EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Signals induced by the TCR and CD28 costimulatory pathway have been shown to lead to the inactivation of the constitutively active enzyme, glycogen synthase kinase-3 (GSK3), which has been implicated in the regulation of IL-2 and T cell proliferation. However, it is unknown whether GSK3 plays a similar role in naive and memory CD4(+) T cell responses. Here we demonstrate a divergence in the dependency on the inactivation of GSK3 in the proliferative responses of human naive and memory CD4(+) T cells. We find that although CD28 costimulation increases the frequency of phospho-GSK3 inactivation in TCR-stimulated naive and memory CD4(+) T cells, memory cells are less reliant on GSK3 inactivation for their proliferative responses. Rather we find that GSK3beta plays a previously unrecognized role in the selective regulation of the IL-10 recall response by human memory CD4(+) T cells. Furthermore, GSK3beta-inactivated memory CD4(+) T cells acquired the capacity to suppress the bystander proliferation of CD4(+) T cells in an IL-10-dependent, cell contact-independent manner. Our findings reveal a dichotomy present in the function of GSK3 in distinct human CD4(+) T cell populations.
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PMID:Antigenic experience dictates functional role of glycogen synthase kinase-3 in human CD4+ T cell responses. 1905 Feb 53

Signal transduction by the cAMP/cAMP-dependent protein kinase A (PKA) pathway is triggered through multiple receptors and is important for many processes in a variety of cells. In T cells, the engagement of the TCR-CD3 complex induces cAMP, a second messenger that controls immune response. IL-10, produced by a variety of lymphocyte subpopulations, is an important regulator of this response exerting a wide range of immunomodulatory actions. Elevation of cAMP has been shown to increase IL-10 production by monocytes. However, the mechanism of cAMP mediated regulation of IL-10 production by T lymphocytes remains unclear. In this study using normal peripheral T lymphocytes stimulated either through the TCR-CD3 complex or the TCR-CD3 and the CD28 molecule, we show that IL-10 is produced mainly by memory T lymphocytes after either way of stimulation and is drastically inhibited (70-90%) by cAMP elevating agents. cAMP mediated inhibition was reversed by the use of the specific PKA inhibitor Rp-8-Br-cAMP but not by the addition of exogenous rhIL-2, indicating that the inhibitory effect depends on PKA activation and is not secondary to IL-2 inhibition. Inhibition is taking place at both transcriptional and posttranscriptional level. Transfection of a luciferase reporter plasmid carrying the IL-10 promoter in T cells, revealed that TCR/CD28-induced activation was inhibited by 60% by cAMP elevation. The most sensitive part to cAMP mediated inhibition was a fragment of 135 bp upstream of TATA box, which contains multiple binding sites for MEF-2. Overexpression of MEF-2 in the same cells increased IL-10 promoter activity by 2.5-fold. Stimulation through TCR/CD28 increased MEF-2 binding in its corresponding binding sites which was inhibited by 80% in the presence of cAMP elevating agents. These results suggest that the inhibitory effect of cAMP on IL-10 production by normal peripheral T lymphocytes is cell type and stimulus specific, exerted on multiple levels and involves MEF2 transcription factor.
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PMID:cAMP regulates IL-10 production by normal human T lymphocytes at multiple levels: a potential role for MEF2. 1905 54

IL-2 plays a key role in setting the balance between immunity and tolerance. This cytokine has a dual role as the regulator of the two main phases of the immune response (proliferative and suppressive). Likewise, activation induced cell death and the induction and maintenance of regulatory T cells are the tolerance mechanisms regulated by IL-2, which convey the link between IL-2 abnormalities and the development of autoimmune disorders, such as systemic lupus erythematosus (SLE). Particularly, in SLE murine models and in humans, deficiency in IL-2 synthesis and activity has been proven. Diverse signaling pathways abnormalities (TCR, NF-kappaBeta, NF-AT) have been involved in the IL-2 transcriptional dysregulation displayed by T cells from SLE patients, and its functional relevance as part of the physiopathogenic scheme has been shown. Aberrant expression and activity of multiple IL-2 transcriptional factors, such as c-fos, and predominantly, CREM and CREB have been involved in this immune dysregulation. Diverse alterations in signaling kinases and phosphatases (PKA, PP2A, CAMKIV) and the modulation by epigenetic mechanisms have been related to the altered CREM/pCREB index. The synergic effect of multiple abnormalities in the transcriptional factors previously mentioned has been shown to be of functional relevance in lupus.
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PMID:Interleukin 2 and systemic lupus erythematosus: beyond the transcriptional regulatory net abnormalities. 1926 52

