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)

Activated protein C (APC), an anticoagulant that acts by inactivating Factors Va and VIIIa, is dependent on a suitable surface for its action. In this study we examined the ability of human platelets to provide this surface and support APC-mediated anticoagulant effects. The activity of APC was examined in three systems: the Factor Xa recalcification time of Al(OH)3 adsorbed plasma, studies of thrombin generation in recalcified plasma, and assessment of the rate of inactivation of purified Factor Va. In comparison with phospholipid, intact platelets required significantly greater concentrations of APC to achieve a similar degree of anticoagulation. When washed platelet membranes were substituted for intact platelets, adequate support of APC was observed and the anticoagulant effect was similar to that obtained with phospholipid. Platelet releasate obtained by stimulation of platelets with thrombin and epinephrine contained an inhibitor that interfered with the ability of phospholipid and washed platelet membranes to catalyze the anticoagulant effects of APC. A noncompetitive inhibition was suggested by Dixon plot analysis of the interaction between platelet releasate and APC. The activity of the platelet APC inhibitor was immediate and was not enhanced by heparin, distinguishing it from the circulating protein C inhibitor. The presence of this inhibitor in the platelet and its release with platelet stimulation emphasizes the procoagulant role of this cell.
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PMID:Inhibition of activated protein C by platelets. 291 Sep 9

Combined deficiency of factor V and factor VIII, a rare bleeding disorder, is reported in a Syrian family. 2 siblings, 10 and 6 yr old are affected. They had mild bleeding manifestations. Their prothrombin time and partial thromboplastin time were prolonged, but thrombin time was normal. Both had low levels of factor V, (6% and 7%), factor VIII, (both 10%) factor VCAg (both 6%) and factor VIII CAg, (6% and 4%). All members of this family had normal levels of factor VIIIR:Ag, protein C, antigen and protein C inhibitor. The normal levels of protein C and protein C inhibitor in the 2 affected family members indicate that the combined deficiency of factors V and VIII has nothing to do with protein C. This contrasts with previous reports that deficiency of protein C inhibitor is the cause of combined factor V and factor VIII deficiency. The probable mode of inheritance of this defect is discussed.
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PMID:Combined factor V and factor VIII deficiency with normal protein C and protein C inhibitor. A family study. 299 22

Bovine thrombomodulin was isolated from the lung by Triton X extraction, affinity chromatography on diisopropyl phosphate-thrombin-agarose, and gel filtration on Ultrogel AcA-44. The final preparation was purified 6000-fold from the membrane extract with a yield of 21%. It showed apparent Mr of 78,000 and 105,000, before and after reduction, respectively, on polyacrylamide gel electrophoresis in SDS. The activity of the thrombomodulin was stable under the conditions of 1% SDS, 8 M urea, pH 2 and 10, and heat treatment at 60 degrees C for 30 min, but was unstable against treatment with 2-mercaptoethanol. Activation of protein C by thrombin in the presence of the thrombomodulin depended on Ca2+, and an equimolar complex formation between thrombin and thrombomodulin was required for the maximum rate activation. The rate of protein C activation by thrombin was increased 900-fold by thrombomodulin. Thrombomodulin inhibited the thrombin-induced fibrinogen clotting and platelet activation. However, it did not affect the inhibition of thrombin by antithrombin III with or without heparin, a protein C inhibitor or several synthetic inhibitors. These properties of bovine thrombomodulin were similar to those of rabbit thrombomodulin reported earlier.
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PMID:Isolation and characterization of thrombomodulin from bovine lung. 301 28

A cDNA library in lambda-phage lambda gt11 containing DNA inserts prepared from human liver mRNA was screened with monoclonal antibodies to human protein C inhibitor. Six positive clones were isolated from 6 X 10(6) phages and plaque purified. The cDNA in the phage containing the largest insert, which hybridized to a DNA probe prepared on the basis of the amino-terminal amino acid sequence of the mature inhibitor, was sequenced. This cDNA insert contained 2106 base pairs coding for a 5'-noncoding region, a 19-amino acid signal peptide, a 387-amino acid mature protein, a stop codon, and a long 3'-noncoding region of 839 base pairs. Based on the amino acid sequence of the carboxyl-terminal peptide released by cleavage of protein C inhibitor by activated protein C as well as by thrombin, the reactive site peptide bond of protein C inhibitor is Arg354-Ser355. Five potential carbohydrate-binding sites were found in the mature protein. The high homology of the amino acid sequence of protein C inhibitor to the other known inhibitors clearly demonstrates that protein C inhibitor is a member of the superfamily of serine protease inhibitors including alpha 1-antichymotrypsin, alpha 1-antitrypsin, antithrombin III, ovalbumin, and angiotensinogen. Based on the difference matrices for these proteins, we present possible phylogenetic trees for these proteins.
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PMID:Characterization of a cDNA for human protein C inhibitor. A new member of the plasma serine protease inhibitor superfamily. 302 58

