EC:3.4.21.69 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.4.21.69 (APC)
16,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this work the Ca2+ response and the morphological changes elicited by Ag in human CD4+ T cells are described at the single cell level. The APC used to present the diphtheria toxoid Ag to a human diphtheria toxoid-specific T cell clone were murine L cell fibroblast transfectants expressing MHC class II molecules. The increase of the intracellular Ca2+ concentration, [Ca2+]i, which is one of the earliest steps of the response to TCR stimulation, was followed by fluorimetry with fura-2 on an imaging system. This response was a specific consequence of successful Ag presentation, because it only took place when fibroblasts expressed both class II MHC molecules and Ag. CD4 molecules were also involved in this intercellular interaction, because the Ca2+ response could be inhibited by preincubating the T cells with an anti-CD4 antibody. The response induced by APC started after a delay of at least 6 min, after which large Ca2+ oscillations took place, with a pseudo period of 100 s at 35 degrees C. The frequency of these oscillations decreased with temperature. The oscillations became progressively more damped during the first 30 to 40 min of cell-to-cell interaction, after which they completely stopped; however, [Ca2+]i remained well above its resting level for more than 1 h after the contact. The Ca2+ oscillations were entirely dependent on Ca2+ influx because they immediately disappeared when external calcium was removed. Similar oscillations were observed when the cells were stimulated with an anti-CD3 antibody. After stimulation with APC, many T cells abandoned their spherical shape and tended to flatten and elongate. This aspect of the T cell response was not observed after stimulation with an anti-CD3 antibody. In the presence of cytochalasin B, the morphologic changes elicited by the APC were blocked, whereas the Ca2+ response was slightly enhanced. However, when T cells were loaded with the Ca2+ chelator BAPTA, both Ca2+ and morphologic changes were inhibited, suggesting that the Ca2+ response plays a permissive role for the morphologic changes.
...
PMID:Imaging early steps of human T cell activation by antigen-presenting cells. 134 19

The functional relevance of a direct ethanol effect on the membrane structure of T lymphocytes and accessory cells (APC), as well as on signal transduction systems was studied in ten normal subjects. Ethanol incubation (80 mM for 24h) of highly purified T cells increased the number of CD4+/CD45RA+ lymphocytes. In contrast, ethanol exposure induced a drop in CD14+/LFA-3+ APC values. These changes were accompanied by faulty T-cell proliferation in response to anti-CD3 and anti-CD2 mAb and inhibition of CD3- and CD2-mediated rises in intracellular calcium and, to a lesser extent, inositol 1,4,5-triphosphate levels. These data clearly indicate that a membrane-specific ethanol interaction both modifies surface glycoproteic and/or glycolipidic structures and alters transmembrane transduction of the activation signals.
...
PMID:Ethanol-induced CD3 and CD2 hyporesponsiveness of peripheral blood T lymphocytes. 136 75

Although ligation of the CD3/TCR complex initiates an activation signal in T cells, additional costimulatory signals generated during cell-to-cell interactions with APC transduced via ligation of CD11a/CD18 and CD28 by their specific counter-receptor intercellular adhesion molecule (ICAM)-1 and B7, respectively, are required for optimal T cell proliferation and cytokine synthesis. Using soluble IgC gamma 1 fusion proteins of these costimulatory counter-receptors, we have recently shown that unactivated resting CD4+ T cells and Ag-primed CD4+ T cells differ in their response to the costimulation by ICAM-1 and B7. Preferential proliferative responses of resting T and Ag-primed T cells to ICAM-1 and B7, respectively, prompted us to speculate that ICAM-1-induced signals may regulate coupling of the CD28 signaling pathway. Furthermore, both B7 and ICAM-1 are co-expressed on APC and thus, may co-regulate activation-driven maturation of T cells. In this study, we have examined regulatory effects of IgC gamma 1 fusion proteins of B7, ICAM-1, and ICAM-2 (a homologue of ICAM-1) on each other's costimulation. We first demonstrate that TCR-directed costimulation of resting CD4+ T cells with ICAM-1 (ICAM-1 priming) but not ICAM-2 induces increased responsiveness to B7. Priming of CD4+ T cells with ICAM-1 induced higher expression of both CD18 and CD28 than that with either B7 or ICAM-2. Cross-linking of CD28 induced faster and significantly higher cytoplasmic free calcium mobilization response in ICAM-1-primed CD4+ T cells than in resting, B7-primed, or ICAM-2-primed CD4+ T cells. B7 synergized with ICAM-1 but not ICAM-2 to augment proliferative responses of not only resting CD4+ T cells but also those that had been primed with either ICAM. Unlike resting or ICAM-2-primed CD4+ T cells, ICAM-1-primed CD4+ T cells efficiently proliferated in response to the synergistic costimulation of B7 and ICAM-2. In contrast, both ICAM-1 and ICAM-2 inhibit B7-driven proliferation of Ag-primed CD4+ T cells. Thus, B7 and ICAM-1 exert contrasting regulatory effects on the proliferation of CD4+ T cells depending on their state of activation-induced maturation.
...
PMID:Differential regulatory effects of intercellular adhesion molecule-1 on costimulation by the CD28 counter-receptor B7. 138 17

