EC:3.4.21.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Protein C is a vitamin K-dependent zymogen of the serine protease, activated protein C (APC), an important regulatory enzyme in hemostasis. In view of the potential of human APC as an anticoagulant and profibrinolytic agent, the pharmacokinetics and tissue distribution of APC were studied in guinea pigs. The plasma elimination of a trace dose of 125I-APC was biphasic following an initial rapid elimination of approximately 15% of the injected dose within 1 to 2 minutes. This rapid removal of 125I-APC from the circulation was found to be a result of an association with the liver regardless of the route of injection. Essentially identical results were obtained with active site-blocked forms of APC generated with either diisopropylfluorophosphate or D-phenylalanyl-L-prolyl-L-arginine chloromethyl ketone, which indicates that the active site was not essential for the liver association. Accumulation of all three forms of APC in the liver peaked at 30 minutes and then declined as increasing amounts of degraded radiolabeled material appeared in the gastrointestinal tract and urine. Removal of the gamma-carboxyglutamic acid (gla) domain of diisopropylphosphoryl-APC resulted in a 50% reduction in the association with liver and an accumulation in the kidneys. Protein C and protein S were cleared from the circulation at rates approximately one-half and one-fourth, respectively, that of APC. Both in vitro and in vivo, APC was found to form complexes with protease inhibitors present in guinea pig plasma. Complex formation resulted in a more rapid disappearance of the enzymatic activity of APC than elimination of the protein moiety. These findings indicate two distinct mechanisms for the elimination of APC. One mechanism involves reaction with plasma protease inhibitors and subsequent elimination by specific hepatic receptors. The other mechanism involves the direct catabolism of APC by the liver via a pathway that is nonsaturable over a substantial dose range and independent of the active site. This pattern of elimination is distinctly different from that observed with the homologous coagulation enzymes thrombin, factor IXa, and factor Xa.
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PMID:Pharmacokinetics of activated protein C in guinea pigs. 202 78

Activation of human platelets considerably enhanced their ability to accelerate factor Va inactivation by activated protein C (APC). The anticoagulant activity of platelet suspensions was markedly dependent on the kind of agonist used to activate platelets. APC-catalyzed factor Va inactivation in free solution was characterized by an apparent second-order rate constant of 2 x 10(5) (mol/L)-1 (seconds)-1. Nonstimulated platelets (2.4 x 10(8)/mL) and platelets stimulated with adenosine diphosphate or adrenalin accelerated factor Va inactivation fourfold. Rates of factor Va inactivation were increased 11-fold by thrombin-stimulated platelets, 29-fold after platelet stimulation with the Ca(2+)-ionophore A23187. At low platelet concentrations (3 x 10(7)/mL) only background levels of anticoagulant activity were observed in platelet suspensions that were nonstimulated or stimulated with thrombin or collagen. However, when such reaction mixtures were stirred during the activation procedure, platelet anticoagulant activity was increased more than 10-fold. Independent of platelet stimulation and stirring conditions, exogenously added purified plasma protein S increased platelet-dependent factor Va inactivation approximately twofold. Addition of a neutralizing antiprotein S antibody had little effect on the anticoagulant activity of platelets. This indicates that, under the reaction conditions tested, platelet-released protein S did not contribute to factor Va inactivation. Approximately 25% of the anticoagulant activity of stimulated platelet suspensions appeared to be associated with microparticles that were released on platelet activation. Such microparticles may provide an important source of anticoagulant activity. A similar distribution of procoagulant, ie, prothrombinase, activity between platelets and microparticles was observed for the same platelet suspensions. Because platelet stimulation and stirring also had the same overall effects on the ability of platelets and platelet microparticles to promote prothrombin activation and factor Va inactivation, it appears likely that the generation of potential platelet anticoagulant and procoagulant activities is coupled to the same platelet stimulation reactions.
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PMID:Comparison of anticoagulant and procoagulant activities of stimulated platelets and platelet-derived microparticles. 204 66

