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)

Thrombosis is a serious problem in the United States. Activated protein C is a vitamin K-dependent serine protease that seems to be an important regulator of the hemostatic process. Protein S is another vitamin K-dependent protein that is essential for the expression of the anticoagulant activity of activated protein C. Evidence suggests that defects in either of these proteins may be related to the development of thrombosis. Therefore, the accurate measurement of these proteins is important in the study and in the treatment of thrombosis. Sixty percent of the protein S found in human plasma is bound to the complement component C4b-binding protein, and when in this complex, protein S is inactive. The remaining 40 percent is the free, functional form of protein S. This paper describes the measurement of both free and total protein S by two types of assays. The first assay involves immunoelectrophoresis, also known as the Laurell Rocket method. The second assay is a capture enzyme linked immunosorbent assay (ELISA). The two assays are compared as to relative ease and cost.
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PMID:Protein S and thrombosis. 252 87

Protein S is unique among the vitamin K-dependent proteins found in blood plasma because it is a cofactor rather than a zymogen of a serine protease. Instead of a trypsin-like domain, protein S contains a domain that has sequence homology with steroid binding proteins. In order to understand the function of this structural domain, peptides have been synthesized with amino acid sequences that are homologous between human protein S and rat androgen binding protein. Two peptides, corresponding to amino acids 400-407 (PINPRLDG) and 605-614 (GVQLDLDEAI) of the protein S sequence have been tested for their effects on protein S function. Neither peptide altered the clotting of bovine or human plasma. The peptide GVQLDLDEAI enhanced the anticoagulant activity of human-activated protein C in human plasma while the peptide PINPRLDG had no effect. The peptide GVQLDLDEAI was observed to inhibit the binding of protein S to C4b-binding protein in plasma, resulting in increased concentrations of free protein S. GVQLDLDEAI was also observed to enhance the disassociation of the protein S.C4b-binding protein complex when purified complex was used. Finally, C4b-binding protein was observed to bind to GVQLDLDEAI. These results suggest that the carboxyl-terminal region of protein S, which contains the sequence GVQLDLDEAI, is involved in the interaction between protein S and C4b-binding protein.
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PMID:Characterization of a synthetic peptide that inhibits the interaction between protein S and C4b-binding protein. 253 Feb 13

Protein C (PC) is a vitamin K-dependent serine protease which functions as the central regulatory protein with both anticoagulant and profibrinolytic properties. The PC levels in healthy term newborns are approximately one third of adult levels. Severely decreased levels of PC are seen in sick term and preterm infants. These neonates appear to have an increased incidence of thrombosis. Undetectable levels of PC are found in homozygous PC deficient infants with DIC and purpura fulminans symptoms. In this present study we report the composition and distribution of PC in term newborn and compare the results with adult values. Plasma was obtained from placental cord blood of 20 healthy term (38-42 weeks gestation) infants. PC was immunopurified, run on SDS-PAGE, and immuno-blotted. The composition of the PC molecule in neonatal plasma is identical to that seen in adults. Using densitometry to determine the distribution of the PC components, we observed a 2-fold increase in single chain PC in the neonate as compared to the adult. In the neonate, there was an inverse correlation between the level of total PC antigen and the amount of single chain. These findings suggest the possibility that the processing of PC may be developmentally influenced.
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PMID:Neonatal protein C: molecular composition and distribution in normal term infants. 259 75

The amino acid sequence of a protease, protein C activator, from Agkistrodon contortrix contortrix venom was determined. Peptide fragments obtained by chemical or enzymatic cleavage of the S-carboxymethylated protein were purified by gel filtration and reverse-phase high-performance liquid chromatography. The present study demonstrates that protein C activator from A. contortrix contortrix venom is a trypsin-type serine protease that is composed of 231 residues with a molecular weight of 25,095 for the polypeptide portion of the molecule. By analogy to the mammalian serine proteases, the catalytic triad in venom protein C activator consists of His-40, Asp-85, and Ser-177. The protein also contains three N-linked glycosylation sites at Asn-21, Asn-78, and Asn-129. The amino acid sequence of protein C activator exhibits a high degree of sequence identity with other snake venom proteases: 73% with batroxobin, 68% with flavoxobin, and 55% with Russell's viper venom factor V activator.
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PMID:Primary structure of a protein C activator from Agkistrodon contortrix contortrix venom. 265 26

Protein S is a vitamin K-dependent glycoprotein cofactor to the serine protease, activated protein C. In this study we demonstrate that 125I-protein S bound to unstimulated platelets in a time- and calcium-dependent saturable reaction. Half-maximal binding occurred at a protein S concentration of 10 nM, with approximately 1,100 binding sites per platelet. The binding of protein S to platelets was followed by rapid cleavage of the protein mediated by a protease confined to the platelet membrane. The membrane protease was Ca++-dependent, inhibited by high concentrations of diisopropyl fluorophosphate, but was resistant to a variety of other protease inhibitors. Functional studies demonstrated that the cleavage of protein S was associated with complete loss of cofactor anticoagulant activity. We conclude that protein S binds to platelets and is inactivated by a novel Ca++-dependent membrane protease. This may represent a physiological reaction that regulates the activity of protein S.
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PMID:Cleavage of protein S by a platelet membrane protease. 294 68