Bacterial enterotoxin superantigens bind directly to HLA class II molecules (HLA-DR) expressed on both APC and activated human T cells, and simultaneously bind to certain V beta chains of the TCR. In this report, we compared early T cell signaling events in human alloantigen-stimulated T cells when activated by HLA-DR ligation through antibody cross-linking or by direct enterotoxin superantigen binding. Both types of stimuli induced tyrosine phosphorylation of phosphatidylinositol-specific phospholipase C gamma 1 (PLC gamma 1) and an increase in intracellular calcium concentration; however, superantigen-induced signaling was stronger than class II ligation alone. Antibody-mediated ligation of HLA-DR with CD3 resulted in augmented PLC gamma 1 activation and increased calcium mobilization, consistent with a mechanism of superantigen activity through a combination of class II and CD3/Ti signals. In addition, down-modulation of CD3 receptors with antibody demonstrated that superantigen-induced signaling events were CD3-dependent. Superantigen signaling was also class II-dependent, in that resting T cells were not responsive to direct enterotoxin stimulation. To address how early signal transducing activity correlated with T cell responsiveness, alloantigen-primed T cells were activated with immobilized class II-specific mAb or soluble superantigen. Both HLA-DR mAb-stimulated T cells and enterotoxin-treated T cells proliferated strongly in response to co-stimulation by a combination of CD28 receptor engagement and PMA addition. In addition, superantigen-induced growth was induced by CD28 receptor ligation with antibody or the B7 counter-receptor expressed on Chinese hamster ovary cells. Taken together, these results indicate that class II molecules expressed on activated T cells are directly coupled to the PLC gamma 1 signal transduction pathway, and that coligation of HLA-DR with CD3 augments T cell signaling comparable to that induced by enterotoxin superantigen. Thus, we suggest that superantigen-induced early signaling responses in activated T cells may be due in part to class II transmembrane signals induced when HLA-DR and V beta are ligated in cis.
...
PMID:Superantigen and HLA-DR ligation induce phospholipase-C gamma 1 activation in class II+ T cells. 138 26

Rate constants for human factor Va inactivation by activated human protein C (APC) were determined in the absence and presence of Ca2+ ions, protein S and varying concentrations of phospholipid vesicles of different lipid composition. APC-catalyzed factor Va inactivation in free solution (in the presence of 2 mM Ca2+) was studied under first-order reaction conditions with respect to both APC and factor Va and was characterized by an apparent second-order rate constant of 6.1 x 10(5) M-1 s-1. Stimulation of APC-catalyzed factor Va inactivation by phospholipids was dependent on the concentration and composition of the phospholipid vesicles. Optimal acceleration (230-fold) of factor Va inactivation was observed with 10 microM phospholipid vesicles composed of 20 mol% dioleoylglycerophosphoserine (Ole2GroPSer) and 80 mol% dioleoylglycerophosphocholine (Ole2GroPCho). At higher vesicle concentrations and at higher molar fractions of Ole2GroPSer some inhibition of APC-catalyzed factor Va inactivation was observed. Membranes that contained anionic phospholipids other than phosphatidylserine also promoted factor Va inactivation. The ability of different anionic lipids to enhance factor Va inactivation increased in the order phosphatidylethanolamine less than oleic acid less than phosphatidic acid less than phosphatidylglycerol less than phosphatidylmethanol less than phosphatidylserine. APC-catalyzed factor Va inactivation in the presence of phospholipid vesicles could be saturated with respect to factor Va and the reaction obeyed Michaelis-Menten kinetics. Both the Km for factor Va and the Vmax of factor Va inactivation were a function of the phospholipid concentration. The Km increased from 1 nM at 2.5 microM phospholipid (Ole2GroPSer/Ole2GroPCho 20:80, mol/mol) to 65 nM at 250 microM phospholipid. The Vmax increased from 20 mol factor Va inactivated.min-1.mol APC-1 at 2.5 microM phospholipid to 62 mol factor Va inactivated.min-1.mol APC-1 at 10 microM phospholipid and remained constant at higher phospholipid concentrations. Protein S appeared to be a rather poor stimulator of APC-catalyzed factor Va inactivation. Protein-S-dependent rate enhancements were only observed in reaction mixtures that contained negatively charged phospholipid vesicles. Independent of the concentration and the lipid composition of the vesicles, protein S caused a twofold stimulation of APC-catalyzed factor Va inactivation. This suggests that, in the human system, enhancement of APC binding to phospholipid vesicles by protein S is of minor importance. Considering that protein S is a physiologically essential antithrombotic agent, it is likely that other factors or phenomena contribute to the in vivo antithrombotic action of protein S.
...
PMID:The effect of phospholipids, calcium ions and protein S on rate constants of human factor Va inactivation by activated human protein C. 138 59

