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)

A major adverse effect of recombinant human erythropoietin (r-HuEPO) in hemodialyzed patients are thrombotic events. Several reports on platelet function during r-HuEPO treatment have been published but less is known about fibrinolysis. In the present study, the fibrinolytic capacity was studied in 20 patients on maintenance hemodialysis and treated with r-HuEPO. The patients were randomized into two groups and investigated in a crossover design. r-HuEPO was administered intravenously and subcutaneously in each group and was given for 3 months, respectively. Plasma tissue plasminogen activator (t-PA) and released t-PA remained unaffected by r-HuEPO in both groups throughout the study. Tissue plasminogen activator inhibitor (PAI) increased in a cyclic way reaching peak values 4-6 weeks after the start of investigation and again 4-6 weeks after changing therapy. The increase in PAI was significant in the two groups (0.025 > p > 0.01). Tissue plasminogen antigen was low in the uremic patients. The influence of r-HuEPO on this parameter was not investigated. Compensatory changes in plasma levels of factor XII procoagulant activity, activated protein C and of alpha 2-antiplasmin were not observed. Thrombotic events occurred in 4 patients at peak values of PAI. Six patients required an increase in heparin dose simultaneously with the increase in PAI. Thus, r-HuEPO seemed to affect the fibrinolytic capacity of uremic patients.
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PMID:Fibrinolytic capacity in hemodialysis patients treated with recombinant human erythropoietin. 143 39

Anabolic steroids are known to increase the plasma concentrations of certain plasma proteins. In four patients given treatment with danazol, an attenuated androgen, the concentrations of heparin cofactor II, Hageman factor (factor XII), protein C, and both free and total protein S increased significantly when tested 39 to 103 days after the start of therapy. The titers of these proteins in samples obtained 21 days to 5 years after therapy was discontinued were similar to those before treatment, except for total protein S, the titer of which remained elevated. No significant changes in the titers of C4b binding protein or plasma plasmin inhibitory activity were found.
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PMID:Some clotting factors in plasma during danazol therapy: free and total protein S, but not C4b-binding protein, are elevated by danazol therapy. 153 44

Epidermal growth factor (EGF) domains are found in many proteins, particularly those of the coagulation/fibrinolytic system. We and others have demonstrated that tissue plasminogen activator (t-PA) and prourokinase are modified by the attachment of fucose to equivalent threonine residues within their EGF domains. Factor XII and protein C each contain two EGF domains; in both proteins, the EGF domain nearest the N terminus has a threonine residue in a position homologous to that which is fucosylated in t-PA. In protein C, this site is 3 residues from the position of another post-translational modification, beta-hydroxylation of Asp-71. We isolated peptides containing these sites to determine, primarily by mass spectrometric analysis, the presence of O-linked fucose and/or beta-hydroxyaspartate. We found that factor XII is fully fucosylated at Thr-90. Protein C is unmodified at the equivalent site (Thr-68) and is completely beta-hydroxylated at Asp-71. It has been recently reported that the first EGF domain of human factor VII has O-linked fucose at the equivalent position (Ser-60) (Bjoern, S., Foster, D. C., Thim, L., Wiberg, F. C., Christensen, M., Komiyama, Y., Pedersen, A. H., and Kisiel, W. (1991) J. Biol. Chem. 266, 11051-11057), while it is unmodified at Asp-63 despite having the consensus sequence for beta-hydroxylation at the latter site. These observations raise the possibility that O-linked fucosylation and beta-hydroxylation of EGF domains are mutually exclusive post-translational modifications.
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PMID:O-linked fucose is present in the first epidermal growth factor domain of factor XII but not protein C. 154 94

Renal transplant recipients treated with cyclosporine (CS) have been reported to be at increased risk of thrombotic complications. The present study was intended to examine the blood coagulation, fibrinolytic, and inhibitory systems in such patients. Eight transplant recipients on maintenance immunosuppression with CS and prednisone were studied. Five transplant recipients maintained on azathioprine (AZA) and prednisone and 32 normal volunteers served as controls. Plasma antigen concentrations and/or activities of various proteins in the above pathways were measured. Both the CS and AZA groups exhibited significant elevations of factor IX activity, von Willebrand factor (vWF), D-dimer, protein C and tissue type plasminogen activator (t-PA) levels when compared with the normal controls. In addition, CS group showed a significant elevation of alpha 2-macroglobulin activity and AZA group showed a significant reduction in factor XII activity when compared with the normal controls. Comparison of data from CS and AZA groups revealed higher factor XII activity and vWF concentration in the former group. In conclusion, transplant recipients treated with long-term cyclosporine and prednisone exhibited significant elevation of plasma vWF, D-dimer and protein C concentrations. In addition, both CS and AZA-treated transplant recipients showed increased plasma concentrations of D-dimer and t-PA. The latter observations suggest in vivo thrombin generation, fibrin formation and degradation.
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PMID:Blood coagulation, fibrinolytic and inhibitory profiles in renal transplant recipients: comparison of cyclosporine and azathioprine. 163 29

