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 S is an anticoagulant vitamin-K-dependent plasma protein functioning as a cofactor to activated protein C in the degradation of factors Va and VIIIa. A murine monoclonal antibody, HPS 7, specific for a calcium-stabilized epitope in human protein S, is described. The epitope was available in intact protein S, both in its free form and when protein S was bound to C4b-binding protein. It disappeared upon reduction of disulfide bridges and also after thrombin of chymotrypsin cleavage of protein S. Thrombin cleaves protein S close to the calcium-binding region containing gamma-carboxyglutamic acid (Gla). The cleaved protein still contains the Gla region, linked by a disulfide bridge, but it has a lower affinity for calcium and no protein C cofactor activity. The thrombin-mediated cleavage of protein S could be inhibited by HPS 7. The Ka for the interaction between protein S and the monoclonal was estimated to be approximately 0.7 X 10(8) M-1. Half-maximal binding between HPS 7 and protein S was observed at a calcium concentration of 0.50 mM, indicating that saturation of the Gla region with calcium was required for the interaction. The recently reported Gla-independent high-affinity calcium binding did not induce the epitope. The calcium-dependent binding of protein S to phospholipid vesicles as well as the protein C cofactor activity was inhibited by HPS 7. The data suggests that the epitope for HPS 7 is located in the Gla region of protein S or in the closely positioned thrombin-sensitive region.
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PMID:Inhibition of human vitamin-K-dependent protein-S-cofactor activity by a monoclonal antibody specific for a Ca2+-dependent epitope. 243 12

Protein C, like the other vitamin K-dependent plasma proteins that participate in blood coagulation, except prothrombin, has at least one high affinity calcium-binding site that is independent of gamma-carboxyglutamic acid. Calcium binding to this site is required for activation of protein C by the thrombin-thrombomodulin complex. In an attempt to localize this calcium-binding site, we subjected protein C to limited tryptic digestion. A monoclonal antibody that recognizes a calcium-dependent epitope both in intact protein C, in gamma-carboxyglutamic acid-domainless protein C, and in activated protein C, was used to isolate a fragment from the tryptic digest. The fragment was derived from the light chain of protein C and consisted of the two domains that are homologous to the epidermal growth factor precursor. Half-maximal binding of the intact protein and of the isolated fragment by the antibody occurred at 100-200 microM Ca2+. The results suggest the presence of a Ca2+-binding site in the epidermal growth factor homology region of protein C.
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PMID:Calcium-dependent interaction between the epidermal growth factor precursor-like region of human protein C and a monoclonal antibody. 244 97

Protein C undergoes Ca2+-induced conformational changes required for activation by the thrombin-thrombomodulin complex. A Ca2+-dependent monoclonal antibody (HPC4) that blocks protein C activation was used to study conformational changes near the activation site in protein C. The half-maximal Ca2+ dependence was similar for protein C and gamma-carboxy-glutamic acid-domainless protein C for binding to HPC4 (205 +/- 23 and 110 +/- 29 microM Ca2+, respectively), activation rates (214 +/- 22 and 210 +/- 37 microM), and intrinsic fluorescence of gamma-carboxyglutamic acid-domainless protein C (176 +/- 34 microM). Protein C heavy chain binding to HPC4 was half-maximal at 36 microM Ca2+, although neither the heavy chain nor HPC4 separately bound Ca2+ with high affinity. The epitope was lost when the activation peptide was released. A synthetic peptide, P (6-17), which spans the activation site, exhibited Ca2+-dependent binding to HPC4 (half-maximal binding = 6 microM Ca2+). Thus, each decrease in antigen structure resulted in a reduced Ca2+ requirement for binding to HPC4. Tb3+ and Ca2+ binding studies demonstrated a Ca2+-binding site in HPC4 required for high affinity antigen binding. These studies provide the first direct evidence for a Ca2+-induced conformational change in the activation region of a vitamin K-dependent zymogen. Furthermore, Ca2+ binding to HPC4 is required for antigen binding. The multiple roles of Ca2+ described may be useful in interpretation of other metal-dependent antibody/antigen interactions.
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PMID:The interaction of a Ca2+-dependent monoclonal antibody with the protein C activation peptide region. Evidence for obligatory Ca2+ binding to both antigen and antibody. 244 82

