EC:2.7.11.10 - FACTA Search

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Query: EC:2.7.11.10 (IKK)
4,900 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Costimulation of TCR/CD3 and CD28 receptors leads to activation of the Jun kinase (JNK) cascade, which plays a key role in T cell activation, including activation of the IL-2 promoter. We demonstrate that the JNK cascade plays a central role in the activation of the CD28 response element (CD28RE) in the IL-2 promoter. This response element is linked to an activating protein-1 (AP-1) site, which functions synergistically with the CD28RE. The role of the JNK cascade in the activation of this composite element is twofold: 1) activation of the AP-1 site through transcriptional activation of c-Jun, and 2) activation of the CD28RE through selective cross-talk with I kappa B kinase-beta (IKK beta). Dominant-negative versions of JNK kinase, c-Jun, and IKK beta interfered In CD3- plus CD28-induced CD28RE/AP-1 luciferase activity in Jurkat cells. In contrast, the dominant-active JNK kinase kinase, MEKK1, induced CD28RE/AP-1 luciferase activity, in parallel with induction of c-Jun and c-Rel binding to this combined promoter site. Dominant-active MEKK1 also induced transfected IKK beta, but not IKK alpha, activity. In contrast to the JNK cascade, the extracellular signal-regulated kinase (ERK) cascade did not exert an affect on the CD28RE/AP-1 site, but did contribute to activation of the distal NF-AT/AP-1 site.
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PMID:The Jun kinase cascade is responsible for activating the CD28 response element of the IL-2 promoter: proof of cross-talk with the I kappa B kinase cascade. 1009 68

NF-kappa B transcription factors play an important role in the activation of the IL-2 gene in response to TCR ligation. The release of NF-kappa B factors to the nucleus requires phosphorylation and degradation of the inhibitory kappa-B proteins (I kappa Bs). I kappa B alpha and I kappa B beta phosphorylation is dependent on dual signaling by the TCR and the CD28 accessory receptor. This pathway involves a multisubunit I kappa B kinase (IKK) complex, which includes the IKK alpha (IKK-1) and IKK beta (IKK-2) kinases. We demonstrate that stimulation of primary human CD4+ T cells by CD3/CD28 activates two distinct endogenous IKK complexes, a heterodimeric IKK alpha/beta and a homodimeric IKK beta complex. IKK beta overexpression in a Jurkat cell line resulted in the formation of a constitutively active IKK complex, which was CD3/CD28 inducible. In contrast, ectopic expression of IKK alpha assembled into a complex with negligible I kappa B kinase activity. Moreover, IKK beta, but not IKK alpha, overexpression enhanced transcriptional activation of the CD28 response element in the IL-2 promoter. Conversely, only kinase-inactive IKK beta interfered in the activation of the IL-2 promoter. Sodium salicylate, an inhibitor of IKK beta, but not IKK alpha, activity, inhibited IL-2 promoter activation as well as IL-2 secretion and interfered in activation of both the heterodimeric as well as the homodimeric IKK complexes in primary CD4+ T cells. Taken together, these data demonstrate the presence of an IKK beta-mediated signaling pathway that is activated by TCR and CD28 coligation and regulates IL-2 promoter activity.
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PMID:Primary human CD4+ T cells contain heterogeneous I kappa B kinase complexes: role in activation of the IL-2 promoter. 1055 70

Optimal activation of Rel/NF-kappaB transcription factors in T lymphocytes requires a CD28-delivered co-stimulatory signal in addition to TCR engagement. Although, Rel/NF-kappaB transcription factors are critical regulators of many T cell functions, the mechanisms and molecules, which link the surface receptors to their activation, are poorly characterized. Using Jurkat T cells stimulated with superantigen presented on B7-positive APC, we showed that CD28- and TCR-stimulated NF-kappaB-dependent transcription is associated to the activation of IkappaB kinase beta (IKKbeta) and, to a lesser extent, of IkappaB kinase alpha (IKKalpha). A dominant negative mutant of the MAP3 kinase MEKK1, a kinase known to regulate the JNK pathway and to activate NF-kappaB-dependent transcription in many cell types, strongly inhibits CD28- and TCR-induced IKK activity, whereas the dominant negative mutants of the NF-kappaB-inducing kinase (NIK) did not exert any significant effects. In addition, TCR/CD28 stimulation results in the recruitment and autophosphorylation of endogenous MEKK1, whereas endogenous NIK was not detectably activated. Our data identify MEKK1 as a critical step in coupling signals initiated by TCR and CD28 to the downstream pathways which lead to both AP-1 and NF-kappaB activation in T lymphocytes.
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PMID:Mitogen-activated kinase kinase kinase 1 regulates T cell receptor- and CD28-mediated signaling events which lead to NF-kappaB activation. 1100 75

