EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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 superantigen SEA binds to MHC class II molecules and activates a large fraction of T cells as a result of interaction with particular TCR-V beta sequences. MHC class II transfected CHO cells induce a marginal CD4+ T-cell proliferation in the presence of SEA. CHO cells transfected with both MHC class II and LFA-3 (HLA-DR4/LFA-3 double transfectants) supported a vigorous T-cell proliferation and required 1000-fold lower SEA concentration than DR4-transfected cells. DR4/LFA-3 double transfectants presenting SEA to CD4+ T cells induced large amounts of IFN-gamma, while single DR4 transfectants failed to elicit IFN-gamma production. CD4+45RA+ naive T cells proliferated much more strongly compared with CD4+45R0+ memory T cells when SEA was presented by the DR4/LFA-3-transfected cells. In contrast, IFN-gamma production was only detected in CD4+45R0+ memory cells. The enhanced proliferation by the CD4+45RA+ naive T cells was not due to a stronger binding to the accessory DR4/LFA-3 cells. Human CD4+ T-cell lines mediated a low level of SEA-dependent cell-mediated cytotoxicity (SDCC) against DR4 target cells, whereas a strong SDCC was mediated against DR4/LFA-3-expressing target cells. These results demonstrate that superantigen-activated human CD4+ T cells require the adhesion molecule LFA-3 for optimal stimulation and that the CD4+ naive and memory T-helper cells are different in their response to LFA-3 as an accessory molecule.
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PMID:The LFA-3 adhesion pathway is differently utilized by superantigen-activated human CD4+ T-cell subsets. 138 Jan 80

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 capacity of staphylococcal enterotoxins to stimulate all T cells bearing certain TCR variable region alleles has generated a great deal of interest. This stimulation appears to involve specific binding of the toxin to class II molecules and subsequent stimulation of the T cell via the TCR V beta elements. Recent studies from our laboratory have focused on the ability of staphylococcal enterotoxins to directly activate purified lymph node T cells and a panel of T cell clones and hybridomas. A T cell costimulation assay was performed to assess cellular activation requirements and cytokine receptor expression. Activation of highly purified lymph node T cells by staphylococcal enterotoxin B (SEB) required costimulatory signals which could be provided by IL-1, IL-2, IL-4, or IL-6, whereas SEB alone demonstrated no significant proliferative response. Using a panel of TH1 and TH2 cell clones and T cell hybridomas possessing various responsive and nonresponsive V beta alleles, it was possible to demonstrate that SEA and SEB costimulate T cells via the TCR complex. Additionally, enterotoxin-pretreated T cells demonstrated a significant proliferative response upon exposure to class II-bearing accessory cells, suggesting that these toxins bind directly to T cells. Highly purified T cells cultured with both SEB and IL-1 exhibit significantly increased levels of IL-2 receptor, whereas cells cultured with SEB or IL-1 alone demonstrated low levels of this receptor. These results do not exclude an association of the staphylococcal enterotoxins with class II molecules in a manner which results in a high avidity binding to the TCR required for transduction of the appropriate activation signals. In the absence of class II molecules, however, these superantigens can still bind to T cells, and the activation signal is delivered in the presence of cytokines that trigger T cell growth and lymphokine production.
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PMID:Direct activation of murine T cells by staphylococcal enterotoxins. 154 63

There is now convincing evidence for the imposition of self tolerance by means of the clonal deletion of self-reactive T cells operating within the thymus. Since not all self components may be encountered there, the question must be asked whether tolerance can occur post-thymically. To test this, we and other investigators have used transgenic technology to direct expression of a known "nonself" gene to a given extrathymic tissue. No lymphocytic infiltration was ever seen in transgene-expressing tissues, even if the mice were given normal syngeneic (nontransgenic) spleen cells intravenously or were stimulated with H-2Kb spleen cells. Infiltration did, however, occur in irradiated transgenic recipients of H-2Kb immune spleen cells. In MET-Kb mice, this infiltrate diminished with time, raising the possibility that peripheral tolerance may even have been induced in immune cells. H-2Kb-bearing skin was accepted in young RIP-Kb mice but rejected in older mice, which had lost more than 75% of their beta cells as a result of the overexpression of H-2Kb. This loss of tolerance thus occurred when the concentration of the tolerogen, H-2Kb, fell below some critical threshold. Following in vitro stimulation, spleen cells from young RIP-Kb mice could not kill H-2Kb-bearing targets, but could respond to third party targets. Thymus cells, on the other hand, could be stimulated to kill both targets, clearly indicating that tolerance was not imposed intrathymically. Spleen cells from older RIP-Kb mice (those that had lost most of their beta cells) killed both targets, which is in agreement with the in vivo data. Reactivity to H-2Kb was restored to young spleen cells by providing them with IL-2. Two hypotheses were proposed to account for the above findings: tolerance results either from the deletion or functional silencing of high-affinity effector cells or of regulatory, IL-2-producing helper T cells. As it is difficult to distinguish between these, we have produced a second series of transgenic mice (F3+) with rearranged TCR genes encoding an anti-H-2Kb TCR and derived "double-transgenic" (F3+RIP+) offspring by mating these mice with RIP-Kb mice. The transgenic TCR utilized the V beta 11 segment which can be detected by a monoclonal antibody. There were in the thymus very few CD4+ and very few CD4+8+ cells in both F3+ and F3+RIP+ mice and, in the double-transgenic mice, there was no evidence of deletion of CD8+V beta 11+ cells in the periphery although they showed tolerance to H-2Kb-bearing skin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A transgenic approach to the study of peripheral T-cell tolerance. 193 38