Disseminated thrombotic processes in the microcirculation are considered to be an important cause of multiple organ failure in septic patients. Fibrinolysis is one endogenous mechanism protecting the circulation from overwhelming thrombosis. Therefore, we looked for alterations of fibrinolytic parameters (tissue plasminogen activator (t-PA), tissue plasminogen activator inhibitor (PAI), D-dimer, euglobulin-clot-lysis-time (ECLT), plasminogen, alpha 2-antiplasmin) and of some coagulation parameters (prothrombin time, fibrinogen, platelets, antithrombin III, protein C, factor XII) in clearly defined septic patients and for the relations of these values to the severity of the disease (APACHE II-score). An increase in D-dimer and t-PA-antigen was registered in all patients, while factor XII and plasminogen were decreased, indicating an activated fibrinolysis. In contrast the systemic fibrinolytic capacity of the blood was strongly inhibited: t-PA-activity was not detectable, PAI-function was elevated, the ECLT was prolonged and alpha 2-antiplasmin was normal. Coagulation was moderately activated: the platelets, antithrombin III and protein C were decreased, the prothrombin time was prolonged and fibrinogen was normal. The changes in t-PA-antigen, PAI-function, factor XII, prothrombin time and antithrombin III were significantly related to the APACHE II-score of the patients. We conclude that the activation of coagulation is accompanied by an activation of fibrinolysis in the microcirculation, but that systemically the increased inhibitors of fibrinolysis (PAI, alpha 2-antiplasmin) induce a decrease of the fibrinolytic capacity of the blood. The severity of the disease determines the extent of the alterations.
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PMID:Activation and inhibition of fibrinolysis in septic patients in an internal intensive care unit. 169 55

The concept of the haemostatic balance was reviewed, and its potential role in the regulation of tissue repair and the pathogenesis of thrombotic processes was surveyed. Physiological activation of coagulation appears to be dominated by effects of degenerated and injured cells of the vascular wall causing local release of thromboplastin and exposition of activating surfaces. Inhibition of coagulation impairs its progression and the non-thrombogenic nature of the normal endothelium is chiefly caused by the binding of inhibitory components (antithrombin-III, protein C) to specific receptor sites. Physiological activation of fibrinolysis appears to be triggered by and limited to the fibrin because of a specific affinity to fibrin of plasminogen and plasminogen activators. Systemic activation of fibrinolysis is prevented by primary (alpha 2-antiplasmin) and secondary (alpha 2-macroglobulin, alpha 1-antitrypsin) plasmin inhibitors. A plasminogen binding protein (histidine-rich glycoprotein), plasmin inhibitors and activator inhibitors appear to contribute to the regulation of the initial phase of fibrinolysis. A deviation from normal of the dynamic balance, regulating fibrin formation and resolution, may lead to a haemorrhagic and/or a thrombophilic state. Described were the optimization of selected methods for assessment of variables involved in the haemostatic balance. An overestimation of plasminogen concentrations in plasma may occur in patients with elevated levels of fibrinogen or fibrin degradation products, when using assays based on the activation of plasminogen by streptokinase followed by the hydrolysis of a synthetic chromogenic substrate. This source of error could be eliminated by presence of fibrinogen in excess in the plasminogen assay, thereby securing maximum stimulation of the plasminogen-streptokinase complex. The presence of cryoglobulin in plasma interferes with the assessment in euglobulins of plasminogen activator activities. Experiments indicate that tissue-type plasminogen activator adsorb cryoglobulins and that a cold-promoted activation of the factor XII-dependent proactivator system of fibrinolysis is related to the presence of cryoglobulins. Experiments supported the existence of an as yet not characterized factor XII-dependent proactivator. Strictly optimized procedures for the preparation of euglobulins for the accurate determination of plasminogen activators were recommended. The determination of plasminogen activator inhibition in plasma was optimized and simplified. The amidolytic assay of antithrombin-III was shown to be influenced by adsorption to laboratory utensils and aggregation of thrombin. This error could be corrected by protection with additives (Tween 80, polyethyleneglycol 6,000), which also improved the solubility of the chromogenic substrates in aqueous media. The role of thrombosis in myocardial infarction was reviewed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The haemostatic balance in groups of thrombosis-prone patients. With particular reference to fibrinolysis in patients with myocardial infarction. 219 35