In our previous paper, we reported the development of a blood collection and processing system (BCPS) suitable for the ARIC multicenter hemostasis study. As an additional step of preparation for the ARIC study, we incorporated this BCPS into an organizational plan to increase efficiency and minimize errors. We initially designed organizational trays for blood collection tubes and aliquot tubes and developed a coordinated step-by-step plan for the orderly processing of blood samples. Once the plan was considered workable, we carried out a pilot study to test the feasibility of this integrated organizational plan. Included in the pilot study were 95 healthy subjects randomly selected from 4 ARIC field centers, whose age and gender were comparable to those projected for the ARIC population. We determined the time lapse of filling the first tube as an index of blood flow. The overall mean time-lapse was 23 s (S.D. = 5). There was no significant difference among the field centers. We also determined the entire time lapse required for completing the sample processing. The total processing time was always less than 60 min. By performing the processing of samples in pairs, all the samples from two subjects could be completely processed in 70 min. This greatly increased the efficiency of field center operation. We evaluated the potential in vitro hemostasis activation by measuring plasma beta-thromboglobulin and platelet factor 4 levels. The geometric means of both proteins were comparable to our previously reported results. Fibrinogen, factor VII, factor VIII, von Willebrand factor, antithrombin III, protein C and activated partial thromboplastin time were analyzed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:ARIC hemostasis study--II. Organizational plan and feasibility study. 208 37

The balance of coagulation and fibrinolysis was studied in 15 horses during the prodromal stages of acute laminitis induced by carbohydrate overload. Progression of the disease was stopped 12 to 24 hours before the expected onset of lameness in trial 1 (8 horses) and at the onset of lameness in trial 2 (7 horses). The end points in each trial were identified by specific changes in blood pressures (trial 1) and by changes in pulse, rectal temperature, and arterial pressure (trial 2) that were anticipated on the basis of original description of the experimental model. Blood samples for hemostasis evaluation were collected before and after carbohydrate overload in trial 1 and after carbohydrate overload in trial 2. Significant changes were not detected in platelet count, mean platelet volume, prothrombin time, activated partial thromboplastin time, fibrinogen concentration, plasminogen concentration, alpha-2-antiplasmin, antithrombin III, protein C, thromboxane B2, or fibrin(ogen) degradation product concentration. We concluded that an imbalance in coagulation and fibrinolysis is not pathogenic in the onset of experimentally induced equine acute laminitis. Because several test methods used to evaluate hemostasis in these horses were new, reference values for 34 healthy adult horses were established.
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PMID:Evaluation of coagulation and fibrinolysis during the prodromal stages of carbohydrate-induced acute laminitis in horses. 208 21

This study describes a process by which serine proteases that contain an S-1 arginine subsite and active site histidine may be inactivated and subsequently quantitated using a combination of peptidyl chloromethylketone chemistry and immune recognition technology. Active site labeling and inactivation of proteases is attained by modification of the active site histidine with a peptidyl chloromethylketone. In the specific illustrations demonstrated, we used the compound biotinyl-epsilon-aminocaproyl-phenylalanylprolylarginyl chloromethylketone. This reagent reacts quantitatively and specifically with the active site histidine of a wide variety of proteases that are elaborated in the coagulation and fibrinolytic system. The inactivated enzyme(s) may be quantitated by combinations of antiprotein antibodies and avidin binding technology using the biotin moiety on the peptide inhibitor. We have demonstrated the capability of capture of inactivated enzyme products directly on to solid-phase avidin with subsequent quantitation of bound protein using specific antibodies. In the converse system we have captured specific proteases using antiprotein antibodies in the solid phase and have quantitated bound enzyme by using avidin. Subsequent detection and quantitation has been achieved using the enzymatic activity of horseradish peroxidase conjugated either to the antibody or to avidin. Both types of assays are feasible, with avidin capture being the preferred mode when enzyme is evaluated in the presence of excess zymogen, as would be common in the evaluation of most blood-clotting enzymes. Assays are illustrated for tissue plasminogen activator, plasmin, thrombin, factor Xa, and activated protein C, which can measure protease concentrations as low as 50 pmol/L. Specific applications of the assays are provided in studies of the activation of prothrombin by the prothrombinase complex and of factor X with Russell's viper venom factor X activator. These assays measure the mass of active site present in the reaction mixture and are relatively independent of subspecies of enzyme or the environment in which the activity is generated. These assay systems provide powerful tools for elucidating product-precursor relationships in multienzyme feedback reactions involving zymogen activation.
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PMID:Active site-specific immunoassays. 211 28

