Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Progastrin (PG) exerts proliferative and antiapoptotic effects on intestinal epithelial and colon cancer cells via Annexin II (ANX-II). In here, we show that ANX-II similarly mediates proliferative and antiapoptotic effects of PG on a pancreatic cancer cell line, AR42J. The role of several signaling molecules was examined in delineating the biological activity of PG. PG (0.1-1.0 nmol/L) caused a significant increase (2- to 5-fold) in the phosphorylation of phosphatidylinositol 3-kinase (PI3K), Akt (Thr(308)), p38 mitogen-activated protein kinase (MAPK; Thr(180)/Tyr(182)), extracellular signal-regulated kinases (ERK; Thr(202)/Tyr(204)), IkappaB kinase alpha/beta (IKKalpha/beta; Ser(176)/(180)), IkappaBalpha (Ser(32)), and p65 nuclear factor-kappaB (NF-kappaB; Ser(536)). Inhibition of p44/42 ERKs (PD98059), p38 MAPK (SB203580), Akt, and PI3K (LY294002), individually or combined, partially reversed antiapoptotic effects of PG. The kinetics of phosphorylation of IKKalpha/beta in response to PG matched the kinetics of phosphorylation and degradation of IkappaBalpha and correlated with phosphorylation, nuclear translocation, and activation of p65 NF-kappaB. NF-kappaB essential modulator-binding domain peptide (an inhibitor of IKKalpha/beta) effectively blocked the activity of p65 NF-kappaB in response to PG. Activation of p65 NF-kappaB, in response to PG, was 70% to 80% dependent on phosphorylation of MAPK/ERK and PI3K/Akt molecules. Down-regulation of p65 NF-kappaB by specific small interfering RNA resulted in the loss of antiapoptotic effects of PG on AR42J cells. These studies show for the first time that the canonical pathway of activation of p65 NF-kappaB mediates antiapoptotic effects of PG. Therefore, targeting PG and/or p65 NF-kappaB may be useful for treating cancers, which are dependent on autocrine or circulating PGs for their growth.
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PMID:Antiapoptotic effects of progastrin on pancreatic cancer cells are mediated by sustained activation of nuclear factor-{kappa}B. 1767 Nov 95

LFM-A13 (alpha-cyano-beta-hydroxy-beta-methyl-N-(2,5-dibromophenyl)propenamide) has recently been identified as an inhibitor of Polo-like kinases (Plk). LFM-A13 does not inhibit other serine/threonine kinases including CDK, CHK, RAF, DAPK, IKK, IRAK, JNK, MAPK, PKC and SAPK. LFM-A13-treated human cancer cells develop abnormal mitotic spindles and G(2)/M-arrest during cell cycle progression. LFM-A13 was not toxic to rodents or dogs at daily dose levels as high as 100 mg/kg. Notably, at a low dose level of 10 mg/kg, which does not result in delayed tumor progression in the MMTV/neu transgenic mouse model of HER2 positive breast cancer, LFM-A13 markedly enhanced the anti-cancer activity of the mitotic spindle poison paclitaxel. These results indicate that LFM-A13 may be useful in the treatment of cancer patients.
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PMID:Chemosensitizing anti-cancer activity of LFM-A13, a leflunomide metabolite analog targeting polo-like kinases. 1807 37

In macrophages and monocytes, microbial components trigger the production of pro-inflammatory cytokine through Toll-like receptors (TLRs). Although major TLR signaling pathways are mediated by serine/threonine kinases, including TAK1, IKK and MAP kinases, tyrosine phosphorylation of intracellular proteins by TLR ligands has been suggested in a number of reports. Here, we demonstrated that peptidoglycan (PGN) of a Gram-positive bacterial cell wall component, a TLR2 ligand and lipopoysaccharide (LPS) of a Gram-positive bacterial component, a TLR4 ligand induced tyrosine phosphorylation of phospholipase Cgamma-2 (PLCgamma2), leading to intracellular free Ca2+ mobilization in bone marrow-derived macrophages (BMMphi) and bone marrow-derived dendritic cells (BMDC). PGN- and LPS-induced Ca2+ mobilization was not observed in BMDC from PLCgamma2 knockout mice. Thus, PLCgamma2 is essential for TLR2 and TLR4-mediated Ca2+ flux. In PLCgamma2-knockdown cells, PGN-induced IkappaB-alpha phosphorylation and p38 activation were reduced. Moreover, PLCgamma2 was necessary for the full production of TNF-alpha and IL-6. These data indicate that the PLCgamma2 pathway plays an important role in bacterial ligands-induced activation of macrophages and dendritic cells.
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PMID:Peptidoglycan and lipopolysaccharide activate PLCgamma2, leading to enhanced cytokine production in macrophages and dendritic cells. 1823 61

