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)

Protein C is a vitamin K-dependent protein, which exists in bovine plasma as a precursor of a serine protease. In this study, protein C was isolated to homogeneity from human plasma by barium citrate adsorption and elution, ammonium sulfate fractionation, DEAE-Sephadex chromatography, dextran sulfate agarose chromatography, and preparative polyacrylamide gel electrophoresis. Human protein C (M(r) = 62,000) contains 23% carbohydrate and is composed of a light chain (M(r) = 21,000) and a heavy chain (M(r) = 41,000) held together by a disulfide bond(s). The light chain has an amino-terminal sequence of Ala-Asn-Ser-Phe-Leu- and the heavy chain has an aminoterminal sequence of Asp-Pro-Glu-Asp-Gln. The residues that are identical to bovine protein C are underlined. Incubation of human protein C with human alpha-thrombin at an enzyme to substrate weight ratio of 1:50 resulted in the formation of activated protein C, an enzyme with serine amidase activity. In the activation reaction, the apparent molecular weight of the heavy chain decreased from 41,000 to 40,000 as determined by gel electrophoresis in the presence of sodium dodecyl sulfate. No apparent change in the molecular weight of the light chain was observed in the activation process. The heavy chain of human activated protein C also contains the active-site serine residue as evidenced by its ability to react with radiolabeled diisopropyl fluorophosphate. Human activated protein C markedly prolongs the kaolin-cephalin clotting time of human plasma, but not that of bovine plasma. The amidolytic and anticoagulant activities of human activated protein C were completely obviated by prior incubation of the enzyme with diisopropyl fluorophosphate. These results indicate that human protein C, like its bovine counterpart, exists in plasma as a zymogen and is converted to a serine protease by limited proteolysis with attendant anticoagulant activity.
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PMID:Human plasma protein C: isolation, characterization, and mechanism of activation by alpha-thrombin. 46 91

Protein C is a vitamin K dependent protein present in bovine plasma (Stenflo, J. (1976), J. Biol. Chem. 251, 355). It is a glycoprotein (mol wt approximately 62 000) composed of a heavy chain (mol wt 41 000) and a light chain (mol wt 21 000). The heavy chain has an amino-terminal sequence of Asp-Thr-Asn-Gln and contains nearly three-fourths of the carbohydrate. The light chain has an amino-terminal sequence of Ala-Asn-Ser-Phe. Incubation of protein C with either factor X activator from Russell's viper venom or trypsin resulted in the cleavage of an Arg-Ile bond between residues 14 and 15 of the heavy chain. Concomitant with this cleavage was the formation of a serine enzyme which was inhibited by diisopropyl phosphorofluoridate. Liberation of the tetradecapeptide decreased the molecular weight of the heavy chain from about 41 000 to 39 000 and resulted in the formation of a new amino-terminal sequence of Ile-Val-Asp-Gly in the heavy chain. No change in the molecular weight of the light chain was observed during the activation reaction. These results indicate that protein C, like the four vitamin K dependent coagulation proteins, exists in plasma in a precursor form and is converted to a serine protease by hydrolysis of a specific Arg-Ile peptide bond. The biological substrate for the enzymatic form of protein C and the physiological mechanism whereby protein C is converted to a serine enzyme are not known.
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PMID:Proteolytic activation of protein C from bovine plasma. 99 Feb 50

Protein C is a plasma, vitamin K-dependent zymogen of a serine protease that can inhibit blood coagulation. Protein C is regulated by a series of reactions known as the protein C pathway. The importance of this pathway is seen in the occurrence of thrombosis in individuals with deficiencies in elements of the pathway like protein C and protein S. Work on several steps in this pathway has revealed that mechanisms involved in activation of protein C and the expression of its anticoagulant activity have features that allow for the expression of the anticoagulant activity away from sites in which procoagulant reactions occur, but not systemically. Thrombin, the principal procoagulant enzyme at the site of an injury, is converted to an anticoagulant enzyme at distant sites through its interaction with the endothelial cell protein thrombomodulin. Structural and functional studies have revealed the importance of several domain structures in the modulation of thrombin activity. Structural features of both activated protein C and its substrates (coagulation factors V and VIII) are such that they require the localization of enzyme and substrate on the surface of phosphatidyl serine containing membranes for optimum activity.
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PMID:Regulation of blood coagulation by the protein C system. 131 8