We determined the following coagulo-fibrinolytic activities in 24 patients with systemic lupus erythematosus (SLE) and 20 healthy adults: prothrombin time (PT), activated partial thromboplastin time (A-PTT), factor VIII: coagulant activity), von Willebrand factor antigen (vWF: Ag), antithrombin-III (AT-III), plasminogen (PLG), alpha 2 plasmin inhibitor (alpha 2 PI), alpha 2-plasmin inhibitor-plasmin complex (PIC), protein C (PC: activity and antigen concentration), and protein S (PS: total PS and free PS). PLG, AT-III, PC antigen concentration and total PS were significantly decreased in ten female controls as compared with ten male controls. Therefore, we used the ten healthy females as controls and excluded two male SLE patients in the analysis of the correlations of coagulo-fibrinolytic activities with lupus anticoagulant (LA), clinical and laboratory features in 22 female patients with SLE. In the SLE patients, PT was significantly shortened, while A-PTT was prolonged. PLG, PC activity and antigen, and total PS were significantly increased, and free PS levels were decreased in SLE. The shortened PT and decreased free PS suggest hypercoagulable states in SLE patients. A significant prolongation of A-PTT and a decrease of F VIII activity were observed in the six LA-positive SLE patients, and the results were considered as known effects of LA. Furthermore, vWF: Ag, AT-III and PC antigen levels were significantly increased in the LA-positive patients as compared with LA-negative patients. These changes indicate both vascular endothelial cell damages and a compensatory increase in coagulation inhibitors in the LA-positive patients.
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PMID:[Regulation of coagulo-fibrinolytic activity and lupus anticoagulants in systemic lupus erythematosus]. 212 31

Site-specific mutagenesis has been employed to alter the cDNA of human protein C (PC), such that the gamma-carboxyglutamic acid (gamma) pair at positions 6 and 7 of the recombinant (r) protein would be changed to aspartic acid residues. This variant, [gamma 6D, gamma 7D]r-PC, and its wild-type (wt) counterpart have been expressed in human kidney 293 cells. After purification, forms of wtr-PC that were fully gamma-carboxylated and beta-hydroxylated and of [gamma 6D, gamma 7D]r-PC that lacked only the two altered gamma-residues at amino acid sequence positions 6 and 7 were obtained. Subsequent to its conversion to activated PC (APC), [gamma 6D, gamma 7D]r-APC displayed a greatly reduced activity in the activated partial thromboplastin time of PC-deficient plasma, as compared to wtr-APC and human plasma APC. In addition, the activity of [gamma 6D, gamma 7D]r-APC toward inactivation of purified human factor VIII was reduced to less than 5% of that of wtr-APC and human plasma APC. These results, with the first reported mutations at gamma-residues of PC produced by recombinant DNA technology, indicate that the paired gamma-residues at positions 6 and 7, which are highly conserved in all vitamin K dependent coagulation proteins, are very important to generation of fully functional APC. Additional results demonstrate further that lack of gamma-carboxylation at positions 6 and 7 of PC does not substantially affect this same processing reaction at other relevant glutamic acid residues.
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PMID:A gamma-carboxyglutamic acid (gamma) variant (gamma 6D, gamma 7D) of human activated protein C displays greatly reduced activity as an anticoagulant. 212 95

