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)

Activated protein C (aPC) is an important feedback regulator of the clotting cascade. In vivo, the conversion of protein C (PC) from its zymogen to activated form is mediated primarily by thrombin bound to thrombomodulin (TM), an endothelial cell surface protein. Molecular modeling suggests residues Lys37-Lys38-Lys39 of protein C's serine protease domain reside in a surface-exposed loop (variable region 1) whose high concentration of positive charge might be involved in protein-protein interactions. In this study, we have examined the role of the conserved tribasic Lys37-39 charge center in human protein C activation. This sequence was changed to acidic by substitution with Asp37-Glu38-Asp39 (DED) and Glu37-Glu38-Glu39 (EEE), or to neutrality by substitution with Gly37-Gly38-Gly39 (GGG). These mutant PCs, expressed and purified from recombinant human 293 cells, appeared normal with regard to intracellular processing, ability to be secreted, and formation of a viable active site for tripeptidyl-p-nitroanilide substrate cleavage. For activation by free thrombin, wild-type (wt) and mutant PCs displayed equivalent activation rates, as well as identical calcium-dependent inhibition of such activation. Activation of wt-PC with a soluble TM-thrombin complex yielded a 2,000-fold faster rate compared with that by free thrombin at the same (physiological) calcium level. In contrast, the acidic mutants DED and EEE exhibited virtually no TM-mediated increase in activation rate, while the neutral mutant GGG was somewhat intermediate with a 30-fold stimulation of activation rate. These reductions in activation rate were independent of the presence of chondroitin sulfate on TM. Our observations represent the first identification of residues whose mutation essentially uncouples activation by the TM-thrombin complex without affecting activation by free thrombin. Further, our results suggest that VR1 residues within the zymogen form of a serine protease can be important for recognition by physiological activators.
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PMID:Mutation of protease domain residues Lys37-39 in human protein C inhibits activation by the thrombomodulin-thrombin complex without affecting activation by free thrombin. 879 83

Allergen-induced bronchoconstriction involves mast cell activation. Tryptase is a mast cell serine protease that is released during this process, but little is known about the action of tryptase in the airway. The purpose of this study was to determine: (1) if aerosolized tryptase causes bronchoconstriction, and (2) the mechanism by which this occurs. We measured mean pulmonary flow resistance (RL) in five allergic sheep before and after consecutive inhalations of 100 and 500 ng tryptase (in 2 ml total volume). Inhaled tryptase at 100 and 500 ng increased RL (mean +/- SE) by 33 +/- 12 and 122 +/- 8% (p < 0.05) over baseline. The response was reproducible upon repeat challenges. These studies were repeated in the same animals after pretreatment with aerosolized APC 366 (9 mg/3 ml), a specific tryptase inhibitor. In APC-366-treated sheep, tryptase increased RL by 10 +/- 3 and 6 +/- 2% (p < 0.05 versus control values) at 100 and 500 ng, respectively. The response to tryptase was also blocked by pretreating the sheep intravenously with the histamine H1-antagonist chlorpheniramine (2 mg/kg), in which RL increased only 5 +/- 4 and 7 +/- 6% after 100 and 500 ng tryptase. APC 366, however, did not block histamine-induced bronchoconstriction. Consistent with these findings was the observation that segmental bronchial challenge with tryptase (1 microgram) resulted in a significant increase in histamine levels in bronchoalveolar lavage. Inhaled tryptase (500 ng) also caused airway hyperresponsiveness to aerosolized carbachol 2 h after tryptase challenge. This tryptase-induced airway hyperresponsiveness could be blocked either by pretreating the sheep with APC 366 (30 min before challenge) or by treating the sheep 30 min after challenge. These results indicate that inhaled tryptase causes bronchoconstriction and airway hyperresponsiveness in allergic sheep by an event that may involve mast cell activation.
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PMID:Inhaled tryptase causes bronchoconstriction in sheep via histamine release. 881 Jun