Protein C inhibitor isolated from human plasma inhibited thrombin, factor Xa, trypsin and chymotrypsin as well as activated protein C, but had very little effect on urokinase and plasmin. The inhibition constants (K1) of protein C inhibitor for activated protein C, thrombin and factor Xa were 5.6 X 10(-8) M, 6.7 X 10(-8) M and 3.1 X 10(-7) M, respectively. The second-order rate constant for inhibition of activated protein C by the inhibitor increased about 30-fold in the presence of an optimal heparin concentration (5-10 units/ml). The inhibition of activated protein C by plasma protein C inhibitor was also accelerated by heparin. When activated protein C (Mr = 62,000) was incubated with protein C inhibitor (Mr = 57,000), enzyme-inhibitor complexes with apparent Mr = 102,000 and 88,000 were observed in the nonreduced and the reduced samples, respectively, on SDS-polyacrylamide gel electrophoresis. In addition to these complexes, a band of unbound enzyme and a band with Mr = 54,000 were detected. When 125I-labeled protein C inhibitor was exposed to activated protein C, the inhibitor band was converted to bands with apparent Mr = 102,000 and 54,000 in the nonreduced samples, as determined by autoradiography after gel electrophoresis in SDS. The band with Mr = 54,000 also appeared when the inhibitor reacted with other serine proteases. The activated protein C was released from the inactive complex by treatment with 1 M ammonia or hydroxylamine. This phenomenon was found by SDS-polyacrylamide gel electrophoresis to represent the dissociation of the enzyme-inhibitor complex by ammonia or hydroxylamine into the free enzyme and the proteolytically modified inhibitor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of inhibition of activated protein C by protein C inhibitor. 632 92

To obtain quantitative information on the in vivo activation of the protein C system during the acute phase of sepsis, several components of the protein C pathway were studied in 18 patients. Blood samples were obtained one day after diagnosis (day 1) and, in 11 patients, also on the fourth and tenth days after diagnosis (days 4 and 10). On day 1, patients showed laboratory signs of haemostatic alterations such as positive fibrinogen/fibrin degradation products, and increased thrombin:antithrombin-III (TAT) complex levels. Compared with the control group, patients on day 1 had significantly decreased (p < 0.001) antigenic protein C (69 +/- 28%) and protein C inhibitor (PCI) (33 +/- 22%) whereas a significant increase in the levels of activated protein C (APC) complexed with alpha 1-antitrypsin (alpha 1AT) (APC:alpha 1AT, 26 +/- 15 ng/mL) and APC:PCI complex (3.0 +/- 2.0 ng/mL), and in the level of plasma kallikrein (KK) complexes with PCI (KK:PCI) (31 +/- 22 ng/mL) was observed. There was a positive correlation between APC:alpha 1AT and TAT complex levels (r = 0.597, p = 0.009). In the follow-up a trend toward normal values in antigenic protein C and PCI, and in APC:PCI and KK:PCI complex levels was found. However, PCI remained significantly decreased compared to normal values. C4b-binding protein, alpha 1AT, and TAT and APC:alpha 1AT complexes did not show any significant variations during the course of the disease, suggesting the contribution of the inflammatory and haemostatic responses, in spite of the good recovery of the patients. This study shows that in the course of sepsis, patients experience a generalized activation of the protein C pathway which was more prominent on day 1, resulting in the consumption of protein C and PCI and in the increase of APC:inhibitor complexes. Moreover, these data provide further evidence that KK:PCI circulating complexes occur in vivo.
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PMID:Activation of the protein C pathway in acute sepsis. 749 7

Protein C inhibitor (PCI), antithrombin, and heparin cofactor II are members of the serine proteinase inhibitor (serpin) superfamily that inhibit proteinases at rates which increase in the presence of the glycosaminoglycan heparin. These studies were undertaken to understand how PCI activity is modulated by various substances that are found in or interact with the vascular endothelium/basement membrane. The effects of antithrombin-heparin, thrombomodulin, vitronectin and leukocyte elastase on PCI-thrombin and PCI-activated protein C (APC) interactions were investigated. Antithrombin, which does not inhibit APC but which does bind to heparin/heparan sulphate with higher affinity than PCI, caused only a small decrease in the inhibition rate of PCI-APC in the presence of unfractionated heparin. Thrombomodulin, a chondroitin sulphate-containing proteoglycan, accelerated PCI inhibition of thrombin and APC. PCI-thrombin in the presence or absence of heparin bound plastic absorbed vitronectin, but neither PCI alone nor PCI-APC bound. Vitronectin also decreased the inhibition rate of PCI-thrombin and PCI-APC in the presence of low concentrations of heparin. Leukocyte elastase proteolytically inactivated PCI in a reaction that was accelerated by heparin. Overall, these results indicate that PCI activity is modulated by these endothelial cell/basement membrane-based substances in similar ways as other heparin-binding serpins, especially antithrombin.
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PMID:Modulation of protein C inhibitor activity. 753 47

