EC:2.7.10.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
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Staphylococcal enterotoxins (SE) are known to be potent T cell activators, stimulating +/- proliferation and lymphokine production. These toxins have recently have been termed "superantigens" because of their ability to bind directly to class II molecules forming a ligand that interacts with particular V beta gene elements within the TCR complex. This interaction between SE and MHC class II molecules plays a central role in toxin-induced mitogenesis. In the present study we have examined the effect of polymorphism on the ability of MHC class II molecules to bind and present SE. Through the use of H-2 congenic mouse strains, it was possible to look directly at haplotype differences within the MHC and their effect on SE presentation to a panel of responsive V beta-bearing T cells. The results demonstrate that toxin presentation by class II-bearing accessory cells to murine T cells is greatly affected by polymorphisms within the H-2 complex. Toxin-pulsed accessory cells obtained from mice of an H-2k and H-2u haplotype were found to be less efficient in activating a variety of T cell clones and hybridomas. However, one T cell clone responded similarly to the enterotoxins presented on all H-2 haplotypes, suggesting that differences in responses of T cells are not simply a function of the degree of binding of these toxins to various class II molecules. Neutralization analysis with monoclonal anti-class II antibodies demonstrates that both I-A and I-E molecules play a significant role in SEA and SEB presentation to murine T cells. These results suggest that the differential activation of T cells by a particular enterotoxin may reflect a difference in recognition of an SE:class II ligand by a surface T cell receptor complex.
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PMID:Effect of isotypic and allotypic variations of MHC class II molecules on staphylococcal enterotoxin presentation to murine T cells. 131 22

The bacterial exotoxins staphylococcal enterotoxin A and B (SEA and SEB) mediate disease through their effects on T lymphocytes. In this manuscript we have demonstrated that both SEA and SEB can directly activate purified T cells in the absence of accessory cells as determined by a transition from G0 to G1 and induction of IL-2 receptor expression. However, neither SEA nor SEB alone was sufficient to result in T-cell proliferation. The induction of T-cell proliferation by SEB or SEA required the addition of a second costimulatory signal. This could be provided by either accessory cells or monoclonal antibody stimulation of CD28. As previously reported, T-cell proliferation induced by enterotoxin in the presence of accessory cells was partially inhibited by a blocking antibody against class II MHC. In contrast, in purified T cells when costimulation was provided through CD28, proliferation was not inhibited by class II antibody, and HLA-DR expression was not detectable. In addition, costimulation through CD28 was partially resistant to the effects of cyclosporin A. These results demonstrate that CD28 costimulation is sufficient to induce proliferation of enterotoxin-activated T cells, and that this effect is independent of class II MHC expression.
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PMID:CD28 and staphylococcal enterotoxins synergize to induce MHC-independent T-cell proliferation. 133 Mar 29

Bacterial encoded superantigens (SA) are capable of activating and targeting cytolytic human and mouse T lymphocytes (CTL) to lyse major histocompatibility complex class II positive (MHC class II+) target cells. In this study both in vitro and in vivo activated rat CTL were directed against MHC II+ tumor targets by bacterial encoded SA. Polyclonal in vitro activation of rat peripheral blood T lymphocytes generated CTL capable of killing MHC class II+ human BSM cells coated by staphylococcal enterotoxin (SE) -A, -E, -D, and TSST-1 but not by SEB or SEC1-3. Allo selective peritoneal CTL generated by intraperitoneal stimulation with allogeneic spleen cells were directed against BSM cells by SEA, -D, and -E but not by SEB, SEC1-3 or TSST-1. Based on the above observations, and in order to locally activate CTL, SEA was chosen for in vivo priming of rats by intraperitoneal inoculation of the toxin. SEA injection generated highly cytolytic CTL, and maximum cytolytic responses were seen at 50-250 micrograms SEA per animal with a peak in response 48-72 hours after injection of the toxin. The cytolytic activity of peritoneal SEA reactive effector cells was confined to the TCR alpha beta+ CD4- CD8+ CD45RC- cell population. MHC class II- colon carcinoma cells were insensitive to lysis by SEA reactive CTL but colon carcinoma cells induced to express MHC class II by interferon-gamma (IFN-gamma) treatment were efficiently lysed in the presence of SEA. Comparison of rat and human MHC II+ colon carcinomas revealed a peak in sensitivity to lysis at 10-100 ng SEA/ml for both tumor targets. These findings suggest that superantigens can be used in local immunotherapy of peritoneal tumors such as ovarian and colorectal carcinomatosis, with inducible or constitutive expression of MHC class II.
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PMID:Locally superantigen-activated peritoneal cytolytic T lymphocytes belong to the CD8+ CD45RC- subset and lyse MHC class II+ tumor cells. 148 9