Protein C is a zymogen of an anticoagulant vitamin K-dependent serine protease. Inherited protein C deficiency is often associated with a high risk for venous thromboembolism. It is characteristic of protein C deficiency that most single amino acid replacements result in type I (secretion defect) deficiency. To determine the molecular and cellular bases of protein C deficiency, we expressed recombinant human protein C mutants in which Arg15 was mutated to either Gly, Trp, Gln, Leu, or Pro by a single base exchange. Arg15 is one of the conservative residues in the gamma-carboxyglutamic acid (Gla) domains of the vitamin K-dependent coagulation factors, and is also one of the high frequency multiple mutation sites in protein C deficiency. In transient expression studies using human kidney 293 cells, the relative amounts of Arg15 mutants secreted into the medium and determined by enzyme-linked immunosorbent assay (ELISA) were as follows: Gly, 42%; Trp, 14%; Gln, 54%; Leu, 22%; and Pro, 13%, the amount of wild-type (Wt) protein C being taken as 100%. Thus, the order of the secreted amounts of the recombinant mutants was determined to be Wt > Gln > Gly > Leu > Trp, Pro. Pulse-chase experiments using both transiently-transfected and a pool of stably-transfected 293 cells, and stably-transfected BHK cells showed the same order of secretion efficiency. Since this order correlated well with that of the hydrophobicity scale of amino acid side chains, a conformational alteration of the Gla domain resulting in impaired secretion may be dependent on the hydrophobicity of the replaced amino acid. In transient cells, the relative radioactivities of pulse-labeled bands of all recombinant protein C were almost equal, suggesting that the same translational efficiency for Wt and all Arg15 mutants. All of the Arg15-mutated protein C precursors were shown to be located in the same organelle as protein disulfide isomerase (PDI), an endoplasmic reticulum-resident protein, and were sensitive to endoglycosidase H digestion. These results suggest that mutations of the highly conserved Arg15 in the Gla domain of protein C caused a secretion defect to variable degrees depending on replaced amino acid residue.
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PMID:Cellular basis for protein C deficiency caused by a single amino acid substitution at Arg15 in the gamma-carboxyglutamic acid domain. 888 22

While plasma fibrinogen level and clotting factor VIII activity obviously increased during the acute inflammatory reaction caused by intramuscular injections of turpentine in 10 rabbits, the activity of plasma protein C, with anticoagulant and antithrombotic effects, was found to display a slight yet significant (p < 0.02) decrease. When compared to protein C activity in humans, this vitamin K-dependent serine protease was found to be lower in rabbits (52, 7% +/- 3,63 of standard human plasma) and this activity decreased to 45,8% +/- 2,80 (mean +/- SEM), 48 hours after the injection of turpentine. This slight decrease should however be interpreted in the context of other disturbances of the hemostatic balance caused by inflammation and may contribute to the intravascular deposition of fibrin.
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PMID:Hemostatic balance during the acute inflammatory reaction. (II). With special reference to plasma protein C. 889 73

Coagulation factors VII, IX, X, and protein C contain an N-terminal module with 9-12 gamma-carboxyglutamic acid (Gla) residues. It is followed by two modules that are homologous to the epidermal growth factor (EGF) and a C-terminal serine protease module. Upon calcium binding to the Gla module the side chains of three hydrophobic residues are exposed in a manner indicating that they interact with biological membranes. The calcium-binding site in the first EGF-like module appears to be required for proper orientation of the Gla and EGF-like modules relative to each other. A single calcium-binding site is also present in the serine protease module. The properties of these calcium-binding sites are briefly reviewed.
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PMID:Effect of Ca2+ on the structure of vitamin K-dependent coagulation factors. 890 73

A number of naturally occurring anticoagulants exist that preserve normal blood fluidity and limit blood clot formation to vascular injury sites, thus acting as regulators of hemostasis. The protein C/protein S pathway is one system that acts to modulate thrombin formation. The activation of protein C by thrombin is accelerated more than 1,000-fold at the endothelial surface by thrombomodulin localized on the endothelial cell. Activated protein C then binds to its co-factor, protein S, and the protein C/protein S complex exerts its antithrombotic function by inactivating the coagulation factors Va and VIIIa. Patients deficient in protein C and protein S may be particularly vulnerable to thrombotic events after cardiac surgery. In addition, several studies suggest that reductions in protein C and protein S concentrations, as well as thrombomodulin, occur during cardiopulmonary bypass (CPB). The possibility of a low anticoagulant potential when heparinization is reversed may be an important factor in the subsequent morbidity associated with thrombotic complications. Aprotinin is a serine protease inhibitor that in vitro binds competitively with the serine protease-activated protein C. However, aprotinin in the clinical setting has not been reported to alter levels of protein C in patients undergoing CPB. Reversal of the heparinization needed for CPB is almost universally performed with protamine. However, protamine has many deleterious effects. Recombinant platelet factor 4 (rPF4) has been proposed as an alternative to protamine. We investigated the effective heparin neutralization dose of rPF4 vs. the standard agent protamine in human blood activated through exposure to the CPB circuit. Activated clotting time (ACT) measurements suggested a 2:1 (w/w) reversal ratio for rPF4 and protamine. The first human open-label phase 1 trial of rPF4 reported no serious side effects and no important hemodynamic effects. Doses of 2.5 and 5.0 mg/kg were uniformly effective in reversing the anticoagulant effect of heparin and reducing the ACT to <200 s by 5 min after administration. Repeated monitoring of the ACT did not detect a rebound effect of heparin.
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PMID:Restoration of the normal coagulation process: advances in therapies to antagonize heparin. 893 85