The protein C activity assay of Francis and Patch (Thromb Res 1983; 32: 605-613) is based on the prolongation of the activated partial thromboplastin time in the presence of activated protein C isolated from the test samples. The assay was modified and standardized by Rapaport et al. (Am J Clin Pathol 1987; 87: 491-497), but could still only be used in patients on heparin therapy after chromatographic removal of the heparin. In this study we attempted to eliminate the heparin separation step without losing the advantages of the modified (Rapaport) method. Heparin was added to the isolated protein C to obtain a rapid and complete antithrombin effect after the thrombin activation step and polybrene was subsequently used to neutralize the excess heparin. Using this modified assay protein C activity ranged from 67 to 133% in the normal population, and from 9 to 25% in coumarin-treated patients. Precision of the modified method was acceptable in both normal and pathological PC ranges: within- and between-batch variations were 5.6 and 3.6%, and 8 and 14%, respectively. The assay correlated well (r = 0.84) with the ELISA technique in both healthy donors and non-coumarin-treated patients.
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PMID:The use of polybrene for heparin neutralization in protein C activity assay. 213 12

Although protein C (PC) and activated protein C (APC) have been postulated to be useful for treating patients with thrombosis, their critical effect remains to be studied in human subjects. To examine whether purified PC or APC are useful for treating patients with thrombosis without showing any adverse effect, we studied effects on coagulation and fibrinolysis in normal human subjects. When highly purified human PC was administered intravenously to healthy subjects, plasma levels of immunoreactive PC decreased with a half-life of 10.9 h. Intravenously administered APC decreased with a half-life of 23 min as measured by prolongation of activated partial thromboplastin time (APTT). However, 1.7 h was obtained for the plasma half-life of APC when it was measured immunologically. These findings suggested that a significant fraction of the administered APC was rapidly inhibited by plasma inhibitor. Upon administration of APC, APTT was prolonged and plasma levels of clotting factor VIII (F-VIII) decreased transiently as measured by clotting assay. However, when determined by a chromogenic assay method in which 120-fold diluted plasma samples were used, plasma levels of F-VIII remained unchanged. Plasma levels of F-V did not decrease after APC administration. These findings suggested that prolongation of APTT and apparent decrease in plasma F-VIII clotting activity might be due to the in vitro-effect of APC present in plasma samples used. Diurnal fluctuation of plasminogen activator inhibitor in normal subject was not affected by administration of APC. Thus, PC or APC seems to function selectively at the site of thrombin-formation without lowering plasma levels of coagulation factors.
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PMID:Effect of protein C and activated protein C on coagulation and fibrinolysis in normal human subjects. 214 Feb 5

Protein S is the vitamin K-dependent cofactor of activated protein C which functions as a potent anticoagulant by degrading activated factors V and VIII in a Ca2+ and phospholipid-dependent reaction. Protein S circulates under two forms, free (approximately 40%) or bound to C4b-binding protein (C4b-bp); only the free form supports the cofactor activity for activated protein C. Total protein S antigen is usually measured by rocket immunoelectrophoresis. Free protein S antigen is measured by the same technique but after precipitation of the protein S-C4b-bp complex by PEG 8000. However, these immunological assays do not detect functional alterations of protein S which can be responsible for thrombosis. This paper describes a functional assay for free protein S based on its ability to promote the prolongation of clotting time following factor Va inactivation by activated protein C when coagulation is triggered by factor Xa. Using this assay a prolongation of about 100 s between 0 and 1 U/ml protein S is measured, allowing a reliable and rapid determination of functional protein S. The correlation coefficient between functional protein S and free antigenic protein S is 0.921. This functional protein S assay has allowed the detection of 34 cases of protein S deficiency, confirmed by immunological assays, and their classification. The striking observation is the high frequency (approximately 25%) of arterial thrombosis in these patients. The rapid determination of functional protein S in patients with venous or arterial thrombosis is of diagnostic interest and should allow the detection of mutant protein S in combination with an immunological assay.
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PMID:Screening of protein S deficiency using a functional assay in patients with venous and arterial thrombosis. 214 42

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