A murine monoclonal antibody (designated H-11) produced by injecting mice with purified human protein C was found to bind several human vitamin K-dependent proteins. Using a solid-phase competitive radioimmunoassay with antibody immobilized onto microtiter plates, binding of 125I-labeled protein C to the antibody was inhibited by increasing amounts of protein C, prothrombin, and Factors X and VII over a concentration range of 1 X 10(-8) to 1 X 10(-6) M. Other vitamin K-dependent proteins including Factor IX and protein S did not inhibit or inhibited only at the highest concentration binding of radiolabeled protein C to the immobilized antibody. Chemical treatment of prothrombin with a variety of agents including denaturation by sodium dodecyl sulfate, reduction with mercaptoethanol followed by carboxymethylation with iodoacetic acid, citraconylation of lysine residues, removal of metal ion with EDTA, or heat decarboxylation did not destroy the antigenic site recognized by the antibody as measured by immunoblotting of prothrombin or prothrombin derivative immobilized onto nitrocellulose. Immunoblotting of purified vitamin K-dependent polypeptides with the monoclonal antibody following sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrophoretic transfer to nitrocellulose indicated that the antigenic site was found on the light chains of protein C and Factor X. Chymotrypsin digestion of prothrombin and isolation on QAE-Sephadex of the peptide representing amino-terminal residues 1-44 of prothrombin further localized the antigenic site recognized by the monoclonal antibody to the highly conserved gamma-carboxyglutamic acid-containing domain. The exact location of the antigenic determinant for antibody H-11 was established using synthetic peptides. Antibody H-11 bound specifically to synthetic peptides corresponding to residues 1-12 of Factor VII and 1-22 of protein C. Comparison of protein sequences of bovine and human vitamin K-dependent proteins suggests that the sequence Phe-Leu-Glu-Glu-Xaa-Arg/Lys is required for antibody binding. The glutamic acid residues in this peptide segment are the first 2 gamma-carboxyglutamic acid residues near the amino-terminal end in the native proteins. Increasing concentrations of Ca2+, Mg2+, or Mn2+ partially inhibited binding of 125I-protein C to the antibody in a solid-phase assay system with half-maximal binding observed at divalent metal ion concentrations of 2, 4, and 0.6 mM, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A conserved epitope on several human vitamin K-dependent proteins. Location of the antigenic site and influence of metal ions on antibody binding. 245 60

With the use of flow cytometry, we recorded changes in intracellular ionized calcium [Ca2+]i of Indo-1 loaded T cells that were triggered by contact with APC. This rapid readout of TCR perturbation enabled us to monitor the formation of stimulatory Ag-MHC complexes on EBV-transformed B cells that were either pulsed with native tetanus toxoid (TT) or with a 12-amino-acid fragment of this protein. Neither unpulsed APC nor Ag-specific APC that were pulsed with native Ag and kept at +4 degrees C were able to induce changes in basal T cell [Ca2+]i in TT-specific T cell clones. After 1 h at 37 degrees C, however, the Ag-pulsed APC were able to induce a three-to-fourfold increase in [Ca2+]i. This length of time appeared to be almost independent of the concentration of Ag with which the APC were pulsed, suggesting that the lag time was due more to intracellular transit than to association of the processed Ag with the MHC molecule. Furthermore, the same lag time and independence of Ag concentration were found when the EBV-transformed B cells were pulsed with a mouse-anti-transferrin receptor mAb and tested for their capacity to trigger a T cell clone specific for processed mouse Ig. This indicates that, in addition to surface Ig, other receptors that are internalized can function in the same fashion in the uptake and processing of a soluble Ag. In contrast to what was found with intact native Ag, no lag time was observed when the APC were pulsed with high concentrations of a 12-amino-acid peptide, containing the amino acid sequence recognized by a TT-specific T cell clone, suggesting that the formation of MHC-peptide complexes occurs instantly. Pulsing with a lower peptide concentration, however, caused the appearance of a time-dependent increase in efficacy of Ag presentation, suggesting a slow accumulation of MHC-peptide complexes on the B cell membrane.
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PMID:Kinetics of MHC-antigen complex formation on antigen-presenting cells. 245 65

