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)

The in vitro response of unprimed rat T cells to retroviral and bacterial superantigens (SAg) was analyzed with TCR V beta 8.2-, 8.5-, 10-, and 16-specific mAbs. Specific stimulation of V beta 8.2 and 8.5 CD4 cells was observed in the response to Mls1a, the retroviral SAg encoded by integrated provirus Mtv-7 (Mtv-7 SAg), which was presented by mouse B cells or mouse fibroblasts transfected with DR1 genes and the Mtv-7 SAg. Additionally, a strong response of V beta 16 CD4 cells to an as yet unidentified mouse SAg was found. Only some of the bacterial SAg known to stimulate mouse and human T cells also activated rat lymph node cells. SEA, SEE, and TSST-1 stimulated rat T cells well; SEB, SEC1, and SED did not. This defect was apparently a result of weak binding to rat MHC class II molecules because presentation by human MHC class II molecules restored T cell activation. Under these conditions, SEB stimulated V beta 8.2+ and 8.5+ CD4 and CD8 cells from Lewis rats. A comparison of several rat strains revealed an unresponsiveness to SEB or Mtv-7 SAg for V beta 8.2 cells from F344 and DA rats. Determination of the nucleotide sequences of the Tcrb-V8.2 of these strains revealed differences between SAg-responsive and SAg-unresponsive Tcrb-V8.2 in seven amino acids, four of them located in the putative SAg contact site. The significance of these findings for the evolution of TCR-SAg interactions is discussed.
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PMID:Control of the rat T cell response to retroviral and bacterial superantigens by class II MHC products and Tcrb-V8.2 alleles. 815 53

Bacterial superantigens have two immunologically important features. They bind MHC class II molecules and stimulate T cells bearing certain V beta TCR phenotypes. Superantigens such as SEA, SEB, and TSST bind to each of the three HLA class II isotypes (DR, DQ, and DP). Allotypic variation seems to play an important role in superantigen binding to class II molecules, but the functional implications of these differences remain largely unknown. In the present investigation, we studied the effects of SEA, SEB, and TSST on allostimulation of HLA-DR-, DQ-, and DP-allospecific T-cell clones. To avoid direct stimulation of T-cell responses by the superantigens, SEA and/or SEB nonresponsive T-cell clones were selected. We show that SEA strongly inhibited DQ- and DP-specific T-cell responses. In contrast, SEB and TSST had only weak inhibitory effects. DR-specific T-cell responses were unaffected or only weakly inhibited by the superantigens tested. The inhibition appeared not to be due to induction of cytotoxicity or suppression of either T cells or EBV-LCLs by SEA. In conclusion, the bacterial superantigen SEA can block alloantigen-specific stimulation of T clones in vitro. These results suggest that SEA binds to certain MHC class II molecules in a way that prevents MHC-TCR interactions.
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PMID:Inhibition of allostimulated HLA-DQ and DP-specific T cells by staphylococcal enterotoxin A. 832 Jan 32

The development of autoimmune type I diabetes in the NOD mouse appears to be controlled by both genetic and environmental factors. This investigation was initiated to determine whether exogenous superantigens, as environmental factors, can influence the development of diabetes. Several staphylococcal enterotoxins (SE) (SEA, SEC1, SEC2, or SEC3), which are known superantigens, were injected i.v. into female NOD mice at 4 and 10 wk of age. At 32 wk of age, the incidence of diabetes in the SE-treated mice ranged from 6 to 12.5%; this was significantly lower than that of mice treated with PBS--64%. There was no significant difference in effectiveness among the various SE used. SE induced a modest decrease in T lymphocytes bearing specific V beta TCR 2 wk after injection, but this effect did not persist past 4 wk. To elucidate the mechanism of the SE effect, suppressor activity in SE-treated mice was evaluated. Splenocytes from SE-treated mice inhibited the transfer of diabetes by splenocytes from acutely diabetic NOD mice when injected into irradiated young NOD mice; only 10% became diabetic. In contrast, 83% of the mice receiving splenocytes from PBS-treated control mice became diabetic. Suppressor activity of splenocytes from SE-treated mice was diminished by the depletion of CD4+ T cells, but not by the depletion of CD8+ T cells, indicating that the suppressor cells belonged to the CD4+ T class of lymphocytes. On the basis of these observations, we conclude that exogenous superantigens activate CD4+ suppressor T cells, leading to the prevention of autoimmune type I diabetes in NOD mice.
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PMID:Prevention of autoimmune type I diabetes by CD4+ suppressor T cells in superantigen-treated non-obese diabetic mice. 840 8

