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)

Human protein C is a vitamin K-dependent plasma glycoprotein that circulates as an inactive zymogen. At the endothelial cell surface, thrombin in complex with the integral membrane protein thrombomodulin converts protein C to its active form by specific cleavage of an activation peptide. The activated form of protein C has potent anticoagulant activity as a feedback regulator of thrombin generation (reviewed in refs 4-6), and also has profibrinolytic, anti-ischaemic and anti-inflammatory properties. Protein C is effective in the treatment of model and human thrombotic diseases but, except when it has been used to treat genetic or acquired deficiencies and microvascular thrombosis, it is administered as the activated enzyme, which has a short biological half-life. We have altered two putative inhibitory acidic residues near the thrombin cleavage site, which results in a 30-fold increase in substrate utilization by alpha-thrombin. We combined these changes with a genetically altered glycoform to generate a zymogen protein C with a 60-fold increased cleavage rate by free alpha-thrombin, independent of its cofactor thrombomodulin. We show that this 'proform' of protein C, unlike the natural circulating zymogen, can be activated by thrombin generated in clotting human plasma, resulting in an inhibition of further clot formation. Our data therefore show that we have engineered a site-activated agent, which only has anticoagulant activity when significant amounts of thrombin are being generated.
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PMID:Enhancing protein C interaction with thrombin results in a clot-activated anticoagulant. 143 7

Protein C is a vitamin-K-dependent plasma glycoprotein that when activated inhibits coagulation by selectively inactivating the active forms of factor V and factor VIII. A specific antiserum to protein C has been raised, and plasma protein C levels have been measured by means of an electroimmunoassay in several physiological and pathological conditions. In 60 healthy adults there were no differences in protein C related to age or sex; protein C levels ranged from 72 to 139% of values in a normal plasma pool. Low levels were found in 12 healthy full-term newborn infants; the levels in 20 women in the last trimester of normal pregnancy were no different from those in healthy non-pregnant women. In 58 patients with chronic liver diseases protein C levels were lower than those in healthy subjects, in degrees roughly proportional to the severity of the disease. Protein C levels were very low in 21 patients with the disseminated intravascular coagulation syndrome, particularly in those who had evidence of consumption coagulopathy. Very low levels were also found, however, in 20 patients with adult respiratory distress syndrome without consumption coagulopathy. Acquired defects of protein C developed after surgery in the patients operated on for malignancies, after major abdominal operations for benign conditions, and also after relatively minor procedures such as appendicectomy and hernia repair. These findings indicate that protein C deficiencies occur in several conditions associated with increased tendency to thrombosis.
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PMID:Deficiencies of protein C, an inhibitor of blood coagulation. 612 39

The human anticoagulant factor, Protein C, is a plasma glycoprotein that has reported anti-ischaemic and anti-inflammatory properties. To explore potential mechanisms for these reported activities, we examined the effect of Protein C on the process of cell adhesion to vascular endothelial cells, which plays a critical role during inflammatory responses. We show that both human plasma-derived and human cell-produced recombinant Protein C inhibit E-selectin-mediated cell adhesion. This effect was not mediated through the serine protease activity of Protein C, but through its carbohydrates. Using oligosaccharides isolated from human cell-produced Protein C, we have defined a polylactosamine structural determinant that inhibits adhesion. This uncharged determinant appears to be a more potent ligand for E-selectin than the sialylated Lewis X antigen. Our data suggest a potential mechanism for the reported anti-inflammatory effects of Protein C and describe a new ligand for selectin-mediated adhesion.
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PMID:Human protein C inhibits selectin-mediated cell adhesion: role of unique fucosylated oligosaccharide. 751 10

Protein S is a plasma glycoprotein, which functions as a cofactor for activated protein C in the protein C pathway and also directly inhibits factors Va and Xa, independently of protein C. In plasma, protein S circulates as a free molecule (40%) or in a complex with C4b-binding protein (60%). Only a free protein S acts as an anticoagulant and its activity is lost by binding to C4b-binding protein. The physiological importance of protein S has been established by observations in patients with hereditary protein S deficiency who have an increased risk of developing thrombosis. Several previous studies reported that hereditary protein S deficiency was as common as protein C deficiency and that approximately 5% of hereditary thrombophilia was caused by protein S deficiency. But molecular biological analysis of protein S deficiency is not as advanced as protein C deficiency because the genetic characterization of protein S deficiency is limited by the presence of the inactive pseudogene that is highly homologous to the active true gene. Only a few previous studies have examined the genetic features of hereditary protein S deficiency. Further investigation is needed to characterize the pathophysiology and molecular basis of hereditary protein S deficiency.
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PMID:[Molecular biological analysis of hereditary thrombophilia--genetic characterization of protein S deficiency]. 778 33