X-ray diffraction studies of human thrombin revealed that compared with trypsin, two insertions (B and C) potentially limit access to the active site groove. When amino acids Glu146, Thr147, and Trp148, adjacent to the C-insertion (autolysis loop), are deleted the resulting thrombin (des-ETW) has dramatically altered interaction with serine protease inhibitors. Whereas des-ETW resists antithrombin III inactivation with a rate constant (Kon) approximately 350-fold slower than for thrombin, des-ETW is remarkably sensitive to the Kunitz inhibitors, with inhibition constants (Ki) decreased from 2.6 microM to 34 nM for the soybean trypsin inhibitor and from 52 microM to 1.8 microM for the bovine pancreatic trypsin inhibitor. The affinity for hirudin (Ki = 5.6 pM) is weakened at least 30-fold compared with recombinant thrombin. The mutation affects the charge stabilizing system and the primary binding pocket of thrombin as depicted by a decrease in Kon for diisopropylfluorophosphate (9.5-fold) and for N alpha-p-tosyl-L-lysine-chloromethyl ketone (51-fold) and a 39-fold increase in the Ki for benzamidine. With peptidyl p-nitroanilide substrates, the des-ETW deletion results in changes in the Michaelis (Km) and/or catalytic (kcat) constants, worsened as much as 85-fold (Km) or 100-fold (kcat). The specific clotting activity of des-ETW is less than 5% that of thrombin and the kcat/Km for protein C activation in the absence of cofactor less than 2%. Thrombomodulin binds to des-ETW with a dissociation constant of approximately 2.5 nM and partially restores its ability to activate protein C since, in the presence of the cofactor, kcat/Km rises to 6.5% that of thrombin. This study suggests that the ETW motif of thrombin prevents (directly or indirectly) its interaction with the two Kunitz inhibitors and is not essential for the thrombomodulin-mediated enhancement of protein C activation.
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PMID:Interaction of thrombin des-ETW with antithrombin III, the Kunitz inhibitors, thrombomodulin and protein C. Structural link between the autolysis loop and the Tyr-Pro-Pro-Trp insertion of thrombin. 132 50

Protein C is a natural anticoagulant glycoprotein which prevents intravascular clot formation. Protein C functions as an anticoagulant when converted to an active serine protease (activated protein C). Activated protein C is formed at the site of the endothelial injury in response to blood clotting and helps limit the size of blood clots. We tested the hypothesis that by temporarily blocking the activation of intrinsic protein C, we could reduce subsequent surgical blood loss from a microvascular surgical wound. The formation of activated protein C was blocked systemically by intravenous administration of a monoclonal antibody (HPC4) which binds to circulating protein C and prevents its conversion to activated protein C. Domestic pigs were blindly pretreated with intravenous HPC4 or saline then underwent partial-thickness skin graft harvesting to create a reproducible microvascular wound. Blood loss was measured from each wound and the hemostatic effect of protein C blockade was compared to intravenous saline alone as well as to topical thrombin or thromboplastin. We found that blocking the activation of protein C significantly (P = 0.005) reduces surgical blood loss in this model by 27% compared to saline control animals. Intravenous HPC4 performed equally as well as topical thrombin or tissue thromboplastin. In addition, topical thrombin acted synergistically with HPC4 to reduce blood loss an additional 44% (P = 0.01) as compared to intravenous HPC4 or topical thromboplastin alone. Autopsies performed 1 week after HPC4 treatment showed no evidence of systemic thrombosis resulting from the protein C blockade.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Blockade of protein C activation reduces microvascular surgical blood loss. 152 31

We analyzed the promoter region and all the coding exons and exon-intron boundaries of the protein C gene in a Japanese patient with recurrent thromboembolism and complete protein C deficiency. By sequencing these fragments we identified a previously undescribed mutation. A guanine residue was replaced by an adenine residue converting Gly-292 (GGC) to Ser (AGC) in the last exon coding for the catalytic domain. Substitution of this key amino acid, invariably conserved in the serine protease superfamily to which protein C belongs, probably leads to destabilization of the tertiary structure. In a transient expression assay with COS 7 cells, the protein C level was extremely low in the culture medium of the cells transfected with the mutated protein C expression vector, as compared with the normal vector. In contrast, the cell extracts contained similar amounts of mutant and normal protein C, suggesting impaired secretion of the mutant protein C. Using mutagenic primers to introduce a new PvuII site into the mutant allele, we made a study of the family members in this patient's pedigree, revealing that the mutant allele had been inherited in the affected individuals in this pedigree.
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PMID:Homozygous protein C deficiency: identification of a novel missense mutation that causes impaired secretion of the mutant protein C. 159 7

