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)

To understand the mechanism of T cell-mediated suppression, we have established a number of suppressor T cell (Ts) clones of both CD4+ and CD8+ phenotypes that exert a definite suppressive effect on antigen-induced proliferative response of normal and cloned CD4+ helper T cells (Th). When an antigen-activated Ts clone was added to Th clones that were subsequently stimulated with antigen and APC, the increase of intracellular Ca2+ in the latter was greatly inhibited. The suppression was unidirectional where Ts suppressed Th but not vice versa. A Ts clone could not suppress other Ts clones. Exactly the same suppression of Ca2+ response could be induced by the treatment of T cells with an anti-I-J antibody. The anti-I-J suppressed the Ca2+ response of Th clones induced by antigen-pulsed APC and anti-TcR alpha beta antibody, whereas the responses to anti-CD3 and Con A were not inhibited. The difference in the effect of anti-TcR alpha beta and anti-CD3 suggests that the suppression is caused by a functional uncoupling of TcR alpha beta and CD3. The stimulation of Ts clones with anti-CD3, on the other hand, induced a unique suppressor factor that potently inhibits the antigen- and anti-TcR induced proliferation of CD4+ Th clones.
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PMID:Molecular events in the T cell-mediated suppression of the immune response. 183 9

Using an ACL 300R coagulometer (Instrumentation Laboratory) we assessed the clinical usefulness of a new method to measure PS activity (PS:Act), based on the prolongation of prothrombin time of a mixture of diluted plasma sample, PS depleted plasma previously incubated with Protac for protein C activation, bovine thromboplastin and calcium ions. The results were compared with those from immunological assays. PS:Act was measured in 42 apparently healthy subjects, in 12 patients with hereditary PS deficiency (HPSD group) diagnosed on the basis of immunologic tests and in 48 patients with episodes of juvenile venous thromboembolism at least three months prior to testing (JVTE group). All the HPSD patients had PS:Act below the normal range (less than 62%). In JVTE group 9 patients (18.7%) showed abnormal results for PS:Act, 4 (8.3%) had low levels of free PS:Ag; all patients had normal total PS:Ag levels. Levels of antiphospholipid antibodies (immunologic test) were normal in the 9 JVTE patients with low PS:Act. When all the results were considered together (n = 102), the correlation coefficient between PS:Act and free PS:Ag was 0.78 (p less than 0.01).
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PMID:Protein S activity in patients with heredofamilial protein S deficiency and in patients with juvenile venous thrombosis. Results of a functional method. 183

In this study, the ability of factor Xa to protect factor Va from proteolysis by activated protein C (APC) was verified. Interestingly, factor X was found to exert a similar effect with a dose-dependence identical to that of factor Xa. The effects of factor X and Xa were abrogated in the presence of protein S. To further assess the interactions of factor Va with factors Xa, X and APC, direct binding studies were performed. Factor X and Xa bound to factor Va with equal efficacy. Both proteins displaced APC from its factor Va binding site. These interactions were calcium-dependent. Although the binding of factor Xa devoid of its principal calcium binding site (the Gla-domain) to factor Va was identical to that observed using the native protein, its APC inhibitory effects were significantly reduced. These findings suggest that the Gla-domain of factor X (Xa) is pivotal in the protection of factor Va from APC.
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PMID:Regulation of activated protein C by factor Xa. 183 23

Factor VIII, a cofactor of the intrinsic clotting pathway, is proteolytically inactivated by the vitamin K-dependent serine protease, activated protein C in a reaction requiring Ca2+ and a phospholipid surface. Factor VIII was inactivated 15 times faster than factor VIII in complex with either von Willebrand factor (vWf) or the large homodimeric fragment, SPIII (vWf residues 1-1365). Free factor VIII or factor VIII in complex with a smaller fragment, SPIII-T4 (vWf residues 1-272), were inactivated at the same rate, suggesting that this effect was dependent upon the size of factor VIII-vWf complex rather than changes in factor VIII brought about by occupancy of the vWf-binding site. Thrombin cleavage of the factor VIII light chain to remove the vWf-binding site eliminated the protective effects of vWf. In the absence of phospholipid, high levels of the protease inactivated both free and vWf-bound factor VIII at equivalent rates. Using the same conditions, isolated heavy chains and the heavy chains of factor VIII were proteolyzed at similar rates. Taken together, these results suggested that, in the absence of phospholipid, inactivation of factor VIII is independent of factor VIII light chain and further suggest that vWf did not mask susceptible cleavage sites in the cofactor. Solution studies employing fluorescence energy transfer using coumarin-labeled factor VIII (fluorescence donor) and synthetic phospholipid vesicles labeled with octadecyl rhodamine (fluorescence acceptor) indicated saturable binding and equivalent extents of donor fluorescence quenching for factor VIII alone or when complexed with SPIII-T4. However, complexing of factor VIII with either vWf or SPIII eliminated its binding to the phospholipid. Since a phospholipid surface is required for efficient catalysis by the protease, these results suggest that vWf protects factor VIII by inhibiting cofactor-phospholipid interactions.
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PMID:von Willebrand factor mediates protection of factor VIII from activated protein C-catalyzed inactivation. 184 15