C4BP beta is one of the two polypeptides that in humans compose the plasma glycoprotein C4b-binding protein (C4BP). C4BP beta binds the anticoagulant vitamin K-dependent protein S. Two, nonmutually exclusive, roles have been proposed for the C4BP-protein S interaction. It has been suggested to play a role in the control of the protein C anticoagulatory pathway. In addition, it may serve an important role in localizing C4BP to the surface of injured or activated cells. While the physiological significance of C4BP-protein S interaction is unclear, it has clinical relevance because elevated plasma levels of C4BP are associated with increased risk for thromboembolic disorders in humans, due to an inactivation of the protein C anticoagulatory pathway. Using a human C4BP beta cDNA probe, we have isolated and characterized a genomic DNA fragment that includes the murine C4BPB gene. Murine C4BPB is a single-copy gene that maps close to the C4BPA gene in chromosome 1. It contains two exons homologous to the exons coding for the SCR-1 and SCR-2 repeats of the human C4BP beta polypeptide chain. Sequence analysis of the C4BPB exons in the Mus musculus inbred strains CBA, Balb/c, and C57BL/6, in pen-bred Swiss mice, and in Mus spretus demonstrated the presence of two in-phase stop codons that are incompatible with the expression of a functional C4BP beta polypeptide. Thus, the characterization of the murine C4BPB gene documents the peculiar situation of a single-copy gene that is functional in humans but has become a pseudogene in the mouse.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The gene coding for the beta-chain of C4b-binding protein (C4BPB) has become a pseudogene in the mouse. 795 26

Human protein S (HPS) is a vitamin K dependent plasma glycoprotein involved in the regulation of activated protein C and possibly fibrinolysis. Its c-DNA sequence shows three N-glycosylation consensus sequences (Asn-X-Ser/Thr). In order to study influence of N-linked glycosylation on HPS function, set of mutants of HPS was constructed. Mutants were generated, starting from an SV40/Adeno derived pD5HPS2 expression vector, using PCR enabled, site specific methodology. They included single amino acid substitutions at each of three N-glycosylation consensus sequences: Asn458-->Gln, Ser460-->Gly, Asn468-->Gln, Thr470-->Gly, Asn489-->Gln, Thr491-->Gly. Variant HPS were expressed in stable 293 human kidney cell lines in the presence of vitamin K1 (we did not succeed in expressing variant Asn489-->Gln) and purified from conditioned media using pseudoaffinity chromatography on QAE-Sepharose. Variant Asn468-->Gln showed decreased gamma-carboxyglutamate content. All of the mutants were active in a clotting type assay based on factor Va inactivation, and they were compared to wt-HPS and plasma HPS. In conclusion, we have constructed, expressed and purified set of HPS mutants useful in studying the role of N-glycosylation in HPS function.
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PMID:Construction, expression and preliminary characterization of glycosylation mutants of human protein S. 911 51

Protein S is an anticoagulant vitamin-K-dependent plasma glycoprotein, which acts as a cofactor to activated protein C in the degradation of coagulation factors Va and VIIIa. It has been proposed that protein S has an additional function as a growth factor. Protein S and a structurally similar protein, Gas6, have been found to stimulate members of the Axl/Sky family of receptor tyrosine kinases. Human Gas6 is able to activate Axl and Sky. In contrast, while bovine protein S activates human Sky and its murine homologue, human protein S activates murine Sky but not the human receptor. In the present investigation, we studied the structural background of this species difference. Using protein S chimeras with domains from human and bovine origin, we found that only those chimeras with the steroid-hormone-binding globulin-like (SHBG) region from bovine protein S activate human Sky, indicating that the SHBG region is essential for the interaction. This observation was confirmed by inhibition of Sky phosphorylation by C4b-binding protein, a plasma protein that interacts tightly with the SHBG region of protein S. Another chimeric molecule, composed of the N-terminal 4-carboxyglutamic-acid-containing domain (Gla domain) and the two epidermal-growth-factor-like domains of human factor IX, and the SHBG region of bovine protein S, stimulated the receptor less efficiently. Antibodies directed against the Gla domain of protein S, inhibited the activation of human Sky by bovine protein S. These results indicate that the N-terminal domains of protein S are not essential for activation of the receptor, but contribute to the affinity of the interaction. Our data suggest that protein S might be a ligand of Sky in some species despite the lack of activity of human protein S on human Sky. The bovine/human protein S species difference will be a useful model to establish the structural requirements for the interaction between Sky and its ligands.
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PMID:Stimulation of Sky tyrosine phosphorylation by bovine protein S--domains involved in the receptor-ligand interaction. 921 Apr 77