We investigated the role of protein kinase C theta (PKCtheta) in the activation of the NF-kappaB cascade in primary human CD4(+) lymphocytes. Among six or so PKC isoforms expressed in T cells, only PKCtheta participates in the assembly of the supramolecular activation clusters at the contact site of the TCR with Ag. Signaling via both the TCR and CD28 is required for optimal activation of the multisubunit IkappaB kinase (IKK) complex in primary human T lymphocytes; this activation could be inhibited by a Ca(2+)-independent PKC isoform inhibitor, rottlerin. Moreover, endogenous PKCtheta physically associates with activated IKK complexes in CD3/CD28-costimulated primary CD4(+) T cells. The same set of stimuli also induced relocation of endogenous PKCtheta and IKKs to a GM1 ganglioside-enriched, detergent-insoluble membrane compartment in primary T cells. IKKs recruited to these lipid rafts were capable of phosphorylating a recombinant IkappaBalpha sustrate. Confocal microscopy further demonstrated that exogenously expressed PKCtheta and IKKss colocalize in the membrane of CD3/CD28-costimulated Jurkat T cells. Constitutively active but not kinase-inactive PKCtheta activated IKKbeta in Jurkat T cells. Expression of dominant-active PKCtheta also had stimulatory effects on the CD28 response element of the IL-2 promoter. Taken together, these data show that the activation of PKCtheta by the TCR and CD28 plays an important role in the assembly and activation of IKK complexes in the T cell membrane.
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PMID:The physical association of protein kinase C theta with a lipid raft-associated inhibitor of kappa B factor kinase (IKK) complex plays a role in the activation of the NF-kappa B cascade by TCR and CD28. 1112 Aug 19

CD28-delivered costimulatory signals are required to induce NF-kappaB activation in response to TCR stimulation. We have recently demonstrated that the mitogen-activated kinase kinase 1 (MEKK1), a kinase known to regulate the c-jun N-terminal kinase (JNK) pathway, is also involved in the CD28- and TCR-induced inhibitor of kappaB factor (IkappaB) kinases (IKK) and NF-kappaB activation. Searching for molecules that couple TCR and CD28 to MEKK1, we found that the guanine nucleotide exchange factor Vav synergized with CD28 stimulation in Jurkat cells to induce NF-kappaB transcriptional activity through the activation of IKKalpha and IKKbeta. Dominant negative mutants of Vav inhibited TCR- and CD28-NF-kappaB-dependent transcription by interfering with the activation of the IKK complex. Blocking Rac signaling downstream of Vav by dominant negative RacN17 exerts similar effects on IKK and NF-kappaB activation after TCR/CD28 stimulation. Finally, Vav-induced NF-kappaB activation in CD28 costimulated cells was inhibited by dominant negative MEKK(KM). These results identify Vav, Rac-1 and MEKK1 as components of a common pathway regulating both NF-kappaB and AP-1 that contributes to full activation of the CD28 response element (CD28RE).
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PMID:Vav cooperates with CD28 to induce NF-kappaB activation via a pathway involving Rac-1 and mitogen-activated kinase kinase 1. 1181 63

Capsiate and its dihydroderivatives are the major capsaicinoids of sweet pepper. These new capsaicinoids do not activate the vanilloid receptor type 1 (VR1) but they share with capsaicin (CPS)some biological activities mediated in a VR1-independent fashion. In this study we show that CPS and nordihydrocapsiate (CPT) inhibit early and late events in T cell activation, including CD69, CD25 and ICAM-1 cell surface expression, progression to the S phase of the cell cycle and proliferation in response to TCR and CD28 co-engagement. Moreover, both CPS and CPT inhibit NF-kappaB activation in response to different agents including TNF-alpha. CPS itself does not affect the DNA-binding ability of NF-kappaB but it prevents IkappaB kinase activation and IkappaBalpha degradation in a dose-dependent manner, without inhibiting the activation of the mitogen-activated protein kinases, p38, extracellular regulated kinase and c-Jun N-terminal protein kinase. Moreover, intraperitoneal pretreatment with CPT prevented mice from lethal septic shock induced by lipopolysaccharide. In a second model of inflammation CPT pretreatment greatly reduced the extensive damage in the glandular epithelium observed in the bowel of DSS-treated mice. Taken together, these results suggest that CPT and related synthetic analogues target specific pathways involved in inflammation, and hold considerable potential for dietary health benefits as well as for pharmaceutical development.
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PMID:Immunosuppressive activity of capsaicinoids: capsiate derived from sweet peppers inhibits NF-kappaB activation and is a potent antiinflammatory compound in vivo. 1211 59

