosis ranged in age from 20-34, and had typically taken oral contraceptives containing 35 mcg ethinyl estradiol in combined or phasic preparations, for 1 to 8 cycles. One women, however, had been prescribed sequential pills containing 50 mcg mestranol. Another had taken oral contraceptives with impunity for 3 years, but developed deep vein thrombosis after taking tranexamic acid for 10 days. All recovered after heparin or oral anticoagulant therapy, except a 21 year old whose condition evolved into complete ileo-caval obstruction up to the renal veins, and was treated with urokinase. the congenital defects involved were 3 probable heterozygous true deficiencies of antithrombin III (low ATIII antigen and activity); a decreased protein C antigen to factor X antigen ratio; a heparin cofactor II deficiency; and a type I protein S deficiency (low free protein S, with normal total protein S and normal levels of C4B-bp.) While 5 of these 6 women had family histories of thromboembolic disease, the drug was prescribed without knowing that they were heterozygous for a coagulation inhibitor deficiency. The incidence of drug-induced thromboembolism was low in this series overall, where most of the events were triggered by surgery or trauma.
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PMID:The role of drugs, particularly oral contraceptives, in triggering thrombosis in congenital defects of coagulation inhibitors: a study of six patients. 178 39

Thirty-three subjects, belonging to a large family with functional antithrombin III (ATIII) deficiency (type IIa) and recurrent thromboembolism, were investigated for ATIII, heparin cofactor II (HCII), protein C (PC) and protein S (PS). We report the exceptional finding of two cases of triple deficiency: ATIII combined with HCII and PC in the first case aged 15 and ATIII combined with HCII and PS in the second case aged 27. Interestingly, both are asymptomatic thus far. Twenty-five other deficient members were found, among which seven are affected with a double deficiency. Totally, the results of our study show 38 deficiencies of four distinct antithrombotic protein: ATIII (n = 9), HCII (n = 9), PC (n = 7) or PS (n = 13). Two types of HCII deficiency were observed and type I PC deficiency was found. Functional PS deficiency was characterized by reduced levels of cofactor activity for activated PC. Our report demonstrates that combined deficiencies should be sought in a family already known to be deficient in one antithrombotic protein.
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PMID:Two cases of inherited triple deficiency in a large kindred with thrombotic diathesis and deficiencies of antithrombin III, heparin cofactor II, protein C and protein S. 183 72

Acidic synthetic peptides corresponding to segments of several nonhomologous proteins (hirudin, residues 54-65; heparin cofactor II, residues 54-75; and fibrinogen, residues 410-427 of the gamma B-chain) inhibit thrombin's cleavage of fibrinogen without blocking the enzyme's active site. Here, we examined effects of these peptides on thrombin's cleavage of protein C and small peptides. Activation of protein C by thrombin in the absence of calcium was inhibited by all of the peptides. Maximal inhibition was 60%, and no greater inhibition was produced by higher peptide concentrations. This differed from progressive inhibition of protein C activation by increasing peptide concentrations in the presence of thrombomodulin and calcium. Potencies of the peptides were in the order hirudin-(54-65) greater than heparin cofactor II-(54-75) greater than gamma B-chain-(410-427). Sulfation of the tyrosine residue in hirudin-(54-65) increased its potency about 10-fold, similar to changes in anticlotting activity. The peptides were activators rather than inhibitors of the cleavage of small chromogenic substrates. In the presence of the peptides, the affinity of thrombin for the substrates S-2366 (pyro-Glu-Pro-Arg-4-nitroanilide), Chromozyme TH (tosyl-Gly-Pro-Arg-4-nitroanilide), and S-2251 (D-Val-Leu-Lys-4-nitroanilide) increased 1.5-2-fold with little change in the Vmax of substrate cleavage. Potencies of peptides in these allosteric effects on thrombin was in the same order as for their other effects. The similar actions of these nonhomologous peptides, which are believed to bind to thrombin's anion-binding exosite, suggest that binding of any peptide to this site exerts the same allosteric effect on thrombin's active site. Interactions of these peptides with thrombin may serve as models for regulation of thrombin's interactions with natural substrates and inhibitors.
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PMID:Allosteric changes in thrombin's activity produced by peptides corresponding to segments of natural inhibitors and substrates. 184 94

To investigate mechanisms regulating intra-alveolar coagulation, we studied monolayers of the A549 human lung epithelial cell line. The surface of A549 cells delayed the onset of prothrombin-to-thrombin conversion and prevented total prothrombin consumption in normal plasma compared to plastic cell-free wells. Similar results were achieved with bovine pulmonary endothelial (CPAE) and rat intestinal epithelial (IEC-6) cell lines, whereas Madin-Darby canine kidney renal epithelial cell line accelerated thrombin formation. The A549 surface catalyzed antithrombin III-thrombin complex formation with no significant increase in thrombin inactivation from heparin cofactor II. The A549 cell surface effects were largely, but not completely, reversed to values obtained for plastic when protein C-deficient plasma was used. Pretreatment of the cell surface with chondroitinase ABC plus heparitinase prior to thrombin generation experiments had no effect on the total prothrombin consumed but decreased the initial delay. Heparan sulfate as well as dermatan sulfate and other chondroitin sulfates were detected on the A549 surface using alcian blue staining. Conditioned media from A549, CPAE, and IEC-6 cells delayed the clot time of recalcified plasma. Use of chondroitinase ABC and heparitinase were both required to obliterate the A549 conditioned media activity. After growing A549 cells in 35SO(2-)4-containing medium, the resultant conditioned medium was found to contain 2,000 kD and 300- to 1,000-kD proteoglycans that yielded chains of less than or equal to 100 kD on reductive elimination with base.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A549 lung epithelial cells synthesize anticoagulant molecules on the cell surface and matrix and in conditioned media. 201