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

Attempts have been made to induce cytolytic T cells to kill target cells that do not express the appropriate target molecules by crosslinking the T cells and the target cells in various ways. One successful strategy has been to use heteroconjugates or bispecific monoclonal antibodies reacting with T cell molecules with activating properties (e.g., mab directed to CD3/TCR) and target cell surface antigens. In this report we show that Staphylococcal enterotoxins (SE) direct human T lymphocytes to execute cytotoxicity toward MHC class II-expressing Raji cells, but not against MHC class II-deficient Raji mutant RJ 2.2.5. Both HLA-DR+ and HLA-DR- effector T lymphocytes are effective in the killing of Raji cells coated with SE. The Staphylococcal enterotoxin-dependent cell-mediated cytotoxicity (SDCC) is a rapid T lymphocyte-mediated cytolytic mechanism killing the targets within an hour of incubation. HLA-DR+ target cells are sensitized to be killed within minutes of incubation with picomolar concentrations of SE. SE-sensitized Raji cells remain targets for SDCC after overnight culture at 37 degrees C, demonstrating that the sensitive state is relatively stable. SEA- and SEB-selective cytolytic T cell lines were established to illustrate the clonal variability of SDCC effectors with respect to SE specificity. We also demonstrate that autologous monocytes and activated T lymphocytes as well as B lymphocytes and freshly prepared HLA-DR+ leukemic cells are excellent targets in SDCC.
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PMID:Staphylococcal enterotoxins direct and trigger CTL killing of autologous HLA-DR+ mononuclear leukocytes and freshly prepared leukemia cells. 238

Interaction of staphylococcal exotoxins (SE) with MHC class II molecules plays a central role in the activation of immune cells by SE. We have recently demonstrated directly that toxic shock syndrome toxin-1 (TSST-1) binds to MHC class II molecules with high affinity, and similar results have been reported for SEA and SEB. The ability of T cells to respond to individual SE is associated with the expression of particular TCR-V beta gene elements. In the present study we have examined the effect of polymorphism on the ability of MHC class II molecules to bind SEB and TSST-1. We have used a panel of L cell transfectants that express different allelic forms of each of the three human class II isotypes. Radioligand binding assays detected binding of SEB and TSST-1 to most, but not all of the MHC class II molecules examined. Toxin-driven MHC class II-dependent T cell proliferation occurred with all transfectants examined even in the absence of detectable toxin binding. These results indicate that SE can bind to human MHC class II molecules of diverse phenotypes.
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PMID:Effect of isotypes and allelic polymorphism on the binding of staphylococcal exotoxins to MHC class II molecules. 240 64

Superantigens have been suggested to act as powerful TCR V beta-specific inducers of T cell reactivity in autoimmune diseases. We have investigated the capacity of staphylococcal enterotoxins (SE) to prime autoreactive T cell responses in naive animals in the Lewis rat model of experimental autoimmune encephalomyelitis (EAE), where myelin basic protein (MBP)-specific CD4+ effector T cells express almost exclusively V beta 8.2 TCR elements. By taking advantage of the reactivity of V beta 8.2+ MBP-specific T cells to SEE but not to other SEs in vitro, we estimated the potential of different SEs (SEA, SEB, and SEE) to induce a primary T cell response to soluble MBP in vivo. Upon immunization of naive rats with soluble MBP alone or MBP and SEB (which is only a very weak superantigen for rat T cells), no MBP-responses could be retrieved. Similarly, when coimmunizing naive rats with MBP and V beta 8.2-activating SEE, no autoreactivity was inducible. By contrast, coimmunization of animals with soluble MBP and the superantigen SEA that is strongly activating various T cell subpopulations in Lewis rats but not V beta 8.2+ (i.e., potentially MBP reactive) T cells led to a significant primary MBP-specific T cell autoreactivity. These SEA-induced MBP-reactive T cells expressed V beta 8.2 TCRs at levels similar to those seen in autoreactive T cells conventionally induced by immunization with MBP administered in complete Freund's adjuvant (CFA) and could induce disease in a transfer model of EAE. Thus, our results are consistent with the notion that superantigens are able to induce primary T cell responses to soluble autoantigens by a non-V beta specific mechanism of bystander priming.
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PMID:Superantigens induce primary T cell responses to soluble autoantigens by a non-V beta-specific mechanism of bystander activation. 753 95

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