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

Although it is well established that calcium is an essential cofactor in blood coagulation, recent experimental evidence suggests that zinc may also play an important role in hemostasis. In the present study, we have examined the effect of zinc ions on the amidolytic and proteolytic activity of recombinant factor VIIa in the presence of physiological levels of calcium ions. The amidolytic activity of factor VIIa was inhibited half-maximally by 20 microM zinc. The amidolytic activity of a derivative of factor VIIa lacking the gamma-carboxyglutamic acid domain was also inhibited half-maximally by 20 microM zinc, suggesting that the mechanism of zinc inhibition of factor VIIa amidolytic activity did not involve its gamma-carboxyglutamic acid residues. The amidolytic activity of a complex of recombinant tissue factor and factor VIIa was inhibited half-maximally by 70 microM zinc. In contrast to the results obtained with factor VIIa, the amidolytic activities of other human vitamin K-dependent coagulation proteases including factor Xa, thrombin and activated protein C were not appreciably affected by 50-100 microM zinc. The proteolytic activation of factor X by a complex of factor VIIa and relipidated tissue factor apoprotein was inhibited half-maximally by 40 microM zinc, whereas activation of factor IX in this system was inhibited half-maximally by 70 microM zinc ions. Considerably higher levels of zinc (approximately 100 microM) were required to inhibit half-maximally the rate of factor X activation by a complex of factor VIIa and functional tissue factor on the surface of either a human bladder carcinoma cell line, J82, or stimulated human umbilical vein endothelial cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of recombinant human blood coagulation factor VIIa amidolytic and proteolytic activity by zinc ions. 187 14

In order to examine whether the structural integrity of the hexapeptide disulfide loop (residues 17-22), present in the gamma-carboxyglutamic acid (gamma) domain of human protein C (PC), and common to all vitamin K dependent coagulation proteins, is necessary for its anticoagulant properties, we employed recombinant (r) DNA technology to generate two important variants that would address this issue. One such mutein contained aspartic acid for gamma-residue substitutions at sequence positions 19 and 20 ([gamma 19D, gamma 20D]r-PC) in the light chain of the mature protein, and the other possessed a serine for cysteine substitution at position 22 ([C22S]r-PC of the same light chain. A subpopulation of molecules of these mutant proteins, containing the maximum levels of gamma-residues in each, has been purified by fast-protein anion-exchange liquid chromatography and affinity chromatography on an anti-human PC column. A study of the kinetic characteristics of the inhibition by Ca2+ of the thrombin-catalyzed activation rates of these variants, and the corresponding stimulation by Ca2+ of the thrombin/thrombomodulin-catalyzed activation rates of the same recombinant PC molecules, demonstrated that higher concentrations of Ca2+ were required to display these effects, when compared to wild-type (wt) r-PC and human plasma PC. This suggested that the kinetically relevant Ca2+ site responsible for these effects on activation of PC, and known to be present in another domain of PC, was affected by both mutations in the gamma-domain. The recombinant PC variants were converted to their activated forms ([gamma 19D, gamma 20D]r-APC and [C22S]r-APC) and assayed for their Ca(2+)-dependent anticoagulant activities.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of the hexapeptide disulfide loop present in the gamma-carboxyglutamic acid domain of human protein C in its activation properties and in the in vitro anticoagulant activity of activated protein C. 190 53