The coagulation cascade can be pictured as a series of reactions in which a zymogen, a cofactor, and a converting enzyme interact to form a multimolecular complex on a natural surface. In each case, the four reactants must be present if the conversion of a zymogen to the corresponding serine protease is to take place at any significant rate. The principal natural anticoagulant systems that are able to exert damping effects on the various steps of the cascade are the heparin-antithrombin and protein C-thrombomodulin mechanisms that regulate the serine proteases and the cofactors or activated cofactors, respectively. Inherited thrombotic disorders associated with specific deficiencies of antithrombin, protein C, and protein S have been described. This review describes the biochemistry and physiology of these endogenous anticoagulant systems. The development of specific radioimmunoassay techniques for prothrombin activation fragment F1 + 2, fibrinopeptide A, and protein C activation peptide has allowed us to carry out studies of these endogenous regulatory mechanisms involved in thrombin generation in patients with deficiencies of antithrombin or protein C. This information is then used to construct a framework for understanding the pathophysiology of the prethrombotic and actively thrombotic states in humans with these clinical disorders.
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PMID:Thrombosis in inherited deficiencies of antithrombin, protein C, and protein S. 295 42

Protein C (PC), a 62,000-molecular weight vitamin K-dependent serine protease zymogen, is a natural anticoagulant that occurs in plasma at 4 mg/L. Activated PC inactivates clotting factors V and VIII and is also profibrinolytic. Activated PC is enhanced in its anticoagulant activity by protein S (PS), another vitamin K-dependent protein. Protein S is found in platelets and endothelial cells as well as in plasma. Inherited PC deficiency and PS deficiency have been associated with venous thrombosis. Both heterozygous PC and PS deficiency appear to be inherited in an autosomal dominant manner in some families. Homozygous PC deficiency presents as neonatal purpura fulminans and results in massive venous thrombosis of the skin and other organs within the first few days of life. Symptomatic heterozygous PC deficiency and PS deficiency have been treated with oral anticoagulants, successfully minimizing recurrence of thrombosis. Coumarin-induced skin necrosis, a rare complication of oral anticoagulant therapy usually seen within three to five days of initiation of therapy, has also been associated with heterozygous PC deficiency. The short half-life of PC (six to eight hours) compared with most of the vitamin K-dependent clotting factors (greater than 30 hours) is the probable reason for this paradoxical response to oral anticoagulants in some PC-deficient patients, since a transient imbalance of procoagulant and anticoagulant factors may exist during initiation of oral anticoagulant therapy. Acquired deficiency of the PC pathway occurs in disseminated intravascular coagulation and possibly other diseases such as those associated with a lupus anticoagulant.
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PMID:Coumarin necrosis, neonatal purpura fulminans, and protein C deficiency. 296 8

Human liver cDNA coding for protein C has been synthesized, cloned and sequenced. The abundance of protein C message is approximately 0.02% of total mRNA. Three overlapping clones contain 1,798 nucleotides of contiguous sequence, which approximates the size of the protein's mRNA, based upon Northern hybridization. The cDNA sequence consists of 73 5'-noncoding bases, coding sequence for a 461 amino acid nascent polypeptide precursor, a TAA termination codon, 296 3'-noncoding bases, and a 38 base polyadenylation segment. The nascent protein consists of a 33 amino acid "signal", a 9 amino acid propeptide, a 155 amino acid "light" chain, a Lys-Arg connecting dipeptide, and a 262 amino acid "heavy" chain. Human protein C and Factor IX and X precursors possess about one third identical amino acids (59% in the gamma-carboxyglutamate domain), including two forty-six amino acid segments homologous to epidermal growth factor. Human protein C also has similar homology with prothrombin in the "leader", gamma-carboxyglutamate and serine protease domains, but lacks the two "kringle" domains found in prothrombin.
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PMID:The structure and evolution of a 461 amino acid human protein C precursor and its messenger RNA, based upon the DNA sequence of cloned human liver cDNAs. 299 59

A human genomic DNA library was screened for the gene for protein C by using a cDNA probe coding for the human protein. Three different overlapping lambda Charon 4A phage were isolated that contain inserts for the gene for protein C. The complete sequence of the gene was determined by the dideoxy method and shown to span about 11 kilobases of DNA. The coding and 3' noncoding portion of the gene consists of eight exons and seven introns. The eight exons code for a preproleader sequence of 42 amino acids, a light chain of 155 amino acids, a connecting dipeptide of Lys-Arg, and a heavy chain of 262 amino acids. The preproleader sequence and the connecting dipeptide are removed during processing, resulting in the mature protein composed of a heavy and a light chain held together by a disulfide bond. The heavy chain also contains the catalytic region for the serine protease. Two Alu sequences and two homologous repeats of about 160 nucleotides were found in intron E. The seven introns in the gene for protein C are located in essentially the same positions in the amino acid sequence as the seven introns in the gene for human factor IX, while the first three introns in protein C are located in the same positions as the first three in the gene for human prothrombin.
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PMID:The nucleotide sequence of the gene for human protein C. 299 87

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


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