EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Factor VIII antigen (VIII:CAg) exhibits molecular weight heterogeneity in normal plasma. We have compared the relative quantities of VIII:CAg forms present in normal individuals (n = 22) with VIII:CAg forms in renal dysfunction patients (n = 19) and in patients with disseminated intravascular coagulation (DIC; n = 7). In normal plasma, the predominant VIII: CAg form, detectable by sodium dodecyl sulfate polyacrylamide gel electrophoresis, was of molecular weight 2.4 X 10(5), with minor forms ranging from 8 X 10(4) to 2.6 X 10(5) D. A high proportion of VIII:CAg in renal dysfunction patients, in contrast, was of 1 X 10(5) mol wt. The patients' high 1 X 10(5) mol wt VIII: CAg level correlated with increased concentrations of serum creatinine, F1+2 (a polypeptide released upon prothrombin activation), and with von Willebrand factor. Despite the high proportion of the 1 X 10(5) mol wt VIII:CAg form, which suggests VIII:CAg proteolysis, the ratio of Factor VIII coagulant activity to total VIII:CAg concentration was normal in renal dysfunction patients. These results could be simulated in vitro by thrombin treatment of normal plasma, which yielded similar VIII:CAg gel patterns and Factor VIII coagulant activity to antigen ratios. DIC patients with high F1+2 levels but no evidence of renal dysfunction had an VIII:CAg gel pattern distinct from renal dysfunction patients. DIC patients had elevated concentrations of both the 1 X 10(5) and 8 X 10(4) mol wt VIII:CAg forms. We conclude that an increase in a particular VIII:CAg form correlates with the severity of renal dysfunction. The antigen abnormality may be the result of VIII:CAg proteolysis by a thrombinlike enzyme and/or prolonged retention of proteolyzed VIII:CAg fragments.
...
PMID:Abnormal factor VIII coagulant antigen in patients with renal dysfunction and in those with disseminated intravascular coagulation. 393 66

Factor VIII Leiden is a genetic variant of coagulation factor VIII which has been detected in the plasma of a patient with mild haemophilia A. In this patient's plasma factor VIII procoagulant antigen was in 5-fold excess over factor VIII procoagulant activity, indicating the presence of an abnormal factor VIII molecule. The variant factor VIII was isolated from the patient's plasma, and its functional properties were studied in a factor X-activating system consisting of purified components. The isolated factor VIII Leiden was normally activated by factor Xa and by thrombin, but the activity of the factor VIIIa was about 3% of normal. The defect of factor VIIIa Leiden was studied by comparison with normal factor VIIIa in kinetic experiments of factor Xa formation. The results support the hypothesis that factor VIIIa Leiden has a reduced affinity for phospholipid-bound factor IXa in the intrinsic factor X-activating complex.
...
PMID:The functional defect of factor VIII Leiden, a genetic variant of coagulation factor VIII. 393 62

The role of factor VIII in the activation of human factor X by factor IXa, Ca2+ and phospholipid has been investigated. Factor VIII stimulated the factor Xa formation after activation by factor Xa or thrombin; the activity of thrombin-activated factor VIII was about 4-fold that of factor Xa-activated factor VIII. The isolated procoagulant moiety of the factor VIII complex behaved identically to the complete complex, whereas the von Willebrand factor moiety did not participate in the factor Xa formation. Thrombin-activated factor VIII complex (factor VIIIa) was used to study the effect of factor VIIIa in kinetic experiments. The results revealed a complex kinetic behaviour, including substrate inhibition and non-linearity of the reaction rate with the enzyme concentration. Using previously obtained insight into the kinetics of factor X activation in the absence of factor VIII, the results were found to support the hypothesis that factor VIIIa participates in the factor Xa formation in a complex with phospholipid-bound factor IXa; the formation of the factor VIIIa-factor IXa complex then increases the catalytic efficiency of the factor IXa by 500-fold.
...
PMID:The role of factor VIII in the activation of human blood coagulation factor X by activated factor IX. 393 63