Correlation between protein kinase Ctheta focusing within the central supramolecular activation cluster (cSMAC) of the immunological synapse and optimal TCR/costimulatory receptor ligation was interpreted to imply that PKCtheta focusing is required for productive signaling. However, this notion has been called into question and competing data suggest that the cSMAC contributes to receptor down-modulation. The observation that PKCtheta focusing at the cSMAC is promoted by CD28 coligation, and also that it occurs late after proximal tyrosine phosphorylation events have been initiated, has led us to investigate an alternative possibility that PKCtheta focusing might be a consequence rather than a cause of productive integrated signaling. Indeed, we found that inhibition of the downstream signaling molecules MEK and PI3K (but not of calcineurin, NF-kappaB, JNK, or p38 MAPK) significantly prevented the focusing of PKCtheta at the cSMAC. It recently has been suggested that the cSMAC may be associated with TCR degradation and signal termination. Using MEK inhibition as a tool, we observed that absence of detectable PKCtheta focusing had no significant effect on TCR down-modulation or duration of CD3zeta phosphorylation. Our results suggest that PKCtheta focusing at the cSMAC occurs as a consequence of productive integrated downstream signaling at least at the level of MEK. If PKCtheta focusing accurately reflects the cSMAC as a whole, then our data also argue against the cSMAC as being required for proximal TCR signal termination.
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PMID:Protein kinase Ctheta focusing at the cSMAC is a consequence rather than cause of TCR signaling and is dependent on the MEK/ERK pathway. 1941 53

Opioids are widely used for the treatment of severe pain. However, it is also known that opioids, in particular morphine, cause immunosuppression. Therefore, their use may complicate treatment of persons with an already impaired immune system, e.g., patients suffering from cancer or AIDS. We investigated the mechanisms of opioid-induced immunosuppression in primary human T lymphocytes and the human T cell line Jurkat. We demonstrated that morphine and the endogenous opioid beta-endorphin inhibited the transcription of IL-2 in activated human T lymphocytes as well as the activation of the transcription factors AP-1, NFAT, and NF-kappaB, which transactivate IL-2. In addition, the TCR-induced calcium flux and MAPK activation were inhibited by the opioids, as well as proximal signaling events, such as the phosphorylation of the linker for activation of T cells and Zap70. A more detailed characterization of the mechanism revealed that incubation of T cells with the opioids caused a marked increase in cAMP. This in turn activated protein kinase A, which augmented the kinase activity of C-terminal Src kinase bound to phosphoprotein associated with glycosphingolipid-enrich microdomains, resulting in a further enhancement of the tonic inhibition of the leukocyte-specific protein tyrosine kinase Lck, thereby blocking the initiation of TCR signaling. These effects were mediated by mu opioid receptors. Our findings contribute to the understanding of immunosuppressive side effects of morphine. Since beta-endorphin is expressed and secreted by immune effector cells, including T cells, and up-regulated in these cells by various stimuli, our data also suggest an inhibitory role for beta-endorphin in the physiological regulation of T cell activation.
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PMID:Mechanisms of opioid-mediated inhibition of human T cell receptor signaling. 1956 Nov 13

We recently reported that the dual-specificity AKAP (A-kinaseanchoring protein) Ezrin targets type I PKA (protein kinase A) to the vicinity of the TCR (T-cell receptor) in T-cells and, together with PAG (phosphoprotein associated with glycosphingolipid-enriched membrane microdomains) and EBP50 [ERM (Ezrin/Radixin/Moesin)-binding phosphoprotein 50], forms a scaffold that positions PKA close to its substrate, Csk (C-terminal Src kinase). This complex is important for controlling the activation state of T-cells. Ezrin binds the adaptor protein EBP50, which again contacts PAG. In the present study, we show that Ezrin and EBP50 interact with high affinity (KD=58+/-7 nM). A peptide corresponding to the EB (Ezrin-binding) region in EBP50 (EBP50pep) was used to further characterize the binding kinetics and compete the Ezrin-EBP50 interaction by various methods in vitro. Importantly, loading T-cells with EBP50pep delocalized Ezrin, but not EBP50. Furthermore, disruption of this complex interfered with cAMP modulation of T-cell activation, which is seen as a reversal of cAMP-mediated inhibition of IL-2 (interleukin 2) production, demonstrating an important role of EBP50 in this complex. In summary, both the biochemical and functional data indicate that targeting the Ezrin-EBP interaction could be a novel and potent strategy for immunomodulation.
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PMID:The adaptor protein EBP50 is important for localization of the protein kinase A-Ezrin complex in T-cells and the immunomodulating effect of cAMP. 1985 2