The Ser/Thr-specific IkappaB kinase (IKK), which comprises IKKalpha or IKKbeta and the regulatory protein NEMO, is at the bottleneck for NF-kappaB activation. IKK activity relies on interaction between NEMO and IKKalpha or IKKbeta. A conserved region in the C-terminal tail of IKKbeta or IKKalpha (NEMO-binding domain, NBD, residues 734-745 of IKKbeta) is important for interaction with NEMO. Here we show that the NBD peptide of IKKbeta is not sufficient for interaction with NEMO. Instead, a longer region of the IKKbeta C-terminal region provides high affinity for NEMO. Quantitative measurements using surface plasmon resonance and isothermal titration calorimetry confirm the differential affinities of these interactions and provide insight into the kinetic and thermodynamic behaviors of the interactions. Biochemical characterization using multiangle light scattering (MALS) coupled with refractive index shows that the longer IKKbeta C-terminal region forms a 2:2 stoichiometirc complex with NEMO.
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PMID:High-affinity interaction between IKKbeta and NEMO. 1826 24

The IkappaB kinase-related kinases, TBK1 and IKKi, were recently shown to be responsible for the C-terminal phosphorylation of IRF-3. However, the identity of the phosphoacceptor site(s) targeted by these two kinases remains unclear. Using a biological assay based on the IRF-3-mediated production of antiviral cytokines, we demonstrate here that all Ser/Thr clusters of IRF-3 are required for its optimal transactivation capacity. In vitro kinase assays using full-length His-IRF-3 as a substrate combined with mass spectrometry analysis revealed that serine 402 and serine 396 are directly targeted by TBK1. Analysis of Ser/Thr-to-Ala mutants revealed that the S396A mutation, located in cluster II, abolished IRF-3 homodimerization, CBP association, and nuclear accumulation. However, production of antiviral cytokines was still present in IRF-3 S396A-expressing cells. Interestingly, mutation of serine 339, which is involved in IRF-3 stability, also abrogated CBP association and dimerization without affecting gene transactivation as long as serine 396 remained available for phosphorylation. Complementation of IRF-3-knockout mouse embryonic fibroblasts also revealed a compensatory mechanism of serine 339 and serine 396 in the ability of IRF-3 to induce expression of the interferon-stimulated genes ISG56 and ISG54. These data lead us to reconsider the current model of IRF-3 activation. We propose that conventional biochemical assays used to measure IRF-3 activation are not sensitive enough to detect the small fraction of IRF-3 needed to elicit a biological response. Importantly, our study establishes a molecular link between the role of serine 339 in IRF-3 homodimerization, CBP association, and its destabilization.
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PMID:Phosphorylation of IRF-3 on Ser 339 generates a hyperactive form of IRF-3 through regulation of dimerization and CBP association. 1827 81