The clinical presentation of hereditary protein C deficiency is highly variable. Homozygosity and compound heterozygosity have been linked to severe thrombotic complications early in the life. Heterozygous patients have a moderate form of the disease with deep venous thrombosis during adulthood. In the French population, we found 53 different mutations in 90 families. The amount of the protein C produced by the mutant allele as well as the genetic status partly account for the variable clinical expression. Other gene may also be involved: Arg 506 to Gln factor V mutation shows a frequency of 10 to 20% in symptomatic protein C deficient patients. Some protein C gene mutations are associated with a non functional circulating protein; most of them are located in the GLA domain and in the serine protease domain. The biochemical characterization of a few of theses variants has shown the important role of some amino acids on the activation and the mechanism of action of protein C.
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PMID:Molecular basis for protein C hereditary deficiency. 897 7

The protein cofactor, factor (F) VIIIa, is required for the efficient conversion of the substrate FX to FXa by the serine protease FIXa. The interaction between human FVIII (and its constituent subunits) and FX was characterized using a solid phase binding assay performed in the absence of phospholipid and FIXa. Saturable binding of FX to heterodimeric FVIII, the FVIII heavy chain (contiguous A1-A2 domains), the FVIIIa-derived A1/A3-C1-C2 dimer, and the isolated A1 subunit was observed with estimated Kd values ranging from approximately 1 to 3 microM. The interaction of FX with FVIII was inhibited by moderate ionic strength and was Ca2+-dependent, consistent with the salt sensitivity observed in a phospholipid-independent FXa generation assay. Negligible binding to FX was observed for the isolated A2 and A3-C1-C2 subunits of FVIIIa, suggesting that the A1 subunit of FVIII contains a primary binding site for FX. A synthetic peptide to the COOH-terminal acidic region of the A1 subunit, designated FVIII337-372, bound FX and effectively competed with A1 for FX binding (Ki = approximately 16 microM). Cross-linking between the FVIII337-372 peptide and the FX heavy chain was observed following reaction with 1-ethyl-3-[(diethylamino)propyl]carbodiimide. The presence of FX reduced the rate of activated protein C-catalyzed cleavage at Arg336 by approximately 5-fold. These results identify a primary FX interactive site on the cofactor of the intrinsic FXase.
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PMID:Localization of a factor X interactive site in the A1 subunit of factor VIIIa. 899 6

The human plasma serine protease, activated protein C (APC), primarily exerts its anticoagulant function by proteolytic inactivation of the blood coagulation cofactors Va and VIIIa. A recombinant active site Ser 360 to Ala mutation of protein C was prepared, and the mutant protein was expressed in human 293 kidney cells and purified. The activation peptide of the mutant protein C zymogen was cleaved by a snake venom activator, Protac C, but the "activated" S360A APC did not have amidolytic activity. However, it did exhibit significant anticoagulant activity both in clotting assays and in a purified protein assay system that measured prothrombinase activity. The S360A APC was compared to plasma-derived and wild-type recombinant APC. The anticoagulant activity of the mutant, but not native APC, was resistant to diisopropyl fluorophosphate, whereas all APCs were inhibited by monoclonal antibodies against APC. In contrast to native APC, S360A APC was not inactivated by serine protease inhibitors in plasma and did not bind to the highly reactive mutant protease inhibitor M358R alpha 1 antitrypsin. Since plasma serpins provide the major mechanism for inactivating APC in vivo, this suggests that S360A APC would have a long half-life in vivo, with potential therapeutic advantages. S360A APC rapidly inhibited factor Va in a nonenzymatic manner since it apparently did not proteolyze factor Va. These data suggest that native APC may exhibit rapid nonenzymatic anticoagulant activity followed by enzymatic irreversible proteolysis of factor Va. The results of clotting assays and prothrombinase assays showed that S360A APC could not inhibit the variant Gln 506-FVa compared with normal Arg 506-FVa, suggesting that the active site of S360A APC binds to FVa at or near Arg 506.
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PMID:Nonenzymatic anticoagulant activity of the mutant serine protease Ser360Ala-activated protein C mediated by factor Va. 900 85

The discovery of the Na(+)-dependent allosteric regulation in serine proteases makes it possible to control catalytic activity and specificity in this class of enzymes in a way never considered before. We demonstrate that rational site-directed mutagenesis of residues controlling Na+ binding can profoundly after the properties of a serine protease. By suppressing Na+ binding to thrombin, we shift the balance between procoagulant and anticoagulant activities of the enzyme. Those mutants, compared to wild-type, have reduced specificity toward fibrinogen, but enhanced or slightly reduced specificity toward protein C. Because this engineering strategy targets a fundamental regulatory mechanism, it is amenable of extension to other enzymes of biological and pharmacological importance.
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PMID:Rational engineering of activity and specificity in a serine protease. 903 31


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