Th cell-mediated rapid recognition of foreign Ag and the Ia molecule was studied using azobenzenearsonate-L-tyrosine (ABA-L-tyrosine)-specific Th cells (I-Ak restricted), foreign Ag (ABA-L-tyrosine), and APC (H-2k). Initial transmembrane signals in Th cell hybridomas (2-45-12) and in Th cell lines (A24-17 or A33-7) were monitored by stopped-flow fluorometry with fluorescent probes. It was found that Th cells recognized foreign Ag within 1 s at 25 degrees C on the APC (B10.BR spleen cells or L cells into which I-Ak genes were transferred). Recognition of foreign Ag and the Ia molecule was shown to deliver the initial signals to Th cell hybridomas and T cell lines. First, Th cells had membrane fluidity increased and then calcium was transported from the external medium into the T cells. The initial transmembrane signals to Th cell hybridomas were inhibited by the addition of an anti-I-Ak mAb. None of the initial signals were observed in the absence of either specific foreign Ag or APC.
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PMID:T cell-mediated recognition of foreign antigen and the Ia molecule observed by stopped-flow fluorometry. 245 16

Protein C is a vitamin K-dependent regulator of blood coagulation. It has beta-hydroxyaspartic acid in position 71 which is in the first of its two domains that are homologous to epidermal growth factor (EGF). This region has recently been demonstrated to have a Ca2+ binding site with a Kd of approximately 100 microM. Recombinant human protein C, expressed in mammalian tissue culture, had full biological activity and contained beta-hydroxyaspartic acid. Furthermore, it had a Ca2+-dependent epitope in the EGF-like domain, recognized by a monoclonal antibody. In contrast, a mutant recombinant human protein C in which beta-hydroxyaspartic acid had been replaced with glutamic acid in position 71 did not have the Ca2+-dependent epitope, and its biological activity was reduced to about 10% of normal. Fab' fragments of this antibody inhibited the anticoagulant activity of plasma-derived activated protein C, apparently by interfering with the interaction between activated protein C and its cofactor, protein S. The latter contains four tandemly arranged EGF homology domains. We propose that beta-hydroxyaspartic acid is directly involved in Ca2+ binding in protein C and in related proteins and that protein C interacts with protein S by means of its EGF homology regions.
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PMID:Beta-hydroxyaspartic acid in the first epidermal growth factor-like domain of protein C. Its role in Ca2+ binding and biological activity. 246 36

The effect of human T cell leukemia/lymphoma virus type I (HTLV-I) infection on the function and the phenotype of a human proliferating/cytotoxic T cell clone, specific for tetanus toxin, was investigated. During the period after infection, two distinct phases were observed, based on growth properties, phenotype, and functional activity of the infected cells. Phase I HTLV-I infected cells (0 to about 150 days after infection) proliferated in an IL-2-dependent way, but without the requirement for repetitive antigenic stimulation. No differences in expression of the CD2, CD3, CD4, Tp103, and CD28 Ag between these cells and the parental cells could be demonstrated, with the exception of the expression of IL-R p55 and HLA-DR Ag, which were constitutively expressed on the phase I cells. The phase I HTLV-I-infected cells, as well as the parental 827 cells reacted with a mAb specific for an epitope on the variable part of the TCR beta-chain, indicating that the TCR was not altered after HTLV-I infection. Like the parental clone, the phase I cells proliferated in response to tetanus toxin, but the tetanus toxin-specific response of the phase I cells did not require the presence of APC. Results of experiments, in which the levels of intracellular Ca2+ were measured, indicated that HTLV-I cells can acquire the capability to process Ag and present that to themselves. Phase I HTLV-I-infected T cells had lost their cytotoxic activity which was likely to be due to an effect on the lytic machinery rather than on Ag recognition by the TCR, inasmuch as it was found that phase I HTLV-I-infected T cells did no longer contain N-alpha-benzyloxy-L-lysine thiobenzylester-serine esterase activity. Furthermore, it was found that phase I HTLV-I-infected T cells had a diminished capacity to form conjugates with target cells. From a period of about 200 days after HTLV-I infection, phase II cells emerged that proliferated strongly in the absence of IL-2 and that had lost all functional activity. These cells did not express the CD3/T cell receptor complex on their surface. Phase I as well as phase II HTLV-I-infected cells were targets for CTL raised in the autologous donor.
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PMID:Human T cell leukemia/lymphoma virus type I infection of a CD4+ proliferative/cytotoxic T cell clone progresses in at least two distinct phases based on changes in function and phenotype of the infected cells. 246 94