Here we describe a novel role for the phosphatidylinositol 3-kinase/AKT pathway in mediating induction of interleukin-6 (IL-6) in response to IL-1. Pharmacological inhibition of phosphatidylinositol 3-kinase (PI3K) inhibited IL-6 mRNA and protein production. Overexpression of either dominant-negative AKT or IkappaB kinase alpha mutant, IKKalphaT23A, containing a mutation in a functional AKT phosphorylation site, shown previously to be important for NFkappaB activation, completely abrogated IL-6 promoter activation in response to IL-1. However, mutation of the consensus NFkappaB site on the IL-6 promoter did not abrogate promoter activation by IL-1 in contrast to the AP-1 site mutation. IL-1 induces phosphorylation of IKKalpha on the NFkappaB inducing kinase (NIK) phosphorylation sites Ser(176)/Ser(180) and on the Thr(23) site, and although phosphorylation of IKKalphaT23 is inhibited both by LY294002 and wortmannin, phosphorylation of Ser(176)/Ser(180) is not. Neither inhibition of PI 3-kinase/AKT nor IKKalphaT23A overexpression affected IkappaBalpha degradation in response to IL-1. Only partial inhibition by dominant-negative AKT and no inhibitory effect of IKKalphaT23A was observed on an IL-6 promoter-specific NFkappaB site in contrast to significant inhibitory effects on the AP-1 site. Taken together, we have discovered a novel PI 3-kinase/AKT-dependent pathway in response to IL-1, encompassing PI 3-kinase/AKT/IKKalphaT23 upstream of AP-1. This novel pathway is a parallel pathway to the PI 3-kinase/AKT upstream of NFkappaB and both are involved in IL-6 gene transcription in response to IL-1.
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PMID:Interleukin (IL) 1beta induction of IL-6 is mediated by a novel phosphatidylinositol 3-kinase-dependent AKT/IkappaB kinase alpha pathway targeting activator protein-1. 1851 65

TAK1 (transforming growth factor-beta-activated kinase 1), a mitogen-activated protein kinase kinase kinase, is activated by various cytokines, including interleukin-1 (IL-1). However, the precise regulation for TAK1 activation at the molecular level is still not fully understood. Here we report that dual phosphorylation of Thr-178 and Thr-184 residues within the kinase activation loop of TAK1 is essential for TAK1-mediated NFkappaB and AP-1 activation. Once co-overexpressed with TAB1, TAK1 mutant with alanine substitution of these two residues fails to activate IKKbeta-mediated NFkappaB and JNK-mediated AP-1, whereas TAK1 mutant with replacement of these two sites with acidic residues acts like the TAK1 wild type. Consistently, TAK1 mutant with alanine substitution of these two residues severely inhibits IL-1-induced NFkappaB and AP-1 activities, whereas TAK1 mutant with replacement of these two sites with acidic residues slightly enhances IL-1-induced NFkappaB and AP-1 activities compared with the TAK1 wild-type. IL-1 induces the phosphorylation of endogenous TAK1 at Thr-178 and Thr-184. Reconstitution of TAK1-deficient mouse embryo fibroblast cells with wild-type TAK1 or a TAK1 mutant containing threonine 178 and 184 to alanine mutations revealed the importance of these two sites in IL-1-mediated IKK-NFkappaB and JNK-AP-1 activation as well as IL-1-induced IL-6 gene expression. Our finding is the first report that substitution of key serine/threonine residues with acidic residues mimics the phosphorylated state of TAK1 and renders TAK1 active during its induced activation.
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PMID:Phosphorylation of Thr-178 and Thr-184 in the TAK1 T-loop is required for interleukin (IL)-1-mediated optimal NFkappaB and AP-1 activation as well as IL-6 gene expression. 1861 12