Human TCR gamma delta positive T cells can proliferate in response to stimulation with staphylococcal enterotoxins (SEs) or mediate lysis of SE pulsed target cells. In the small number of studies reported, the proliferative response of gamma delta T cells was limited to V gamma 9 negative cells and, in vitro, such responses do not require the presence of MHC class II molecules for antigen presentation. Proliferative responses have been found after stimulation with SEA, SEB and TSST. The cytolytic activity of gamma delta T cells can be mediated by two different mechanisms: either gamma delta T cells specifically interact with SEA pulsed target cells--this is most likely TCR mediated recognition--or gamma delta T cells mediate antibody dependent cellular cytotoxicity (ADCC). This latter reactivity depends on Fc-receptor expression by the gamma delta T cell clones and the presence of SE specific antibodies during the assay. So far cytotoxic gamma delta T cell reactivity has only been found against the highly homologous enterotoxins SEA and SEE. Finally, HLA-class II positive gamma delta T cell clones can present SE to other SE reactive T cells but appear to be relatively resistant to T cell mediated lysis. Taken together, TCR gamma delta positive T cells are able to respond to a number of bacterial superantigens and may therefore be involved in local immune responses to such antigens. This may be especially relevant for those gamma delta T cell subpopulations that are preferentially found in the (intestinal) epithelia where exposure to bacterial superantigens is likely to occur.
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PMID:Gamma delta T cell reactivity towards bacterial superantigens. 846 94

We have distinguished TSST-1 from SEA and SEB with respect to its in vivo effect on T cells, that is, SEA and SEB induce tolerance in treated mice whereas injection of TSST-1 does not result in tolerance. Therefore, previous observations which relate superantigens to the suppression of reactive V beta TCR T cells seem difficult to generalize to all bacterial superantigens. Since the effects of superantigens are beginning to be exploited for immunotherapy, the differences between TSST-1 and SEB in terms of induction of tolerance suggest that all superantigens may not generally be useful in this respect. Each superantigen obviously should be studied in vivo in respect to T cell tolerance induction.
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PMID:Not every superantigen induces tolerance in vivo. 846 96

Ligation of major histocompatibility complex (MHC) class II antigens expressed on antigen-activated human CD4+ T-lymphocytes induces early signal transduction events including the activation of tyrosine kinases, the tyrosine phosphorylation of phospholipase-C gamma 1 and the mobilization of intracellular calcium. Similar responses have been observed in B-cells following stimulation of MHC class II molecules, including the increased production of intracellular cAMP. In this report, we demonstrate that the ZAP-70 tyrosine kinase is a responsive signaling element following cross-linking of HLA-DR in class II+ T-cells, and that the homologous tyrosine kinase p72syk is stimulated in B-cells following ligation of class II antigens. Antibody mediated co-ligation of the T-cell antigen receptor (TCR/CD3) with class II molecules resulted in augmented tyrosine phosphorylation of ZAP-70. Comparable to antibody induced receptor ligation, bacterial superantigen (SEA and SEB) treatment of HLA-DR+ T-cells stimulated ZAP-70 tyrosine phosphorylation, consistent with class II transmembrane signaling by ligation of HLA-DR and V beta in cis. Modulation of the TCR/CD3 led to abrogation of class II induced ZAP-70 tyrosine phosphorylation, but did not result in sequestering of ZAP-70 from the cellular cytoplasm. Hyperphosphorylated ZAP-70 was associated with TCR/CD3 zeta-chain following cross-linking of HLA-DR, suggesting a mechanism for the TCR/CD3-dependence of class II induced signals in alloantigen-activated human T-cells. In both tonsillar B-lymphocytes and B-cell leukemia lines, p72syk was rapidly phosphorylated on tyrosine residues following HLA-DR cross-linking. Tyrosine phosphorylation of p72syk induced through ligation of either the B-cell antigen receptor or class II molecules was potently inhibited by herbimycin A. MHC class II ligation on B-lymphocytes resulted in cell death, which was both qualitatively distinct from Fas-induced apoptosis and partially protected by herbimycin A pretreatment. Thus, ligation of MHC class II molecules expressed on human lymphocytes stimulates the ZAP-70/p72syk family of tyrosine kinases, leading functionally to a tyrosine kinase-dependent pathway of receptor-induced cell death.
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PMID:ZAP-70 and p72syk are signaling response elements through MHC class II molecules. 852 73

TCR engagement stimulates the activation of the protein kinase Raf-1. Active Raf-1 phosphorylates and activates the mitogen-activated protein (MAP) kinase/extracellular signal-regulated kinase kinase 1 (MEK1), which in turn phosphorylates and activates the MAP kinases/extracellular signal regulated kinases, ERK1 and ERK2. Raf-1 activity promotes IL-2 production in activated T lymphocytes. Therefore, we sought to determine whether MEK1 and ERK activities also stimulate IL-2 gene transcription. Expression of constitutively active Raf-1 or MEK1 in Jurkat T cells enhanced the stimulation of IL-2 promoter-driven transcription stimulated by a calcium ionophore and PMA, and together with a calcium ionophore the expression of each protein was sufficient to stimulate NF-AT activity. Expression of MEK1-interfering mutants inhibited the stimulation of IL-2 promoter-driven transcription and blocked the ability of constitutively active Ras and Raf-1 to costimulate NF-AT activity with a calcium ionophore. Expression of the MAP kinase-specific phosphatase, MKP-1, which blocks ERK activation, inhibited IL-2 promoter and NF-AT-driven transcription stimulated by a calcium ionophore and PMA, and in addition, MKP-1 neutralized the transcriptional enhancement caused by active Raf-1 and MEK1 expression. We conclude that the MAP kinase signal transduction pathway consisting of Raf-1, MEK1, and ERK1 and ERK2 functions in the stimulation IL-2 gene transcription in activated T lymphocytes.
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PMID:MEK1 and the extracellular signal-regulated kinases are required for the stimulation of IL-2 gene transcription in T cells. 855 75