The activation of protein C by thrombin is thought to occur at the endothelial cell surface in the presence of an essential membrane glycoprotein cofactor, thrombomodulin. In the present study it is demonstrated that, in the presence of hirudin, the most potent known inhibitor of thrombin, human protein C can be activated by human factor Xa (20 nM), but by a thrombomodulin-independent mechanism requiring only the presence of Ca2+ and phospholipid vesicles bearing a high proportion of negative charges (30-75% phosphatidylserine, depending on the conditions). At an optimal concentration of phosphatidylserine/phosphatidylcholine (1:1, w/w) of 75 microM, the apparent Km was 1 microM with a kcat. of 1 min-1. At 25 microM-phospholipid the Km was unchanged and the kcat. was 0.67 min-1. At either lipid concentration, increasing the density of negative charges by the adjunction of sulphated polysaccharides, like pentosan polysulphate or standard heparin at optimal concentrations of 2-5 micrograms/ml and 5-10 micrograms/ml respectively, resulted in a 4-fold increase of the kcat. without affecting the Km. Sulphated polysaccharides alone were poor promoters of protein C activation by factor Xa. In any case the presence of Ca2+ was essential, the dependence being sigmoidal with Hill coefficients ranging from 1.4 to 2.0. No significant activation of 4-carboxyglutamic acid-domainless protein C, a chymotrypic derivative lacking the phospholipid-binding domain, could be detected in the presence of phospholipids and Ca2+, with or without pentosan polysulphate. In a large molar excess, other phospholipid-binding entities like prothrombin fragments F1 or F1+2 could inhibit protein C activation by factor Xa, but pentosan polysulphate exerted a clear protective effect. Factor Xa irreversibly inhibited at its active centre, but not di-isopropyl phosphoro-thrombin, behaved as an inhibitor but in a more complex manner than simple Michaelis-Menten kinetics. Among several derivatives of pentosan polysulphate or of heparin which were tested, those having the higher degree of sulphation and/or molecular mass were the most efficient in enhancing the rate of activation of protein C by factor Xa in the presence of phospholipids. These results suggest that human factor Xa, at physiological concentrations, could activate human protein C in the presence of anionic phospholipids and that this activation could be potentiated by therapeutic concentrations of sulphated polysaccharides.
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PMID:Activation of human protein C by blood coagulation factor Xa in the presence of anionic phospholipids. Enhancement by sulphated polysaccharides. 247 15

The murine monoclonal antibody H-11 binds a conserved epitope found at the amino terminal of the vitamin K-dependent blood proteins prothrombin, factors VII and X, and protein C. The sequence of polypeptide recognized by antibody H-11 contains 2 residues of gamma-carboxyglutamic acid, and binding of the antibody is inhibited by divalent metal ions. By using a solid-phase immunoassay with 125I-labeled antibody and immobilized vitamin K-dependent protein, binding of the antibody to the vitamin K-dependent proteins was inhibited by increasing concentrations of calcium, manganese, and magnesium ion. The transition midpoints for antibody binding were in the millimolar concentration range and were different for each metal ion. In general, the transition midpoints were lowest for manganese ion, intermediate for calcium ion, and highest for magnesium ion. Antibody H-11 bound specifically to a synthetic peptide corresponding to residues 1-12 of human prothrombin that was synthesized as the gamma-carboxyglutamic acid-containing derivative. Binding of the antibody to the peptide was not inhibited by calcium ion. These data suggest that inhibition of antibody H-11 binding by divalent metal ions is not due simply to neutralization of negative charge by Ca2+. This transition which is conserved in vitamin K-dependent proteins containing the H-11 antigenic site is likely due to a structural transition of the amino-terminal polypeptide possibly from a random (accessible) to ordered (inaccessible) structure.
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PMID:Evidence for a common metal ion-dependent transition in the 4-carboxyglutamic acid domains of several vitamin K-dependent proteins. 247 38


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