Protein S is a plasma glycoprotein requiring vitamin K for normal biosynthesis and functioning as a cofactor of activated protein C, a regulator of blood coagulation. Protein S contains four modules that are similar to the epidermal growth factor (EGF) precursor. Qualitative Ca2+-binding experiments have indicated that the EGF-module region of bovine protein S harbors high-affinity Ca2+-binding sites. We have chemically synthesized the third and fourth EGF modules from human protein S, which both have the sequence motif associated with Ca2+-binding and Asp/Asn beta-hydroxylation. Both modules were folded to a native conformation, as judged by immunochemical experiments and NMR spectroscopy. Ca2+ binding to the modules was monitored with 1H-NMR spectroscopy. At physiological pH and 0.15 M NaCl, each module was found to have a single Ca2+-binding site with low affinity, i.e. Kd values of 6.1 mM for the third and 8.6 mM for the fourth EGF module. At low salt conditions the Ca2+ affinities are 5.2 mM and 0.6 mM, respectively. This Ca2+ affinity is similar to that of the isolated N-terminal EGF module from coagulation factors IX and X. The very high affinity Ca2+ binding to the EGF-module region of protein S thus appears to be due to the influence of neighboring modules.
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PMID:Calcium-binding properties of the third and fourth epidermal-growth-factor-like modules in vitamin-K-dependent protein S. 931 Mar 74

Factor VIII is a trace plasma glycoprotein involved as a cofactor in the activation of factor X by factor IXa. Inherited deficiency of factor VIII results in the X-linked bleeding disorder hemophilia A which has been documented in humans, horses, sheep and dogs. In this report, the putative proximal promoter, 5' untranslated region, complete coding sequence and 3' untranslated region of the canine factor VIII gene have been characterized. When compared to the human gene, the 5' flanking region shows conservation of transcription factor binding sites in the 5' untranslated region. Alignment of the amino acid sequence with that of the previously reported human, mouse and pig proteins demonstrates sequence identity of between 77 and 92% for the A1, A2, A3, C1 and C2 domains but an identity of only between 44 and 62% for the central B domain. The three thrombin cleavage sites are conserved in the canine sequence as are the protein C cleavage sites and the von Willebrand factor binding region. In addition, all six tyrosine residues that are known to undergo sulfation in the human protein are conserved in the dog. The 3' untranslated region of the canine gene extends 1.5 kilobases. The initial 700 basepairs of this sequence are highly GC rich and the sequence terminates with 2 alternative potential polyadenylation sites. The knowledge of this sequence, in combination with a well described canine model of hemophilia A, provides the necessary starting point for studies addressing the long-term evaluation of factor VIII gene therapy using a homologous transgene.
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PMID:The canine factor VIII cDNA and 5' flanking sequence. 949 83

Human protein Z is a vitamin K-dependent plasma glycoprotein, deficiency of which leads to a mild bleeding tendency. Protein Z appears to assist hemostasis by binding thrombin and promoting its association with phospholipid vesicles. In this study, to characterize the gene for protein Z, its organization and structure were determined by a combination of PCR amplification of leukocyte DNA and isolation of phage clones from a human genomic library. The gene spanned about 14 kb and consisted of 9 exons including one alternative exon. It was of note that the gene organization was essentially identical to that of other vitamin K-dependent proteins, such as factors VII, IX, and X and protein C. The nucleotides in introns at exon/intron boundaries for eight regular exons were the consensus GT-AG sequences. In contrast, the sequence at an optional exon/intron junction was found to be GC rather than GT. The extra exon inserts a unique peptide consisting of 22 amino acids in the prepro-leader sequence. A similar situation was previously observed in factor VII, but not in other vitamin K-dependent plasma proteins. We also assigned the gene for protein Z to chromosome 13 by PCR amplification of genomic DNAs from human/hamster cell hybrids. Fluorescence in situ hybridization, employing a genomic clone coding for human protein Z, further localized the gene to band q34, where the genes of three other vitamin K-dependent proteins are clustered. These genes may have evolved via duplication of an ancestral gene at this locus.
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PMID:The gene for human protein Z is localized to chromosome 13 at band q34 and is coded by eight regular exons and one alternative exon. 957 70


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