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)

The isolation of a highly purified phosphoprotein, previously named protein C, from human parotid saliva is described. A chemical and physical characterization of protein C was undertaken and the properties of protein C were compared with those of a related protein A. The content of glycine, proline and dicarboxylicamino acids accounts for 83% of the total resideus of protein C and it contains 2.0 mol of P/mol of protein, most likely as phosphoserine. The protein also contains 1.2% glucose, but no hexosamine. The N-terminus is blocked and the proposed C-terminal sequence is -Ser(Gly, Pro)Gln. The molecular weight determined from ultracentrifugation is 16300. Circular dichroism and nuclear magnetic resonance fail to demonstrate the presence of polyproline structure, and there are no conformational changes under a variety of conditions. With specific antisera to protein C the protein can be detected in submandibular as well as in parotid saliva, but there is only reaction of partial identity of proteins A and C. It is proposed that at least part of the difference between proteins A and C is due to the presence of an additional length of peptide at the C-terminus of protein C.
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PMID:Chemical and physical characterization of a phosphoprotein, Protein C, from human saliva and comparison with a related protein A. 86 25

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

We have applied single-strand conformation polymorphism (SSCP) to the analysis of exon 7 of the anticoagulant protein C (PC) gene, in 13 PC-deficient Spanish families. Abnormal patterns were visualized in three samples from type I or quantitative PC deficient proposita. A previously undescribed mutation due to a TT insertion after nucleotide 6139, between codons Gly-142 and Arg-143 was found in one family. The mutation (6139,ins TT) should result in a frameshift with a stop at codon 156, which agrees with the presence of a type I or quantitative PC deficiency in the affected members of the family. The second mutation identified was a C to T transition at nucleotide 6274, 9 base pairs into intron G. This mutation (6274,C-->T), found for the first time in a Spanish family, is identical to the previously characterized PC Sant Louis. The third mutation was a G to A transition that replaces arginine 178 with glutamine (178,R-->Q). This is the third case of 178,R-->Q mutation in 17 apparently unrelated Spanish families with type I PC deficiency. Furthermore, SSCP analysis allowed the detection of another previously described mutation in a PC-deficient Spanish family (178,R-->W).
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PMID:Protein C deficiency: identification of a novel two-base pair insertion and two point mutations in exon 7 of the protein C gene in Spanish families. 130 54

To elucidate the role of the COOH-terminal region of antithrombin III, we studied the effects of synthetic peptides corresponding to its sequence on the amidolytic and proteolytic activities of thrombin and Factor Xa in the presence or absence of the inhibitor, antithrombin III. The peptides ANRPFLVFI and IIFMGRVANP corresponding to residues Ala404 to Ile412 and Ile420 to Pro429, respectively, blocked the inhibition by antithrombin III. The effect of IIFMGRVANP was reduced in the presence of heparin. Both peptides at a concentration of 1 mM blocked complex formation between antithrombin III and thrombin or Factor Xa. The two peptides, particularly IIFMGRVANP, directly enhanced the amidolytic activity of thrombin and Factor Xa on the synthetic substrate Boc-Ala-Gly-Arg-MCA (where Boc is t-butoxycarbonyl and MCA is 4-methylcoumarin), which corresponds to residues P3-P1 of the reactive site of antithrombin III, and also on other substrates due to increased Vmax. IIFMGRVANP also shortened the thrombin-induced fibrinogen clotting time, whereas ANRPFLVFI inhibited the thrombin-catalyzed activation of protein C both in the presence and absence of thrombomodulin. The direct effect of ANRPFLVFI and IIFMGRVANP on thrombin was confirmed by enhancement of the incorporation of dansylarginine-N-(3-ethyl-1,5-pentanediyl)amide into thrombin. These findings suggest that the COOH-terminal region of antithrombin III interacts with thrombin and Factor Xa to increase the reactivity of the enzyme, which may enhance acyl-bond formation between the inhibitor and the enzyme.
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PMID:The role of the COOH-terminal region of antithrombin III. Evidence that the COOH-terminal region of the inhibitor enhances the reactivity of thrombin and factor Xa with the inhibitor. 133 Oct 47