The T cell-specific transmembrane glycoprotein CD4 interacts with class II MHC molecules via its external domain and is associated with tyrosine kinase p56lck via a cysteine motif in its cytoplasmic domain. We have assessed the ability of CD4 to synergize with the antigen-specific T cell receptor (TCR) for induction of transmembrane signals that result in lymphokine production. Mutant CD4 molecules were introduced into T cells that lacked endogenous CD4 but expressed TCRs specific for lysozyme peptides or the superantigen SEA bound to Ab or Abm12 class II MHC molecules. With either ligand, T cell activation occurred only when CD4 was associated with p56lck. These results demonstrate that residues within the cytoplasmic domain of CD4 are required for its coreceptor function in TCR-mediated signal transduction and strongly support the notion that the association of CD4 with p56lck is critical in this process.
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PMID:Requirement for association of p56lck with CD4 in antigen-specific signal transduction in T cells. 167 41

Four human ovarian and breast tumor lines expressing the HER2/neu oncogene were resistant to the cytotoxic and DNA-degradative activity of TNF. The resistance was not associated with altered TNF receptor function because Scatchard analysis of 125I-rTNF binding to HER2/neu-expressing target cells revealed receptors with normal binding parameters. Furthermore, the TNF receptors on the resistant lines were capable of signal transduction as evidence by the induction of ADP-ribose polymerase activity and MHC expression. TNF resistance was not reversed by coincubation with drugs that interrupted the glutathione redox cycle. In addition, although coincubation of HER2/neu-expressing targets with cycloheximide resulted in significant TNF-induced lysis, when compared to HER2/neu-nonexpressing targets similarly treated with cycloheximide, a significant relative resistance was still present. To investigate the role of ADP-ribosylation in the resistance of these targets, we used nontoxic concentrations of two inhibitors of ADP-ribose polymerase, 3-aminobenzamide, and nicotinamide. Both inhibitors completely reversed the resistance of HER2/neu-expressing targets to TNF-mediated cytotoxicity and DNA injury in a concentration-dependent fashion. These inhibitors of ADP-ribose polymerase did not act by down-regulating expression of HER2/neu oncogenes. In contrast, aminobenzamide and nicotinamide significantly diminished TNF-induced cytotoxicity of L929 targets. These data suggest that the activity of ADP-ribose polymerase may play a pivotal role in determining the fate of the target cell during exposure to TNF.
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PMID:Inhibitors of ADP-ribose polymerase decrease the resistance of HER2/neu-expressing cancer cells to the cytotoxic effects of tumor necrosis factor. 167 41

Rat T cells, like those of mouse and human origin, respond strongly to superantigens (SAg) derived from Staphylococcus aureus enterotoxins A and B (SEA, SEB). Lewis and ACI are high responders, whereas Brown Norway (BN) is a low responder. Congenic and back-cross rat studies indicate that the degree of responsiveness is controlled by at least one non-MHC gene. The action of these genes may reside in the antigen-presenting cells (APC), since both Sephadex G10 non-adherent BN spleen cells and purified BN T cells in the presence of Lewis APC can respond well to SE. Responses to concanavalin A (Con A) and SEA generally segregate together in back-cross rats. Surprisingly, the degree of responsiveness to Con A and SEA is not correlated with the susceptibility to experimental allergic encephalomyelitis (EAE) either in independently derived inbred rat strains or in (Lewis x BN) x BN back-cross rats.
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PMID:Genetic control of rat T-cell response to Staphylococcus aureus enterotoxins (SE). 176 96

Age-related changes manifested in MHC-linked recognition of bone marrow (BM) cells by the thymic stroma were studied in vitro model of thymus-BM chimeras. Fetal thymuses (FT) depleted of self-lymphocytes were colonized with BM cells from syngeneic and allogeneic donor mice. When cells from young (3-month-old) or old (24-month-old) donors syngeneic to the stroma were seeded in a mixture with cells of allogeneic young origins (C57BL/6J-Thy1.2 and ARK/J-Thy1.1 seeded onto C57BL/6J FT), the syngeneic cells showed an age-related developmental advantage. Accordingly, cells from the old syngeneic mice manifested a significantly reduced capacity to compete with allogeneic cells when compared with the young syngeneic cells. When allogeneic BM cells from young or old mice were seeded onto the thymic stroma in a mixture with BM cells from young donors syngeneic to that stroma (BALB/c-Thy1.2 mixed with C57BL/Ka-Thy1.1 seeded onto C57BL/6J or C57BL/Ka FT), the Thy1+ cells which developed were mainly of syngeneic origin. The age of the allogeneic cells had no significant effect on the results. However, when old allogeneic cells were mixed with old syngeneic cells, the developmental advantage of the syngeneic cells was not manifested. When seeding of allogeneic cells was followed 1 day later by seeding of syngeneic cells, the syngeneic advantage was eliminated, suggesting that the MHC-linked competition began during the first 24 hr of contact with the thymic tissue. When BM-derived thmocytes grown in FT explants were transferred onto second FT recipient explants of the same genotype as the first ones, the syngeneic advantage was abolished, suggesting either that the thymic microenvironment was modified as a result of colonization or that it induced a change in the BM cells. In this respect, the young allogeneic BM-derived thymocytes showed a significant advantage when compared with the old cells. Thus, the MHC-linked syngeneic preference in the early development of BM cells is also manifested in aging mice, yet at a level that is significantly reduced compared with that seen in the young mice.
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PMID:Interactions of bone marrow cells from young and old mice with syngeneic and allogeneic thymic tissue. 193 73