Ribosomal protein S6 (rpS6) is a key component of the translational machinery in eukaryotic cells and is essential for ribosome biogenesis. rpS6 is phosphorylated on evolutionarily conserved serine residues, and data indicate that rpS6 phosphorylation might regulate cell growth and protein synthesis. Studies in cell lines have shown an important role for the serine kinase mammalian target of rapamycin (mTOR) in rpS6 phosphorylation, further linking rpS6 to control of cellular metabolism. rpS6 is essential in T cells because its deletion in mouse double-positive thymocyte cells results in a complete block in T cell development; however, the signaling pathway leading to rpS6 phosphorylation downstream of TCR stimulation has yet to be fully characterized. We show that maximal TCR-induced rpS6 phosphorylation in CD8 T cells requires both Lck and Fyn activity and downstream activation of PI3K, mTOR, and MEK/ERK MAPK pathways. We demonstrate that there is cross-talk between the PI3K and MAPK pathways as well as PI3K-independent mTOR activity, which result in differential phosphorylation of specific rpS6 serine residues. These results place rpS6 phosphorylation as a point of convergence for multiple crucial signaling pathways downstream of TCR triggering.
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PMID:MAPK, phosphatidylinositol 3-kinase, and mammalian target of rapamycin pathways converge at the level of ribosomal protein S6 phosphorylation to control metabolic signaling in CD8 T cells. 1991 92

Present study investigates the role of Mycobacterium leprae (M. leprae) antigens on TCR- and TCR/CD28-induced signalling leading to T-cell activation and further correlates these early biochemical events with T-cell anergy, as prevailed in advanced stages of leprosy. We observed that both whole cell lystae (WCL) and soluble fraction of M. leprae sonicate (MLSA) not only inhibited TCR, thapsigargin and ionomycin induced calcium fluxes by diminishing the opening of calcium channels, but also TCR- or TCR/CD28-induced proximal signalling events like phosphorylation of Zap-70 and protein kinase-C (PKC) activity. Study of TCR- and TCR/CD28-induced downstream signals revealed that M. leprae antigens curtail phosphorylation of both Erk1/2 and p38MAPK, consequently altering terminal signalling events like reduced binding of NFAT on IL-2 promoter and transcription of IL-2 gene, diminished expression of activation markers (CD25 and CD69). Furthermore, M. leprae fractions significantly inhibited IL-2 secretion and T-cell blastogenesis in healthy individuals. Altogether, results suggest that M. leprae interferes with TCR/CD28-induced upstream as well as downstream signalling events resulting in reduced IL-2 production and thus inhibition in T-cell proliferation, which might be responsible for T-cell unresponsiveness leading to stage of immunosuppression and consequently, for the progression of disease.
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PMID:Mycobacterial antigen(s) induce anergy by altering TCR- and TCR/CD28-induced signalling events: insights into T-cell unresponsiveness in leprosy. 2001 78

Natural killer (NK) and unconventional gammadelta T cells, by their ability to sense ligands induced by oncogenic stress on cell surface and to kill tumor cells without a need for clonal expansion, show a great therapeutic interest. They use numerous activating and inhibitory receptors which can function with some independence to trigger or inhibit destruction of target cells. Previous reports demonstrated that PGE(2) is able to suppress the destruction of some tumor cell lines by NK and gammadelta T cells but it remained uncertain if PGE(2) interferes with the different activating receptors governing the cytolytic responses of NK and gammadelta T cells. In this report, using the model of specific redirected lysis of the mouse FcgammaR(+) cell line P815, we clearly demonstrate that the major NK receptors (NKR): NKG2D, CD16 and natural cytotoxicity receptors (NCR: NKp30, NKp44, NKp46) and gammadelta T cell receptors TCR Vgamma9Vdelta2, NKG2D and CD16 are all inhibited by PGE(2). As is the case with gammadelta T cells, we show that PGE(2) binds on E-prostanoid 2 (EP2) and EP4 receptors on NK cells. Finally, we delineate that the signaling of the blockade by PGE(2) is mediated through a cAMP-dependent activation of PKA type I which inhibits early signaling protein of cytotoxic cells. In the discussion, we focused on how these data should impact particular approaches in the treatment of cancer.
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PMID:PGE2 inhibits natural killer and gamma delta T cell cytotoxicity triggered by NKR and TCR through a cAMP-mediated PKA type I-dependent signaling. 2047 Jul 57

Tagging the cell surface receptor with ubiquitin is believed to provide a signal for the endocytic pathway. E3 ubiquitin ligases such as Cbl-b and Itch have been implicated in T cell activation and tolerance induction. However, the underlying mechanisms remain unclear. We describe that in mice deficient in the E3 ubiquitin ligases Cbl-b and Itch, T cell activation was augmented, accompanied by spontaneous autoimmunity. The double-mutant T cells exhibited increased phosphorylation of the T cell receptor-zeta (TCR-zeta) chain, whereas the endocytosis and stability of the TCR complex were not affected. TCR-zeta was polyubiquitinated via a K33-linkage, which affected its phosphorylation and association with the zeta chain-associated protein kinase Zap-70. The juxtamembrane K54 residue in TCR-zeta was identified to be a primary ubiquitin conjugation site, whose mutation increased its phosphorylation and association of TCR-zeta and Zap-70. Thus, the present study reveals unconventional K33-linked polyubiquitination in nonproteolytic regulation of cell-surface-receptor-mediated signal transduction.
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PMID:K33-linked polyubiquitination of T cell receptor-zeta regulates proteolysis-independent T cell signaling. 2063 59

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