Age-related changes in the functional properties of human T cells are well described, but less is known about possible changes in T cell signaling pathways. The signaling pathways mediated by mitogen-activated protein kinases (MAPK) are considered essential for normal cellular growth and function. Several stimuli trigger MAPK activation in human T cells and MEK (MAPK or ERK kinases) are immediate upstream inducers of MAPK activation. The current study investigated if aging might influence the activation and expression of MAPK and MEK in human T cells. Exposure of peripheral blood T cells from young subjects to PHA or cross-linked anti-CD3 monoclonal antibodies stimulated rapid increases in MAPK and MEK enzymatic activity. By contrast, significant reductions of MAPK and MEK activation were observed in stimulated T cells from 7 of 13 elderly subjects. Kinetic studies showed that the age-related impairments represented reduction in both the levels and duration of MAPK activation. In addition, Western immunoblot analysis did not reveal significant age-related differences in T cell expression of p42mapk/ERK2, p44mapk/ERK1, or MEK, suggesting impairments in upstream inducers of MEK/MAPK activation. Other experiments determined if agents that directly stimulate upstream Ras or Raf kinase components of the early MAPK cascade might reverse the age-related impairments of MAPK activation. Treatment of elderly T cells with fluoroaluminate (AlF(-)4), phorbol esters/Ca2+ ionophores, or okadaic acid stimulated increased MAPK activation compared to anti-CD3. However, these agents failed to restore MAPK activation in elderly T cells to the levels seen in young T cells. These results suggest that aberrancies in the MAPK activation cascade may underlie the age-related reductions of MAPK activation in human T cells stimulated via the TCR/CD3 complex.
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PMID:Age-related reductions in the activation of mitogen-activated protein kinases p44mapk/ERK1 and p42mapk/ERK2 in human T cells stimulated via ligation of the T cell receptor complex. 864 Aug 66

The transcription factor, Nuclear Factor of Activated T cells (NFAT) is a major target for p21ras and calcium signalling pathways in the IL-2 gene and is induced by p21ras signals acting in synergy with calcium/calcineurin signals. One p21ras effector pathway involves the MAP kinase ERK-2, and we have examined its role in NFAT regulation. Expression of dominant negative MAPKK-1 prevents NFAT induction. Constitutively active MAPKK-1 fully activates ERK-2 and the transcription factor Elk-1, but does not substitute for activated p21ras and synergize with calcium/calcineurin signals to induce NFAT. Expression of dominant negative N17Rac also prevents TCR and p21ras activation of NFAT, but without interfering with the ERK-2 pathway. The transcriptional activity of the NFAT binding site is mediated by a complex comprising a member of the NFAT group and AP-1 family proteins. The induction of AP-1 by p21ras also requires Rac-1 function. Activated Rac-1 could mimic activated p21ras to induce AP-1 but not to induce NFAT. Moreover, the combination of activated MAPKK-1 and Rac-1 could not substitute for activated p21ras and synergize with calcium signals to induce NFAT. Thus, p21ras regulation of NFAT in T cells requires the activity of multiple effector pathways including those regulated by MAPKK-1/ERK-2 and Rac-1.
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PMID:Multiple p21ras effector pathways regulate nuclear factor of activated T cells. 867 Aug 97

Previous studies identified three COOH-terminal residues in staphylococcal enterotoxin E (SEE; Asp200, Pro206, and Asp207) that in part mediate TCR V beta recognition. We have identified an additional three residues near the NH2-terminus of SEE (Arg20, Asn21, and Ser24 that are needed in conjunction with these COOH-terminal residues to fully restore native levels of V beta-specific T cell proliferation. A staphylococcal enterotoxin A SEA-SEE hybrid molecule containing the NH2-terminal V beta determinants of SEE to activate alone exhibited V beta specificities of both SEA and SEE, indicating that these residues of SEE independently contribute to V beta recognition and do not obscure the native V beta determinants of SEA. These findings suggest that the ability of SEE to activate certain V beta-specific T cell subsets may result from multiple interactions with a single TCR beta-chain or perhaps by cross-linking two TCR. High affinity binding to HLA-DR1, a property of native SEA, was not altered in the SEA-SEE hybrid enterotoxins containing amino acid substitutions in regions 20 to 24 and 200 to 207, indicating that residues comprising the V beta determinants of SEE are separate from residues that contribute to HLA-DR1 binding affinity. Computer models of the predicted structure of SEE revealed that the V beta determinants of SEE are located on two adjacent solvent-exposed loops. Thus, the residues of SEE that mediate V beta recognition may coalesce to form a TCR binding site with specificities for multiple TCR beta-chains.
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PMID:Residues near the amino and carboxyl termini of staphylococcal enterotoxin E independently mediate TCR V beta-specific interactions. 869 Sep 7

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