A chromogenic substrate kit for the determination of factor VIII activity (COATEST Factor VIII) has been evaluated in five different laboratories, one of them using a semi-automated procedure. This chromogenic method was compared to one-stage clotting assays for factor VIII determination in plasmas from healthy subjects, carriers of hemophilia A, severe, mild and moderate hemophilia A as well as von Willebrand's patients. In all these cases, a high correlation between these two methods was obtained (r = 0.96-0.99, n = 385) with a good agreement of the assigned potencies at all levels of factor VIII. A good correlation (r = 0.94) was also obtained for the levels of factor VIII after infusion of concentrates in six severe hemophiliacs or after administration of DDAVP to von Willebrand's patients. The chromogenic method is insensitive to preactivation of factor VIII by thrombin, thus yielding valid potency assignments also in these situations. The precision was higher with the chromogenic method than with the one-stage clotting assays (C.V. = 2-5% vs 4-15%). Altogether, the new chromogenic substrate method has proven itself suitable for determination of factor VIII in plasma and concentrates.
...
PMID:Clinical application of a chromogenic substrate method for determination of factor VIII activity. 393 77

Low-molecular-weight (LMW) heparin has been compared to standard unfractionated (UF) heparin in a total of 49 patients on hemodialysis and hemofiltration in order to determine the necessary therapeutic dose and its effect on the coagulation system. A LMW heparin dose corresponding to 50% of the normal UF heparin dose was found to produce similar plasma heparin levels (anti-FXa-U/ml) in particular on minimal heparinization. At higher doses, UF heparin produced a more marked increase in plasma-heparin than did LMW heparin. Highly significant differences were found between UF and LMW heparin in their effects on PTT and thrombin time. Partial thromboplastin time (PTT) increased under UF heparin by an average of 120 s whereas LMW heparin only produced an increase of 5-7 s. Thrombin time was increased by 250-280 s under UF heparin and by 5-8 s under LMW heparin. With this LMW heparin dose of 50% of the UF heparin dose, no thrombosis of the extracorporal system occurred and no macroscopic detectable thrombotic material was found in the dialyzers or filters. No significant differences were observed between the effects of UF and LMW heparin on Factor VIII activity and fibrin monomers, so that a difference in coagulation activation between the two heparins can be excluded. Furthermore, there were no changes in thromboplastin time according to Quick, fibrinogen, antithrombin III, plasminogen, and a2-antiplasmin.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Use of low molecular-weight heparin in hemodialysis patients]. 398 50

Factor VIII is a large protein molecule of molecular weight 2,000,000 or larger that elutes in the void volume on agarose gel chromatography. It has been shown previously that high concentrations of alkali halides and, more specifically, 0.25 M Ca(2+) dissociate the molecule into a large carrier protein and a small fragment that retains the factor VIII activity. Factor VIII was prepared from normal canine plasma collected in sodium oxalate and heparin and adsorbed with BaSO(4). Results with Ca(2+) dissociation were the same as those obtained with fraction prepared from canine plasma collected in sodium citrate. The addition of 0.1 M epsilon-aminocaproic acid in the dissociation step had no effect. Fractionation of canine hemophilic plasma produced preparations without activity, and no activity was found when these inert preparations were dissociated with Ca(2+). These results indicate that the Ca(2+) dissociation is a true dissociation and not caused by enzymatic degradation by plasmin, thrombin, or activated factors VII, IX, or X. The apparent molecular weight of the small active fragment of factor VIII determined by gel chromatography was about 100,000. Finally, when the large carrier protein and the small active fragment of factor VIII were separated by gel chromatography, mixed, and dialyzed free of Ca(2+), they recombined to form a large active molecule that appeared in the void volume on agarose gel chromatography.
...
PMID:Factor VIII recombination after dissociation by CaCl12. 452 67

Thrombin plays an essential role in the maintenance of haemostatic balance through several biochemical reactions. Its functions as well as the regulation of its activities seem to be decisive in controlling thrombus formation. The present paper endeavours to give a brief summary of the control of thrombin activity and the regulation of biological actions of thrombin. As to the control of the amount of the active enzyme, three possible ways are discussed, i.e. prothrombin synthesis, activation of prothrombin, and inactivation of thrombin by plasma proteinase inhibitors (antithrombin III, alpha-2-macroglobulin, alpha-1-proteinase inhibitor). Regarding the regulation of the various actions of thrombin, the most important biological targets of this enzyme are summarized, namely interaction with fibrinogen, activation of Factor XIII, Factor IX, Factor VIII, Factor V and prothrombin, and the binding to platelets, fibroblasts and endothelial cells. The limits of our present knowledge about the determination of the possible reaction routes catalyzed by thrombin are also considered. Finally, a tentative hypothesis is put forward to explain how the endogenous modulators like heparin determine the biological functions of thrombin.
...
PMID:Thrombin and haemostasis: regulation of the biological functions of thrombin. (Facts and perspectives). 617 55