Fatal multiple organ failure after severe infection may be related to an early activation of protease cascade systems. This study aimed to relate changes in coagulation, fibrinolysis, and kallikrein to shock and outcome. Of 53 patients with severe infection, 30 did not develop shock, 12 survived septic shock, and 11 died from organ failure after septic shock. No patient had overt disseminated intravascular coagulation. We measured 17 components of the coagulation/fibrinolysis/kallikrein pathways on admission and on the next 2 days. High values for fibrinogen, factor VIII:C, von Willebrand factor antigen, and D-dimer were seen in all patients; factor XII, prekallikrein, factor VII, antithrombin, protein C, and fibronectin were low. The patients thus appeared to be hypercoagulable. These disturbances were more pronounced in septic shock survivors, who also had low plasminogen and antiplasmin, indicating ongoing fibrinolysis. Nonsurvivors of sepsis were distinguished mainly by high plasminogen activator inhibitor values; this suggests an impaired functional fibrinolysis in fatal sepsis, with possible therapeutic implications. Cryoprecipitate infusion increased the fibronectin concentration, but did not influence the other factors studied.
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PMID:Coagulation, fibrinolysis, and kallikrein systems in sepsis: relation to outcome. 250 62

In order to determine a scheme for the screening of inherited thrombotic disorders, abnormalities considered as predisposing to thrombosis have been reviewed. Owing to the low prevalence of biological alterations, a selection of patients is required: documented venous thromboses, possibly at unusual sites (mesenteric vein, portal, cerebral veins), occurring before the age of 40 in patients with a positive family history of thromboses are relatively frequently associated with coagulation abnormalities. In addition, patients with skin necrosis at the initiation of oral anticoagulants, or with repeated superficial vein thrombosis or unexplained arterial occlusions at a young age might be included for screening. Tests have also to be selected. Some abnormalities, such as congenital deficiencies in antithrombin III, protein C and protein S, are recognized risk factors and have to be searched. Some others cannot be at present considered as definite risk factors (e.g., dysfibrinogenemias or deficiencies in factor XII), but their detection is easy by routine tests: prothrombin time, fibrinogen assay. Other abnormalities are recognized risk factors (or not) and need specific uncommon tests (e.g., study of fibrinolysis). Each time a biological abnormality is found, it is important to verify it is isolated since combined deficiencies have been observed and we should be able to answer the question whether the abnormality is the cause or the consequence of thrombosis, or a coincidence. Finally, in our experience, even in well selected patients, a coagulation disorder is detected in less than 30% of patients, so that new tests are needed to improve our knowledge in this field.
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PMID:Screening for inherited thrombotic disorders. 253 41

Recent studies on the mechanism of initiation and regulation of blood coagulation are reviewed. In the intrinsic blood coagulation pathway, factor XII, prekallikrein (or factor XI) and high molecular weight kininogen from a complex on an anionic surface, such as exposed subendothelium at the site of vascular trauma. In complex, zymogen factor XII activates prekallikrein (or factor XI) by limited proteolysis to initiate the coagulation cascade. A similar initiating mechanism may be operative in the extrinsic pathway, where zymogen factor VII, complexed with a lipoprotein (tissue factor) and calcium ions, converts factor X to factor Xa. Factor Xa converts prothrombin to thrombin which converts soluble fibrinogen to an insoluble fibrin network which physically arrests the flow of blood from the damaged vasculature. In addition, thrombin converts protein C to activated protein C. Activated protein C functions as a negative regulator in the coagulation process by degrading factor VIIIa and factor Va.
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PMID:Enzymological aspects of blood coagulation. 668 3

The aim of this double-blind, placebo-controlled crossover study was to investigate the effect of 1-deamino-8-D-arginine vasopressin (dDAVP) on hemostasis in patients with chronic liver disease. Nine consecutive patients with biopsy-proven liver cirrhosis and related coagulation abnormalities received in a random order dDAVP, 0.5 microgram/kg, or saline intravenously. Blood samples were taken before dDAVP infusion and 30, 60 and 180 min after its end. dDAVP infusion induced a statistically significant shortening of the bleeding time from 9 min (range 6.5-15.5) to 6 min (range 4.5-9.5) at 1 h after the infusion. The activated partial thromboplastin time was significantly shortened at 30 and 60 min after dDAVP infusion. Plasma levels of factor VIII, XI and XII coagulant activities were significantly increased at all sampling times after dDAVP infusion. The maximum increase over basal values in plasma levels of factor VIII, XI and XII was 63, 22 and 40%, respectively. dDAVP did not induce any significant changes of prothrombin time, thrombin clotting time, fibrinogen, plasma levels of factor II, V, VII, IX, X, factor XII antigen, protein C (activity and antigen), antithrombin III, plasminogen and alpha 2-antiplasmin. Placebo infusion did not produce any significant changes in the evaluated parameters. We conclude that dDAVP can positively influence the hemostatic system in patients with liver cirrhosis. The clinical relevance of this hemostatic improvement deserves further evaluation.
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PMID:Effects of desmopressin on hemostasis in patients with liver cirrhosis. 748 63


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