Protein C activation is catalyzed on endothelium by a complex between thrombin and thrombomodulin. Ca2+ stimulates protein C activation in the presence, and inhibits in the absence, of thrombomodulin. Protein C has Asp residues at the P3 and P3' positions relative to the scissile bond at Arg169-Leu. To determine the contribution of these residues to the Ca2+ effect on activation, we have expressed human 4-carboxyglutamic acid (Gla)-domainless protein C and 3 mutants with Asp-->Gly substitutions at P3, P3', and both positions. Ca2+ interaction with the protein C derivatives was monitored by changes in intrinsic fluorescence, and the Ca2+ dependence of activation by thrombin and a complex of thrombin-thrombomodulin with a soluble thrombomodulin derivative (the fourth through sixth epidermal growth factor domains). The affinity for Ca2+ of the mutants was reduced 3-6-fold, which was reflected by a comparable change in the Ca2+ concentration required for the half-maximal rate of activation by the thrombin-thrombomodulin complex. However, Ca2+ no longer effectively inhibited activation of the mutants by thrombin alone. We conclude that 1) the Asp residues play a specific role in the Ca(2+)-dependent inhibition of protein C activation by thrombin; 2) these mutations alter the affinity of Ca2+ for the high affinity binding site; and 3) the Asp residues in the P3 and P3' sites do not contribute in a positive fashion to rapid activation by the thrombin-thrombomodulin complex.
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PMID:The function of calcium in protein C activation by thrombin and the thrombin-thrombomodulin complex can be distinguished by mutational analysis of protein C derivatives. 133 92

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

We characterized a mutant protein C gene from an individual with no detectable protein C antigen in blood plasma. Southern blot hybridization analysis with human protein C cDNA demonstrated neither gross deletion nor rearrangement of the gene. Sequencing all the exons and exon-intron boundaries of the gene except the 3' noncoding region showed two mutant alleles. The one, derived from the mother, represents a deletion of 5 nucleotides (nt) (CCCGC) in the end of exon VI (mutation I), predicted to result in the generation of a new stop codon due to a reading frameshift and the premature termination of translation. The other, derived from the father, represents a point mutation (G to A) in exon IX (mutation II), resulting in an amino acid substitution, Gly-376(GGC) to Asp(GAC), in the catalytic domain of the protein. Allele-specific oligonucleotide probe hybridization confirmed the presence of the two mutations. Mutation I would result in a truncated polypeptide of 169 amino acid residues that lacks the heavy chain. Mutation II gives rise to an alteration of a highly conserved amino acid, Gly-376. These data indicate that this patient is a compound heterozygote of the two mutant alleles, each one inherited from each parent. Transient expression assays using COS-7 cells transfected with mutated protein C expression vectors suggested that each of the two mutations leads to the protein C deficiency by causing an impairment of secretion of the respective mutant proteins.
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PMID:Protein C deficiency Hong Kong 1 and 2: hereditary protein C deficiency caused by two mutant alleles, a 5-nucleotide deletion and a missense mutation. 161 Oct 81