The translocation of the transcription factor NF-kappaB into the nucleus plays a critical role in many physiological events. In unstimulated cells, NF-kappaB is sequestered in the cytosol, bound to its inhibitor IkappaB. Activation primarily occurs via the IkappaB kinase (IKK) complex which phosphorylates IkappaBalpha at serines 32 and 36, creating a recognition site for IkappaB ubiquitination which then targets IkappaB for degradation. Often it is useful to measure IKK activity to assess upstream signaling events leading to NF-kappaB activation. Current methods of assessing IKK activity are limited to IKK isoforms which are recognized by available IKK antibodies. Here, we describe a procedure to qualitatively assess the overall IKK activity in a cell lysate which can be used on any IKK isoform capable of phosphorylating human IkappaBalpha. This nonradioactive assay is based on measurement of the ability of the cell lysate to phosphorylate GST-IkappaBalpha, as measured by Western blotting, using an anti-phospho-IkappaBalpha antibody. We have used this assay to observe the kinetics of TCR-mediated activation of IKK as compared to PMA/ionomycin in primary rat T cells. PMA/ionomycin induces maximal IKK activity within 1 min of stimulation and this activity remains elevated for over 20 min. In comparison, TCR ligation induces maximal IKK activity after 5 min of stimulation and this activity rapidly diminishes to background levels. These data indicate that different stimuli can activate and inactivate IKK with different kinetics and suggest that TCR-mediated activation of IKK is closely linked to the rapid phosphorylation and dephosphorylation, respectively, of TCR-associated kinases.
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PMID:Measurement of IKK activity in primary rat T cells: rapid activation and inactivation. 1213 32

The mechanism by which TCR signaling activates NF-kappaB is poorly understood. We demonstrate here that the IKK kinase complex is recruited to the immunological synapse and can be coprecipitated with the TCR after T cell activation. Using ZAP-70-deficient T cells expressing a hybrid molecule between the SH2 domain of ZAP-70 and NEMO/IKKgamma, we showed that targeting NEMO to the immunological synapse, and more specifically its 120 N-terminal amino acids, was sufficient to selectively restore NF-kappaB activation in response to TCR ligation. Finally, we demonstrated that targeting of NEMO to the membrane of T cells was sufficient to induce constitutive NF-kappaB activation. This study shows that the localization of NEMO to the immunological synapse is important for TCR-induced NF-kappaB activation and offers a powerful system to dissect the NF-kappaB cascade in T cells.
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PMID:Induction of the NF-kappaB cascade by recruitment of the scaffold molecule NEMO to the T cell receptor. 1253 Sep 72

The aim of this study was to investigate the influence of protein kinase C (PKC) alpha and beta on the TCR-CD28-stimulated protein kinase cascades participating in regulation of IL-2 gene transcription and secretion. Inhibition of the synthesis of PKCalpha and beta by specific phosphorothioate-modified antisense oligonucleotides (ODN) resulted in suppression of phosphorylation and activation of Raf-1, mitogen-activated extracellular-regulated kinase kinases and extracellular-regulated kinases in stimulated Jurkat T cells. Furthermore, a marked reduction of IkappaB kinase-alpha-catalyzed IkappaBalpha phosphorylation was observed in both PKCalpha- and beta-specific antisense oligonucleotide-treated cells. In sharp contrast, TCR-CD28-stimulated phosphorylation and activation of the Jun-N-terminal kinase (JNK) cascade was specifically suppressed upon treatment with PKCbeta-specific antisense ODN, suggesting that PKCbeta was a specific upstream regulator of the JNK protein kinase cascade. Significant inhibition of high-affinity NF-AT binding and transactivation, IL-2 gene expression, reduction of IL-2 mRNA synthesis, and, most impressively, a complete suppression of IL-2 secretion were observed in PKCbeta antisense ODN-treated cells. The data indicate a highly specific function of PKCbeta for regulation of TCR-CD28 induced-signaling, IL-2 gene expression and secretion in Jurkat T cells.
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PMID:Protein kinase Cbeta1, a major regulator of TCR-CD28-activated signal transduction leading to IL-2 gene transcription and secretion. 1291 61

X-linked anhidrotic ectodermal dysplasia with immunodeficiency (XL-EDA-ID) is caused by hypomorphic mutations in the gene encoding NEMO/IKKgamma, the regulatory subunit of the IkappaB kinase (IKK) complex. IKK normally phosphorylates the IkappaB-inhibitors of NF-kappaB at specific serine residues, thereby promoting their ubiquitination and degradation by the proteasome. This allows NF-kappaB complexes to translocate into the nucleus where they activate their target genes. Here, we describe an autosomal-dominant (AD) form of EDA-ID associated with a heterozygous missense mutation at serine 32 of IkappaBalpha. This mutation is gain-of-function, as it enhances the inhibitory capacity of IkappaBalpha by preventing its phosphorylation and degradation, and results in impaired NF-kappaB activation. The developmental, immunologic, and infectious phenotypes associated with hypomorphic NEMO and hypermorphic IKBA mutations largely overlap and include EDA, impaired cellular responses to ligands of TIR (TLR-ligands, IL-1beta, and IL-18), and TNFR (TNF-alpha, LTalpha1/beta2, and CD154) superfamily members and severe bacterial diseases. However, AD-EDA-ID but not XL-EDA-ID is associated with a severe and unique T cell immunodeficiency. Despite a marked blood lymphocytosis, there are no detectable memory T cells in vivo, and naive T cells do not respond to CD3-TCR activation in vitro. Our report highlights both the diversity of genotypes associated with EDA-ID and the diversity of immunologic phenotypes associated with mutations in different components of the NF-kappaB signaling pathway.
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PMID:A hypermorphic IkappaBalpha mutation is associated with autosomal dominant anhidrotic ectodermal dysplasia and T cell immunodeficiency. 1452 34

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