Protein C (PC) is a vitamin K-dependent serine protease, a deficiency of which results in thrombus. There is no spontaneously occurring mouse model of the disease. Attempts to create such a model in mice by using anti-sense gene technology requires isolation of a normal mouse PC cDNA. When a mouse liver (BALB/c) cDNA library was screened using a human PC cDNA as a probe, nine overlapping cDNA clones were isolated and sequenced. The cloned mouse PC cDNA comprised 1,512 nucleotides and the open reading frame of the cDNA encoded a polypeptide of 461 amino acids residues including a leader peptide composed of 41 amino acids. Mouse PC exhibited high homology to both human and bovine PCs. Mouse PC also had several structural features common in other PCs; locations of 23 Cys residues, location of putative beta-hydroxy Asp71, possible carbohydrate attachment sites involving Asp residues at amino acid positions 249, 314, and 330, and location of active sites such as His212, Asp258, and Ser361. Northern blot hybridization analysis identified a single species of mouse PC mRNA (2.0 kb in length) in mouse liver.
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PMID:Isolation and characterization of a mouse protein C cDNA. 161 39

The presence of mutations in the serine protease domain of protein C was investigated by temperature gradient gel electrophoresis of PCR products in five patients with protein C deficiency and thrombosis. Molecules with an altered melting behaviour were detected in one subject with a history of venous and arterial thrombosis. Direct sequencing showed that a G deletion, present in the heterozygous state, caused a reading frame shift at Trp 300 and subsequently a premature termination at the codon 335. The resulting suppression of the protein C catalytic function explains the reduction of protease activity to half. In addition the mutation caused a reduction of the antigen level in plasma. Temperature gradient gel electrophoresis enabled the rapid detection of the gene alteration in the family of the propositus. Several members of the paternal lineage had had severe thrombotic episodes. Unexpectedly the mutation was found to be inherited from the clinically asymptomatic maternal lineage, thus suggesting that an additional unknown defect from the paternal lineage is present in the thrombosis-prone propositus.
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PMID:Rapid detection of a protein C gene mutation present in the asymptomatic and not in the thrombosis-prone lineage. 164 25

Thrombin is a serine protease that acts as a procoagulant by clotting fibrinogen and activating platelets and as an anticoagulant by activating protein C in a thrombomodulin-dependent reaction. Fibrinogen and thrombomodulin bind competitively to an anion-binding exosite on thrombin. We prepared recombinant normal human thrombin and mutant thrombins with single amino acid substitutions in order to localize and distinguish the fibrinogen- and thrombomodulin-binding sites. Normal and mutant thrombins had similar amidolytic activity. Thrombin K52E had approximately 2.5-fold increased protein C-activating activity but only approximately 17% of normal fibrinogen-clotting activity. Thrombin R70E had normal fibrinogen-clotting activity but only approximately 7% of normal protein C-activating activity. Thrombin R68E had markedly reduced activity in both assays. Decreased activation of protein C correlated with decreased binding affinity for thrombomodulin, and ability to activate platelets correlated directly with fibrinogen-clotting activity. These results demonstrate that thrombins with predominantly anticoagulant or procoagulant activity can be created by mutagenesis and that thrombomodulin- and fibrinogen-binding sites on thrombin may overlap but are not identical.
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PMID:Single amino acid substitutions dissociate fibrinogen-clotting and thrombomodulin-binding activities of human thrombin. 165 Apr 82

Plasma protein C and serine protease inhibitors together with some other hemostasis parameters have been determined in 60 patients with essential hypertension. Significant decrease in protein C and alpha 2-antiplasmin levels, increased fibrinogen, fibrinopeptide A, WF: Ag, plasminogen, and prolongation of euglobulin fibrinolysis time have been observed. Results indicate hypercoagulability and fibrinolysis defect in hypertensive patients.
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PMID:[Protein C and plasma serine protease inhibitors in patients with essential hypertension]. 166 85


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