Bovine factor Va has been previously been shown to consist of heavy (M(r) = 94,000) and light chains (M(r) = 81,000), that interact in a manner dependent upon the presence of either calcium or manganese ions. In an attempt to understand the mechanism of subunit interaction we have studied the effects of temperature and ions on factor Va stability. The rates of formation of factor Va from isolated chains and dissociation were temperature-dependent with an energy of activation of 6.2 and 1.3 kcal mol-1, respectively. The yield of factor Va from isolated chains was inversely related to the amount of time the chains were incubated at 4 degrees C. Incubation of individual chains revealed that the heavy chain is cold-labile, an effect that is reversible. Manganese ion was observed to prevent the conversion to the inactive form. High salt tends to stabilize the two-chain structure of factor Va, but is inhibitory to its formation from isolated chains. High concentrations of either manganese or calcium ions also inhibited reconstitution of activity. The light chain, in particular, was sensitive to the presence of manganese or calcium ion. Heavy chain that had been cleaved by activated protein C had a weakened interaction with the light chain, and the resulting complex had no procoagulant activity. Cooling of the heavy chain to 4 degrees C enhanced its intrinsic fluorescence. Manganese ion prevented some of this enhancement. The heavy chain fluorescence returned to the room temperature value with a half-life of approximately 10 min. In the presence of manganese ion relaxation was accelerated. The intrinsic fluorescence of activated protein C-cleaved heavy chain was not increased when the temperature was decreased. These data suggest that the heavy chain can exist in two forms. Elevated temperature converts it to a form that can bind ions and have a productive interaction with the light chain. However, conditions that prevent the heavy chain from combining with the light chain also stabilize the two subunit structure, suggesting that the high affinity of the complex is due to conformational changes that occur after chain interaction.
...
PMID:Characterization of the interaction between the heavy and light chains of bovine factor Va. 140 Mar 6

Cathepsin G was used in vitro to digest human factor VII and factor IX. Clotting assays indicated that the proteinase affected a rapid loss in coagulant activity while in the presence of calcium ions the activity was almost totally protected. SDS-polyacrylamide gel electrophoresis indicated the removal of a peptide from each zymogen, VII-L from factor VII and IX-L from factor IX. This lead to the formation of VII-H and IX-H respectively. N-terminal analysis of the VII-H and IX-H products and COOH-terminal analysis of the VII-L and IX-L products confirmed that cathepsin G had cleaved position Phe40:Trp41 in factor VII and factor IX. The cleavage site is the same as that when cathepsin G is reacted with factor II, factor X and protein C. The unique action of cathepsin G may be part of a regulatory system for controlling the coagulant activity of vitamin K dependent clotting in vivo.
...
PMID:Cathepsin G, a regulator of human vitamin K, dependent clotting factors and inhibitors. 144 May 18

Protein Z is a vitamin K-dependent plasma protein of unknown function. Its modular structure is identical with those of factors VII, IX, X, and protein C. These proteins have an N-terminal gamma-carboxyglutamic acid (Gla)-containing module which binds six to ten Ca2+. In factors IX, X, and protein C, the adjacent epidermal growth factor (EGF)-like module binds one Ca2+ whereas the EGF-like module in protein Z does not. We have compared the Ca2+ binding properties of a fragment of protein Z comprising the Gla and N-terminal EGF-like modules (pZ-GlaEGFN) with those of intact protein Z and the isolated Gla module by measuring the Ca(2+)-induced quenching of the intrinsic protein fluorescence. The similar Ca2+ affinities of pZ-GlaEGFN and protein Z indicate that pZ-GlaEGFN has a native conformation and normal Ca2+ binding properties. A comparison of the Ca2+ binding to pZ-GlaEGFN with those to the corresponding fragments of factors IX, X, and protein C indicate that Ca2+ binding to the N-terminal EGF-like modules in the latter proteins does not influence the folding and Ca2+ binding properties of their Gla modules. Furthermore, the Ca(2+)-induced fluorescence enhancements of GlaEGF fragments from factors IX, X, and protein C appear to be caused by Ca2+ binding to the site in the EGF-like modules since it is not observed for pZ-GlaEGFN.
...
PMID:Comparison of the Ca2+ binding properties of the gamma-carboxyglutamic acid-containing module of protein Z in the intact protein and in N-terminal fragments. 145 4

