EC:3.4.21.69 - FACTA Search

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Query: EC:3.4.21.69 (APC)
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The nonhistone chromatin protein, C-14, was extracted from chromatin of Novikoff hepatoma ascites cells and isolated in high purity as shown by its migration as a single dense spot on two-dimensional polyacrylamide gels. Its mobility on sodium dodecyl sulfate gels is consistent with a molecular weight of approximately 70 000. The amino acid composition shows that protein C-14 has an acidic:basic amino acid ratio of 1.8. Its amino terminal amino acid is lysine. Protein C-14 stimulated the incorporation of [3H]UMP into RNA by approximately 30% when added to naked DNA and homologous RNA polymerase I. A 30% stimulation of [3H]UMP incorporation into RNA was also found when protein C-14 was added to an E. coli RNA polymerase system containing either E. coli or Novikoff hepatoma DNA.
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PMID:Isolation and characterization of nonhistone chromosomal protein C-14 which stimulates RNA synthesis. 19 58

The amino acid sequence of the light chain of bovine protein C was determined by sequenator analysis of the carboxymethylated light chain and fragments obtained by cyanogen bromide treatment, tryptic digestion after blocking of lysine residues, and cleavage with 2-(2-nitrophenylsulfenyl)-3-methyl-3-bromoindolenine (BNPS-skatole). The sequence was (in the standard one-letter code) A-N-S-F-L-X-X-L-R-P-G-N-V-X-R-X-C-S-X-X-V-C-X-F-X-X-A-R-X-I-F-Q-N-T-X-D-T-M-A-F-W-S-K-Y-S-D-G-D-Q-C-E-D-R-P-S-G-S-P-C-D-L-P-C-C-G-R-G-K-C-I-H-G-L-G-G-F-R-C-D-C-A-E-G-W-E-G-R-F-C-L-H-E-V-R-F-S-N-C-S-A-E-B-G-G-C-A-H-Y-C-M-E-E-E-G-R-R-H-C-S-C-A-P-G-Y-R-L-E-D-D-H-Q-L-C-V-S-K-V-T-F-P-C-G-R-L-G-K-R-M-E-K-K-R-K-T-L. The first eleven glutamic acid residues were carboxylated to gamma-carboxyglutamic acid (X). The NH2-terminal, vitamin K-dependent part showed an extensive homology to both prothrombin and factor X, whereas the rest of the chain showed a strong homology to factor X but little similarity to prothrombin.
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PMID:Bovine protein C: amino acid sequence of the light chain. 28 10

Plasma from women taking combined oral contraceptives and cold-activated plasma contain proteases which cleave chromogenic substrates in protein C assays in the absence of protein C activators such as Protac. This spontaneous activity makes a background substraction necessary and makes protein C (PC) assays less accurate. We investigated two commonly used substrates < Glu-Pro-Arg-pNA (S-2366) and 2AcOH.H-D-Lys(Cbo)-Pro-Arg-pNA (PC substrate) and found that cold-activated normal and protein C-deficient plasmas gave absorbance values up to 300 times higher than buffer blanks. FXIa cleaves these substrates but activity was not blocked by corn or lima bean trypsin inhibitors, soy bean trypsin inhibitor (SBTI), hirudin or epsilon-amino-n-caproic acid (EACA). Kaolin activation of normal, FXI, FIX, FVIII, FVII and protein C-deficient, but not of FXII or prekallikrein (PKK)-deficient plasmas led to cleavage of chromogenic substrate for protein C. The protein C substrates were cleaved by purified kallikrein and alpha- and beta-FXIIa. Immunoabsorption with alpha 2-macroglobulin (alpha 2M) antibodies removed 60% of the alpha 2M and 70% of the activity on PC Substrate. Gel filtration of normal plasma on Sephadex G-150 gave a single peak of protein C activity and antigen in the included volume. After cold activation of the fractions, a second protein C-like peak appeared in the void volume, but with no detectable protein C antigen. This peak coincided with alpha 2M (chromogenic and ELISA) and plasma kallikrein (S-2302), but FXII (measured with a substrate insensitive to kallikrein) eluted separately.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contact factor proteases and the complexes formed with alpha 2-macroglobulin can interfere in protein C assays by cleaving amidolytic substrates. 128 Apr 70

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

A series of new compounds, 6-amino-1-naphthalenesulfonamides (ANSN), were used as fluorescent detecting groups for substrates of amidases. These compounds have a high quantum fluorescent yield, and the sulfonyl moiety permits a large range of chemical modification. Fifteen ANSN substrates with the structure (N alpha-Z)Arg-ANSNR1R2 were synthesized and evaluated for their reactivity with 8 proteases involved in blood coagulation and fibrinolysis. Thrombin, activated protein C, and urokinase rapidly hydrolyzed substrates with monosubstituted sulfonamide moieties (R1 = H). The maximum rate of substrate homologue). The hydrolysis rates for substrates with branched substituents were slower than their linear analogues. Monosubstituted (N alpha-Z)Arg-ANSNR1R2 possessing cyclohexyl or benzyl groups in the sulfonamide moiety were hydrolyzed by these three enzymes at rates similar to that of the n-butyl homologue (except the cyclohexyl compound for u-PA). Factor Xa rapidly hydrolyzed substrates with short alkyl chains, especially when R1 = R2 = CH3 or C2H5. Lys-plasmin and rt-PA demonstrated low activity with these compounds, and the best results were accomplished for monosubstituted compounds when R2 = benzyl (for both enzymes). Factor VIIa and factor IXa beta exhibited no activity with these substrates. A series of 14 peptidyl ANSN substrates were synthesized, and their reactivity for the same 8 enzymes was evaluated. Thrombin, factor Xa, APC, and Lys-plasmin hydrolyzed all of the substrates investigated. Urokinase, rt-PA, and factor IXa beta exhibited reactivity with a more limited group of substrates, and factor VIIa hydrolyzed only one compound (MesD-LGR-ANSN(C2H5)2). The substrate ZGGRR-ANSNH (cyclo-C6H11) showed considerable specificity for APC in comparison with other enzymes (kcat/KM = 19,300 M-1 s-1 for APC, 1560 for factor IIa, and 180 for factor Xa). This kinetic advantage in substrate hydrolysis was utilized to evaluate the activation of protein C by thrombin in a continuous assay format. Substrate (D-LPR-ANSNHC3H7) was used to evaluate factor IX activation by the factor VIIa/tissue factor enzymatic complex in a discontinuous assay. A comparison between the commercially available substrate chromozyme TH (p-nitroanilide) and the ANSN substrate with the same peptide sequence (TosGPR) demonstrated that aminonaphthalenesulfonamide increased the specificity (kcat/KM) of substrate hydrolysis by thrombin more than 30 times, with respect to factor Xa substrate hydrolysis.
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PMID:Aminonaphthalenesulfonamides, a new class of modifiable fluorescent detecting groups and their use in substrates for serine protease enzymes. 160 66