Acidic synthetic peptides corresponding to segments of several nonhomologous proteins (hirudin, residues 54-65; heparin cofactor II, residues 54-75; and fibrinogen, residues 410-427 of the gamma B-chain) inhibit thrombin's cleavage of fibrinogen without blocking the enzyme's active site. Here, we examined effects of these peptides on thrombin's cleavage of protein C and small peptides. Activation of protein C by thrombin in the absence of calcium was inhibited by all of the peptides. Maximal inhibition was 60%, and no greater inhibition was produced by higher peptide concentrations. This differed from progressive inhibition of protein C activation by increasing peptide concentrations in the presence of thrombomodulin and calcium. Potencies of the peptides were in the order hirudin-(54-65) greater than heparin cofactor II-(54-75) greater than gamma B-chain-(410-427). Sulfation of the tyrosine residue in hirudin-(54-65) increased its potency about 10-fold, similar to changes in anticlotting activity. The peptides were activators rather than inhibitors of the cleavage of small chromogenic substrates. In the presence of the peptides, the affinity of thrombin for the substrates S-2366 (pyro-Glu-Pro-Arg-4-nitroanilide), Chromozyme TH (tosyl-Gly-Pro-Arg-4-nitroanilide), and S-2251 (D-Val-Leu-Lys-4-nitroanilide) increased 1.5-2-fold with little change in the Vmax of substrate cleavage. Potencies of peptides in these allosteric effects on thrombin was in the same order as for their other effects. The similar actions of these nonhomologous peptides, which are believed to bind to thrombin's anion-binding exosite, suggest that binding of any peptide to this site exerts the same allosteric effect on thrombin's active site. Interactions of these peptides with thrombin may serve as models for regulation of thrombin's interactions with natural substrates and inhibitors.
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PMID:Allosteric changes in thrombin's activity produced by peptides corresponding to segments of natural inhibitors and substrates. 184 94

Residue 39 of serine proteases neighbors positions P'2 to P'4 of the substrate. When Glu-39 of thrombin is replaced with Lys, the resultant enzyme (E39K) retains similar P1, P2, and P3 specificities but has altered P'3 and/or P'4 specificities. These conclusions are based on analysis of both p-nitroanilide and synthetic peptide hydrolysis. The activity of E39K is nearly normal toward 17 p-nitroanilide substrates. In peptide substrates, an acidic residue at either the P3 or P'3 position reduces the rate of cleavage by thrombin. A single substitution of Asp with Gly in either the P3 or P'3 position of a peptide corresponding to the P7-P'5 residues of protein C increases the rate of cleavage by thrombin 2-3-fold. Replacement of both Asp residues with Gly increases the rate of cleavage 30-fold. With E39K, the inhibitory effect of Asp in P3 remains unchanged, but Asp in the P'3 site is no longer inhibitory. Significant differences in the catalytic activity of E39K are also seen with respect to protein C activation. In the absence of thrombomodulin, E39K activates protein C 2.2 times faster than thrombin. In the presence of thrombomodulin, the rate of protein C activation is similar for E39K and thrombin. The second order rate constant of inhibition by antithrombin III, where P'4 is a Glu, is slightly increased (1.4-fold). The clotting activity is reduced 2.4-fold due to a lower rate of fibrinopeptides A and B release where P'3 is Arg. These data show that the P'3 position is a determinant of thrombin specificity and suggest that thrombomodulin may function in part by alleviating the inhibitory effects that may arise from the proximity of the Asp in P'3 of protein C with Glu-39 of thrombin.
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PMID:Thrombin Glu-39 restricts the P'3 specificity to nonacidic residues. 185 11

We have explored the heterogeneity in the proteolytic processing of the N-terminus of human tissue plasminogen activator. We demonstrate that normal propeptide processing occurs following Arg-4, preceding the sequence Gly-Ala-Arg-Ser+1. Generation of the previously designated Ser+1 occurs via secondary proteolysis following secretion. By site-directed mutagenesis, we have eliminated this cleavage site resulting in a derivative containing the propeptide sequence. N-terminal sequence analysis of this form indicated that signal peptide cleavage occurs following Ser-13. The pro-tPA derivative had near normal serine protease and plasminogen activating activities, and could be stimulated by fibrin. An additional derivative, containing the tribasic sequence from the human protein C propeptide preceding Ser+1, was secreted with full processing of the propeptide. Our data have defined the cleavages for the signal peptide and propeptide and demonstrate that a tribasic sequence can be used to eliminate N-terminal heterogeneity in this molecule. In addition, we demonstrate that, unlike several other serine proteases, a propeptide sequence does not alter the activity of this enzyme.
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PMID:Signal and propeptide processing of human tissue plasminogen activator: activity of a pro-tPA derivative. 193 Jan 75


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