Vitamin K-dependent protein S is an anticoagulant plasma protein serving as cofactor to activated protein C in degradation of coagulation factors Va and VIIIa on membrane surfaces. In addition, it forms a noncovalent complex with complement regulatory protein C4b-binding protein (C4BP), a reaction which inhibits its anticoagulant function. Both forms of protein S have affinity for negatively charged phospholipids, and the purpose of the present study was to elucidate whether they bind to the surface of activated platelets or to platelet-derived microparticles. Binding of protein S to human platelets stimulated with various agonists was examined with FITC-labeled monoclonal antibodies and fluorescence-gated flow cytometry. Protein S was found to bind to membrane microparticles which formed during platelet activation but not to the remnant activated platelets. Binding to microparticles was saturable and maximum binding was seen at approximately 0.4 microM protein S. It was calcium-dependent and reversed after the addition of EDTA. Inhibition experiments with monoclonal antibodies suggested the gamma-carboxyglutamic acid containing module of protein S to be involved in the binding reaction. An intact thrombin-sensitive region of protein S was not required for binding. The protein S-C4BP complex did not bind to microparticles or activated platelets even though it bound to negatively charged phospholipid vesicles. Intact protein S supported binding of both protein C and activated protein C to microparticles. Protein S-dependent binding of protein C/activated protein C was blocked by those monoclonal antibodies against protein S that inhibited its cofactor function. In conclusion, we have found that free protein S binds to platelet-derived microparticles and stimulates binding of protein C/activated protein C.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Binding of anticoagulant vitamin K-dependent protein S to platelet-derived microparticles. 146 47

The concentration of Ca2+ that produced 50% of the saturable intrinsic fluorescence change (C50) of wild-type (wt) recombinant (r) human protein C (PC) was 0.40 mM. The C50 for Ca2+ increased < 2.5-fold for the following r-PC variants (Gla is gamma-carboxyglutamic acid): [Gla6-->Asp]r-PC, [Gla7-->Asp]r-PC, [Gla14-->Asp]r-PC, [Gla19-->Asp]r-PC, or [Gla25-->Asp]r-PC, and approximately 4-6-fold for [Gla20-->Asp]r-PC and [Gla29-->Asp]r-PC. Much more dramatic increases in the C50 for Ca2+ were observed for [Gla16-->Asp]r-PC (> 75-fold) and [Gla26-->Asp]r-PC (ca. 30-fold). A substantially larger maximum fluorescence change (> 3-fold) as compared to that for wtr-PC, was also found in the case of the Ca2+/[Gla16-->Asp]r-PC complex, suggesting that the final Ca(2+)-induced conformation for this variant is dissimilar to that for wtr-PC and the above mutants. When a mutation was constructed at Arg15 ([Arg15-->Leu]r-PC), a residue conserved in all Gla-containing coagulation proteins, no fluorescence alteration occurred upon addition of Ca2+. The C50 for Ca2+ for promotion of the binding of the Ca(2+)-dependent, Gla-domain-directed, conformational monoclonal antibodies, JTC-1 and JTC-3, to wtr-PC was 3.0 and 4.0 mM, respectively. A similar C50 value was found for [Gla25-->Asp]r-PC. In the case of each antibody, approximately 4-6-fold higher C50 values for Ca2+ were found for the mutants; [Gla14-->Asp]r-PC, [Gla19-->Asp]r-PC, and [Gla29-->Asp]r-PC. Ca2+ did not promote binding of either of these antibodies to the following variants; [Gla6-->Asp]r-PC, [Gla7-->Asp] r-PC, [Arg15-->Leu]r-PC, [Gla16-->Asp]r-PC, [Gla20-->Asp]r-PC, and [Gla26-->Asp]r-PC. The results of this study suggest that adoption of the Ca(2+)-dependent conformation of PC is greatly dependent upon the presence of specific essential Gla residues, particularly those, namely Gla16 and Gla26, shown in the crystal structure of the prothrombin Gla domain/Ca2+ complex to be involved with coordination of Ca2+ ions not exposed to the surface. Of similar importance is Arg15. On the other hand, Gla residues at positions 14 and 19 are much less important in directing this same conformation. This finding is readily reconciled with the above crystal structure, which shows that these latter 2 residues are mainly responsible for coordination of a surface-exposed Ca2+ that is present at the end of the Ca(2+)-ion channel.
...
PMID:Influence of specific gamma-carboxyglutamic acid residues on the integrity of the calcium-dependent conformation of human protein C. 146 19

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>