We cloned a cDNA coding for rat protein C, which provides hybridization probes for the detection of protein C mRNA in several tissues. The cloned cDNA was 1543 bp long and contained a single open reading frame of 1383 nucleotides. The proposed rat protein C precursor contained 461 amino acid residues: a 41 amino acid preproleader sequence, and light (155 amino acids) and heavy (263 amino acids) chains joined by a Lys-Arg dipeptide. Northern blot analysis showed that the rat protein C mRNA was expressed not only in the liver, but also in the kidney.
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PMID:The cDNA cloning and mRNA expression of rat protein C. 162 50

We report on a computer algorithm capable of predicting the location of T-helper-cell epitopes in protein antigen (Ag) by analysing the Ag amino acid sequence. The algorithm was constructed with the aim of identifying segments in Ag which are resistant to proteolytic degradation by the enzymes cathepsin B, L, and D. These are prominent enzymes in the endocytic pathway through which soluble protein Ag enter APC, and resistant segments in Ag may, therefore, be expected to contain more T-cell determinants than susceptible segments. From information available in the literature on the substrate specificity of the three enzymes, it is clear that a cysteine is not accepted in any of the S2, S1, S1', and S2' subsites of cathepsin B and L, and not in the S1 and S1' subsites of cathepsin D. Moreover, we have noticed that cysteine-containing T-cell determinants in a number of protein Ag are particularly rich in the amino acids alanine, glycine, lysine, leucine, serine, threonine, and valine. By searching protein Ag for clusters of amino acids containing cysteine and two of the other amino acids we were able to predict 17 out of 23 empirically known T-cell determinants in the Ag with a relatively low number of false (positive) predictions. Furthermore, we present a new principle for searching Ag for potential amphipatic alpha-helical protein segments. Such segments accord well with empirically known T-cell determinants and our algorithm produces a lower number of false positive predictions than the principle based on discrete Fourier transformations previously described.
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PMID:T-helper-cell determinants in protein antigens are preferentially located in cysteine-rich antigen segments resistant to proteolytic cleavage by cathepsin B, L, and D. 171 25

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

Human protein C (HPC) is an antithrombotic serine protease that circulates in the plasma as several glycoforms. To examine the role of glycosylation in the function of this protein, we singly eliminated each of the four potential N-linked glycosylation sites by site-directed mutagenesis of Asn to Gln at amino acid positions 97, 248, and 313 (HPC derivatives Q097, Q248, and Q313) or at the unusual consensus sequence Asn-X-Cys at 329 (HPC derivative Q329). The cDNAs for wild type and each derivative were inserted into expression vectors and expressed both transiently and stably in human 293 and hamster AV12-664 cells. We demonstrate that N-linked glycosylation at position 97 in the light chain of HPC is critical for efficient secretion and affects the degree of core glycosylation at Asn-329. Glycosylation at position 248 affects the intracellular processing of the internal Lys-Arg (KR) KR cleavage site, and partial glycosylation at the sequence Asn-329-X-Cys is responsible for the natural alpha-glycoform. Altering the glycosylation pattern of the protein had no significant effect on the level of fully gamma-carboxylated HPC secreted from the 293 cell line. However, elimination of glycosylation sites in the heavy chain resulted in a 2- to 3-fold increase in anticoagulant activity. Utilizing synthetic substrate, both the Km and kcat were affected, depending on the specific glycosylation site eliminated. However, there were no significant differences in the inhibition kinetics by alpha-1-antitrypsin (association rate constants of 10-11 M-1s-1 and t1/2 of 27-29 min at 40 microM alpha-1-antitrypsin) or t1/2 in human plasma (17-18 min). A comparison of the rate of activation of each derivative by thrombin alone or in complex with thrombomodulin revealed that Q313 was activated approximately 2.5-fold faster than wt HPC, independent of calcium concentration. This increase in rate was due to an enhanced affinity of thrombin-thrombomodulin for Q313, as indicated by a 3-fold reduction in Km. Overall, our studies demonstrate that glycosylation at different sites in HPC affects distinct properties of this complex protein. Furthermore, we demonstrate the ability to improve the catalytic efficiency of this enzyme through carbohydrate modifications.
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PMID:Glycosylation of human protein C affects its secretion, processing, functional activities, and activation by thrombin. 203 65

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