Factor VIII coagulation activity (VIII:C) and factor VIII associated antigen (VIII:AGN) were determined in healthy newborns and in children with charging perinatal factors ("risk children"). VIII:C values of healthy newborns may be compared with those of grown-ups with normal coagulation. Risk children have somewhat higher values than newborns, the difference, however, being statistically not significant. The concentration of VIII:AGN is clearly increased in both groups on the first day of life. Moreover, VIII:AGN is being eliminated more slowly in risk children. The increased VIII:AGN concentrations are considered as a sequel of stress conditions caused by birth, whereas the discrepancy between VIII:C and VIII:AGN is due to a thrombin effect.
...
PMID:[Factor VIII activity and factor VIII-associated antigen in healthy newborns and in newborns with stressing perinatal factors]. 617 37

Factor VIII (FVIII) procoagulant activity is the function of a plasma glycoprotein that is missing or inactive in patients with classic hemophilia. Numerous studies have shown that trace thrombin causes rapid enhancement followed by gradual inactivation of FVIII procoagulant activity. Recent evidence suggests that thrombin activation of the FVIII/von Willebrand factor (vWF) protein is required for inactivation to occur. All of these studies have used the one-stage partial thromboplastin time to assay FVIII activity. Other investigators have used the two-stage assay of FVIII activity and have been unable to demonstrate thrombin-induced enhancement of FVIII activity, although inactivation has consistently occurred. We performed experiments designed to help resolve this disagreement, using the two-stage assay specifically modified to detect thrombin potentiation of FVIII activity. The length of the first-stage incubation time was found to be critical in demonstrating the initial effect of thrombin on FVIII activity. Taking advantage of this finding we were able to show a 4.1 +/- 0.5-fold enhancement of FVIII activity upon incubating purified FVIII/vWF with 0.04 NIH unit thrombin per ml. The apparent enhancement of FVIII activity declined with increasing thrombin concentration. Incubation with 0.08, 0.16, and 0.32 NIH unit thrombin per ml resulted in only 3.2 +/- 0.5, 2.6 +/- 0.5 and 1.5 +/- 0.3-fold enhancement, respectively, of FVIII activity. As with results from the one-stage assay, activation was followed by slow inactivation of FVIII/vWF. Using the two-stage assay we also showed 100% inactivation and 100% inhibition of FVIII activity by plasmin and human anti-FVIII IgG, respectively. Plasmin inactivation of FVIII activity showed a dose-response effect. Thrombin was unable to activate plasmin-degraded FVIII/vWF. Our results show that thrombin potentiation of FVIII activity is easily demonstrable in the two-stage assay. These findings support the contention that activation of FVIII activity by thrombin is prerequisite for inactivation and underscore the importance of thrombin activation of FVIII/vWF in the intrinsic clotting system.
...
PMID:Thrombin potentiation of factor VIII procoagulant activity: assessment by the two-stage assay. 621 66

The distribution and transport of thrombospondin (TSP), fibrinogen (Fbg), fibronectin (Fn), and Factor VIII-related antigen (VIII:RAg) in resting and thrombin-stimulated platelets was investigated by immunofluorescence microscopy. In resting intact cells, little surface staining was seen for these proteins. In permeable resting cells, punctate staining similar to that reported for platelet factor 4 was observed. Double-label immunofluorescence staining for Fbg and either beta-thromboglobulin (beta TG), TSP, or Fn demonstrated co-localization, indicating their presence in the same intracellular structures. VIII:RAg showed general co-localization; however, the staining was finer, suggesting a possible differential intragranular localization. Thrombin stimulation induced the appearance of larger (approximately 0.5 mu) immunofluorescent masses of these proteins. In thrombin-stimulated cells, co-localization of all proteins in these masses was observed by double label immunofluorescence. Thus, TSP, Fbg, Fn, and beta TG are localized in the same structure in resting cells. Thrombin stimulates formation of common larger masses of these proteins prior to their release, suggesting that they reach the cell surface through a common intermediate.
...
PMID:Immunofluorescent localization of adhesive glycoproteins in resting and thrombin-stimulated platelets. 623 52

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>