An innovative chemically modified thrombin, succinylthrombin, was prepared by the treatment of thrombin with succinic anhydride. Succinylthrombin showed a remarkable reduction of fibrinogen clotting activity with a reduction of the potency for protein C (PC) activation. However, the degree of the remaining potency for PC activation was greater than the degree of the remaining clotting activity. The potency for PC activation was enhanced by the addition of thrombomodulin and calcium ion. The degree of the enhancement was approximately 6-times greater than that of acetylthrombin, which we previously suggested as an effective anticoagulant. The infusion of succinylthrombin into rabbits induced a prolongation of the activated partial thromboplastin time (APTT). The fibrinogen level was not affected even by the infusion of succinylthrombin of a dose which cause the prolongation of the APTT to the same extent as that following an infusion of thrombin. The factor Xa clotting time was also prolonged by the succinylthrombin without any significant drop in the number of the circulating platelet.
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PMID:Preparation of succinylthrombin and its effects in vivo on the coagulation system. 194 15

Monoclonal antibodies for human thrombomodulin, a cofactor for thrombin-catalyzed activation of protein C, were prepared and their epitopes characterized. All six antibodies (MFTM-1-MFTM-6) bound to an elastase-digested active fragment of thrombomodulin, which contains six consecutive EGF domains. Binding of thrombomodulin to these antibodies did not depend on Ca2+ concentration. MFTM-4, MFTM-5, and MFTM-6 strongly inhibited protein C activation by thrombin and thrombomodulin. MFTM-4 and MFTM-5 inhibited thrombin binding to fixed thrombomodulin and bound to a recombinant mutant EGF456 protein, which contained the fourth, fifth, and sixth EGF domains of thrombomodulin. However, MFTM-6 did not inhibit thrombin binding to thrombomodulin and did not bind to EGF456 protein. Binding of thrombomodulin to fixed MFTM-4 or MFTM-5 was competitively inhibited by a recombinant mutant EGF45 protein which contained the fifth and sixth EGF-domains. These results suggest that epitopes of MFTM-4 and MFTM-5 are located in the fifth EGF domain of thrombomodulin. Thus, the binding site for thrombin is located in the fifth EGF domain. These results also suggest that an epitope for MFTM-6 is located at a region near the binding site for gamma-carboxyglutamic acid residues of protein C via Ca2+ on thrombomodulin.
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PMID:Monoclonal antibodies for human thrombomodulin which recognize binding sites for thrombin and protein C. 196 60

Interaction of the glycosyl phosphatidylinositol-linked differentiation Ag CD73 (ecto-5'-nucleotidase) with the CD73-specific mAb 1E9 generates agonistic signals that strongly synergize with T cell activation induced by CD3 and CD2 mAb. This synergy is observed only when 1E9 is immobilized on plastic and occurs in the absence of accessory cells or exogenous lymphokines. 1E9 induces a rapid (though transient) increase in [Ca2+]i in a minor proportion (20 to 30%) of unfractionated T lymphocytes (presumably CD73+ cells). However, this [Ca2+]i mobilization is not sufficient to fully activate CD73+ T cells, as shown by the requirement of additional signals such as CD3 or CD2 stimulation to initiate T cell proliferation. These signals cannot be substituted by the exogenous lymphokines, rIL-1, rIL-2, or rIL-4, or PMA (when T cells are rigorously depleted of monocytes). These data indicate that CD73 may behave as an accessory molecule regulating interactions between T cells and antigens or APC. A comparison was carried out with mAb 9.3 to the differentiation Ag CD28, another agonistic molecule with activating properties similar to CD73. Despite their lower percentage, the ability of CD73+ T cells to amplify the proliferation induced by CD3 or CD2 mAb was equivalent or even greater than that of CD28+ T cells. Once activated, CD73+ cells may recruit the remaining (CD73-) cells primed by CD3 or CD2 stimulation. Based on these data, we suggest that CD73+ T lymphocytes may be a specialized subset to amplify immune responses originated by the CD3 and CD2 activation pathways. Finally, the functional association between CD73 and integral membrane molecules like CD3 and CD2 suggests that GPI-anchored molecules may play a role in transmembrane signaling mediated by conventional second messenger systems.
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PMID:Human T cell activation. Synergy between CD73 (ecto-5'-nucleotidase) and signals delivered through CD3 and CD2 molecules. 197 59


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