Three T cell clones derived from rabies virus-immunized BALB/c mice were analysed for specificity and function. The clones proved to be broadly cross-reactive by responding to different rabies virus isolates (PM, ERA, CVS, HEP) and other representatives of the genus Lyssavirus, like the Duvenhage-6 (DUV6) and Mokola (MOK) viruses. The clones detected three different epitopes: an epitope expressed on the matrix protein (M) shared by PM, HEP, MOK and DUV6 viruses (clone AA8), an epitope expressed on the M-protein shared by PM, ERA, CVS, HEP and MOK viruses (clone 35A) and finally an epitope expressed on the glycoprotein (G-protein) shared by PM, ERA, CVS, HEP and MOK viruses (clone BG2). Antigen recognition of all clones proved to be MHC-restricted and they all displayed the CD4+ CD8- phenotype. Intravenous inoculation of the T cells in syngeneic mice, which had been injected intracutaneously in the ear with HEP virus, resulted in a localized DTH reaction characteristic for TH1 cells. In vitro, the clones were able to provide help to rabies virus-primed B cells, resulting in the production of virus-specific antibodies directed against all the four structural proteins of rabies virus. Further analysis of this antibody response revealed that part of it was directed against antigenic determinants of the G-protein which induce virus neutralizing antibody.
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PMID:Rabies virus cross-reactive murine T cell clones: analysis of helper and delayed-type hypersensitivity function. 196 28

Staphylococcal enterotoxins (SE) and toxic shock syndrome toxin-1 bind directly to class II molecules of the MHC and stimulate T cells based predominantly on the V beta segment used by the TCR. We investigated the relationship between the class II binding affinities of four of these exotoxins, SEA, SEB, SEC1, and toxic shock syndrome toxin-1 and their T cell signaling capabilities. Although the toxins stimulated T cells at concentrations that ranged over more than two orders of magnitude, their affinities for class II (DR1) differed by less than sixfold. The affinities of the toxins predicted their capacity to stimulate resting T cells to proliferate. The binding affinities of the toxins for class II molecules indicated that at concentrations required for T cell stimulation, as few as 0.1% of the class II molecules are complexed with toxin. Finally, the isotype of class II molecules affected the ability of the toxins to bind and use these MHC Ag to stimulate T cells. These data thus demonstrate that of the staphylococcal exotoxins studied, both their potency as T cell mitogens and their ability to function in the presence of single class II isotypes can be attributed in part to their characteristic abilities to bind class II molecules.
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PMID:Staphylococcal exotoxin activation of T cells. Role of exotoxin-MHC class II binding affinity and class II isotype. 198 73

We have examined the responses of cloned T cell lines and of normal T cells to staphylococcal enterotoxins A, B, and C1 (SEA, SEB, and SEC1). SEA, SEB, and SEC1 are all very potent mitogens for T cells in the presence of Ia+ APC. The minimal activating dose of all these SE varies from 1 to 100 ng/ml. As determined by mAb blocking of the responses of both normal T cells and cloned T cell lines, SEA required either the I-A or the I-E molecule on APC for stimulating T cells, whereas SEB required the I-E molecule predominantly over I-A molecule. The TCR:CD4 complex is also involved in the response to SE. The responses to SEB and SEC1 were inhibited by anti-V beta 8 antibody F23.1, whereas the response to SEA and to PHA was not affected by this antibody. Anti-CD4 effectively inhibited responses to all SE but not to PHA. The involvement of the TCR was also confirmed by flow microfluorimetry analysis of T cell blasts responding to SE and the responses of a panel of cloned T cell lines, both of which showed that V beta 8+ T cells preferentially responded to SEB, whereas V beta 8+ T cells failed to respond to SEA. By using fixed APC, it could be shown that processing is not required for the presentation of SE. Furthermore, pulsing experiments showed that SEB can bind to relevant sites on either B cells or T cells, whereas with conventional Ag only prepulsing of the APC has worked. In one case, SEB activates a cloned T cell line in the absence of APC, and this same clone also responds directly to anti-V beta 8 antibody. Thus, SEB appears to bring together V beta 8-expressing TCR with the I-E molecule, whereas SEA apparently has the same effect on TCR expressing different V beta with either the I-A or the I-E molecule, probably depending upon which TCR is bound. The close resemblance between T cell responses to SE and those to mixed-lymphocyte stimulating (Mls) locus suggests to us that a novel SE-like protein that binds both to class II MHC molecules on the APC surface and to V beta gene products on TCR could be the product of the Mls locus.
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PMID:Bacterial proteins that mediate the association of a defined subset of T cell receptor:CD4 complexes with class II MHC. 213 3

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