Protein C inhibitor (PCI) inhibits multiple plasma serine proteases. To determine which residues contribute to its specificity of inhibition, 19 mutations in the reactive site loop of PCI (from Thr352 to Arg357) were generated and assayed with thrombin, activated protein C (APC), and factor Xa. To identify the intermolecular interactions responsible for these kinetics, a molecular model of PCI was generated using alpha 1-protease inhibitor and ovalbumin as templates. This model of PCI was docked with thrombin, followed by extensive energy minimization, to determine a lowest energy complex. The resulting docked complex was used as a template to form molecular models of PCI-APC and PCI-factor Xa complexes. The best inhibitors of thrombin contained Pro or Gly at the P2 position in place of Phe353, with 2- and 7-fold increases in activity, respectively. These substitutions reduced steric interactions with the 60-insertion loop unique to thrombin. The best inhibitors of APC and factor Xa contained Arg at the P3 position in place of Thr352, with 2- and 5-fold increases in inhibition rates, respectively. The molecular model predicts that Arg in this position could form a salt bridge with Glu217 of each protease. Changing Arg357 at the P3' position had little effect on protease inhibition, consistent with the observation in the model that this residue points toward the body of PCI, forming a salt bridge with Glu220. Given its broad specificity of inhibition, PCI has proven very useful in understanding the nature of serpin-protease interactions using multiple mutations in a serpin assayed with multiple proteases.
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PMID:Intermolecular interactions between protein C inhibitor and coagulation proteases. 754 57

Protein C inhibitor (PCI), a plasma serine protease inhibitor, inhibits several proteases including the anticoagulant enzyme, activated protein C (APC), and the coagulation enzymes, thrombin and factor Xa. Previous studies have shown that thrombin and APC are inhibited at similar rates by PCI and that heparin accelerates PCI inhibition of both enzymes more than 20-fold. We now demonstrate that the thrombin-binding proteoglycan, rabbit thrombomodulin, accelerates inhibition of thrombin by PCI approximately equal to 140-fold (k2 = 2.4 x 10(6) in the presence of TM compared to 1.7 x 10(4) M-1 S-1 in the absence of TM). Most of this effect is mediated by protein-protein interactions since the active fragment of TM composed of epidermal growth factor-like domains 4-6 (TM 4-6) accelerates inhibition by PCI approximately equal to 59-fold (k2 = 1.0 x 10(6) M-1 S-1). The mechanism by which TM alters reactivity with PCI appears to reside in part in an alteration of the S2 specificity pocket. Replacing Phe353 with Pro at the P2 position in the reactive loop of PCI yields a mutant that inhibits thrombin better in the absence of TM (k2 = 6.3 x 10(5) M-1 S-1), but TM 4-6 enhances inhibition by this mutant approximately equal to 9-fold (k2 = 5.8 x 10(6) M-1 S-1) indicating that TM alleviates the inhibitory effect of the less favored Phe residue. These results indicate that PCI is a potent inhibitor of the protein C anticoagulant pathway at the levels of both zymogen activation and enzyme inhibition.
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PMID:Protein C inhibitor is a potent inhibitor of the thrombin-thrombomodulin complex. 759 94

Activation and inactivation of protein C during the clinical course of disseminated intravascular coagulation (DIC) was studied in three patients by qualitative (Western blotting) and quantitative (ELISA) analysis and the intensity of procoagulant activity monitored by the measurement of thrombin and factor Xa antithrombin III complexes. In one patient, inhibitor complexes of APC with protein C inhibitor (PCI) and alpha 1-antitrypsin (alpha 1-AT) were observed and the latter predominated at presentation. Both disappeared during the development of remission but the loss of alpha 1-AT complexes preceded PCI complexes which on Western blotting appeared to increase in intensity prior to disappearance. The two other patients bled to death from uncontrollable haemorrhage. In both cases, APC/inhibitor complexes with alpha 2-macroglobulin (alpha 2-M) in addition to PCI and alpha 1-AT were detected and persisted until death. Although PCI appeared to be the primary inhibitor in all three cases, alpha 1-antitrypsin and particularly alpha 2-macroglobulin appeared to assume greater roles in the two fatal cases. These data are similar to previous findings in an experimental animal model of DIC that suggested that alpha 2-macroglobulin and alpha 1-antitrypsin become more important inhibitors of APC as the primary inhibitor PCI is consumed in the face of a sustained procoagulant challenge.
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PMID:Activation of protein C and its distribution between its inhibitors, protein C inhibitor, alpha 1-antitrypsin and alpha 2-macroglobulin, in patients with disseminated intravascular coagulation. 768 92


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