Components of the natural anticoagulant system (NAS) and anticardiolipin antibodies were examined in 21 patients with lupus anticoagulant (LA), 13 of whom had past histories of thrombotic episodes. No relationship could be shown between the antigenic levels of protein C and S (PC, PS) and a history of thrombosis. Inhibition of the anticoagulant activity of activated protein C (APC) was observed using plasma from 20/21 patients when phospholipid vesicles were used as the surface for the coagulation reaction. This effect was not affected by the addition of PS. When platelet membranes were employed only 2/21 patients demonstrated inhibition of APC. Under the latter condition, PS functional activity was inhibited in 7/21 patients, six of whom had a past history of thrombosis. Reduced antithrombin III or heparin cofactor II levels were observed in a total of 4/21 patients and may have contributed to the development of thrombosis in three of these patients. Antibodies specifically directed against these proteins were not detected suggesting the possibility of an associated constitutional deficiency. Anticardiolipin antibodies, though elevated in 17/21 patients, did not serve as a useful marker for an increased risk of thrombosis, and the level did not correlate with inhibition of the activity of APC or PS. We conclude that the mechanism of thrombosis in patients with LA is multi-factorial. A subset of patients in whom LA specifically inhibits PS function may represent patients who are at significant risk from thrombosis.
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PMID:Studies of natural anticoagulant proteins and anticardiolipin antibodies in patients with the lupus anticoagulant. 217 38

The coagulation system can be considered as a balance in which clotting and fibrinolysis have to be in a state of equilibrium. Increased fibrin formation or decreased fibrinolysis can predispose to thromboembolic diseases. Derailments in the clotting system leading to thrombosis center around the regulatory mechanisms, antithrombin III, protein C, protein S and possibly heparin cofactor II. Many cases of congenital or acquired deficiencies or abnormalities or antithrombin III, protein C and S have been described, all predisposing to thrombotic events. Alterations of the fibrinolytic system can also be associated with thromboembolisms. In particular, abnormalities of plasminogen, tissue plasminogen activator release and elevated tissue plasminogen activator inhibitor levels seem to be associated with thromboses. Conceivably also factor XIIa (Hageman factor) and prekallikrein deficiencies, when associated with thrombosis, exert their mechanism through the fibrinolytic system. Finally, about 50% of patients with lupus anticoagulant seem to suffer from thromboembolic disorders. The pathophysiology of this particular association is not known with certainty. Undoubtedly, there will be more disturbances discovered in the hemostasis system that are associated with increased intravascular fibrin formation. The understanding of these derailments is at this time only in its earliest stages of development.
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PMID:Pathophysiology of thrombophilic states. 246 10

Causes of haemorrhagic tendency in liver disorders have been widely studied. Deficiency of procoagulants is the best explanation for it. Not seldom a thrombotic tendency or even overt thrombosis occurs and may be satisfactorily explained. The level and function of two important natural anticoagulants, i.e. of antithrombin III and protein C is markedly reduced, first in liver cirrhosis. Heparin cofactor activity of AT III and/or heparin cofactor II may be especially diminished. The hypercoagulable state resulting from these changes may be further aggravated by a so-called hyper-adhesive state which is the consequence of the sustained high level of plasmatic vWFAg associated with liver cirrhosis. Altered haemostatic balance needs individual laboratory evaluation.
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PMID:Thrombosis promoting changes in chronic liver diseases. 246 26

The well-known coagulation inhibitors antithrombin and protein C, and the more recently described inhibitors, heparin cofactor II and extrinsic pathway inhibitor, were measured in plasma during a 7-day observation period, from patients with pneumonia (n = 13), and in stroke patients with infarction (n = 9) and haemorrhage (n = 9). In patients with pneumonia, elevated fibrinopeptide A levels and subnormal antithrombin and protein C levels suggested some degree of consumption of the inhibitors. Later, an increase was observed for all the inhibitors, but was most conspicuous for heparin cofactor II which reached high normal values. C-reactive protein, initially markedly elevated, decreased rapidly. This finding suggests that heparin cofactor II might act as a delayed acute phase reactant. In stroke patients only small, not statistically significant, changes occurred during the observation period, except for heparin cofactor II which increased in patients with haemorrhagic stroke.
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PMID:Coagulation inhibitor levels in pneumonia and stroke: changes due to consumption and acute phase reaction. 247 68

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