This study identifies a novel mechanism by which thiazolidinediones mediate cyclin D1 repression in prostate cancer cells. Based on the finding that the thiazolidinedione family of peroxisome proliferator-activated receptor gamma (PPARgamma) agonists mediated PPARgamma-independent cyclin D1 degradation, we developed a novel PPARgamma-inactive troglitazone derivative, STG28, with high potency in cyclin D1 ablation. STG28-mediated cyclin D1 degradation was preceded by Thr-286 phosphorylation and nuclear export, which however, were independent of glycogen synthase kinase 3beta. Mutational analysis further confirmed the pivotal role of Thr-286 phosphorylation in STG28-induced nuclear export and proteolysis. Of several kinases examined, inhibition of IkappaB kinase alpha blocked STG28-mediated cytoplasmic sequestration and degradation of cyclin D1. Pulldown of ectopically expressed Cul1, the scaffold protein of the Skp-Cullin-F-box E3 ligase, in STG28-treated cells revealed an increased association of cyclin D1 with beta-TrCP, whereas no specific binding was noted with other F-box proteins examined, including Skp2, Fbw7, Fbx4, and Fbxw8. This finding represents the first evidence that cyclin D1 is targeted by beta-TrCP. Moreover, beta-TrCP expression was up-regulated in response to STG28, and ectopic expression and small interfering RNA-mediated knock-down of beta-TrCP enhanced and protected against STG28-facilitated cyclin D1 degradation, respectively. Because cyclin D1 lacks the DSG destruction motif, mutational and modeling analyses indicate that cyclin D1 was targeted by beta-TrCP through an unconventional recognition site, (279)EEVDLACpT(286), reminiscent to that of Wee1. Moreover, we obtained evidence that this beta-TrCP-dependent degradation takes part in controlling cyclin D1 turnover when cancer cells undergo glucose starvation, which endows physiological relevance to this novel mechanism.
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PMID:A novel mechanism by which thiazolidinediones facilitate the proteasomal degradation of cyclin D1 in cancer cells. 1865 Apr 23

NF-kappaB activation in response to pro-inflammatory stimuli relies upon phosphorylation of IkappaB alpha at serines 32 and 36 by the beta subunit of the IkappaB kinase complex (IKK). In this study, we build upon the observation that highly purified human IKKbeta subunit preparations retain this specificity in vitro. We show that IKKbeta constructs that lack their carboxy-terminus beginning at the leucine zipper motif fail to phosphorylate IkappaB alpha at Ser-32 and Ser-36. Rather, these constructs, which contain the entire IKKbeta subunit kinase domain, phosphorylate serine and threonine residues contained within the IkappaB alpha carboxy-terminal PEST region. Furthermore, removal of the leucine zipper and helix-loop-helix regions converts IKKbeta to monomer. We propose that the helix-loop-helix of the human IKKbeta subunit is necessary for restricting substrate specificity toward Ser-32 and Ser-36 in IkappaB alpha and that in the absence of its carboxy-terminal protein structural motifs the human IKKbeta subunit kinase domain exhibits a CK2-like phosphorylation specificity.
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PMID:The human IKKbeta subunit kinase domain displays CK2-like phosphorylation specificity. 1865 15

Serum- and glucocorticoid-inducible kinase 1 (SGK1) is a downstream target of phosphatidylinositol 3-kinase signaling, and it regulates various cellular and physiological functions, but the SGK1 substrate proteins and genes regulated by SGK1 are less known. Here we have identified IkappaB kinase alpha (IKKalpha) as a novel substrate of SGK1 by using biochemical and bioinformatic approaches. SGK1 directly phosphorylates IKKalpha at Thr-23 and indirectly activates IKKalpha at Ser-180. Furthermore, SGK1 enhanced nuclear factor kappaB (NF-kappaB) activity and up-regulated N-methyl-d-aspartate receptor NR2A and NR2B expression through activation of IKKalpha at Thr-23 and Ser-180, and these two residues play an equally important role in mediating these effects of SGK1. Although SGK1 does not phosphorylate IKKbeta, IKKbeta activity is still required for IKK complex activation and for SGK1 phosphorylation and activation of NF-kappaB. In addition, SGK1 increased the acetylation of NF-kappaB through phosphorylation of p300 at Ser-1834, and this also leads to NF-kappaB activation and NR2A and NR2B expression. Moreover, an endogenous stimulus of SGK1, insulin, increased IKKalpha and NF-kappaB phosphorylation as well as NF-kappaB acetylation and NF-kappaB activity, but SGK1 small interfering RNA transfection blocked these effects of insulin. In examination of the functional significance of the SGK1-IKKalpha-NF-kappaB signaling pathway, we found that transfection of the IKKalpha double mutant (IKKalphaT23A/S180A) to rat hippocampus antagonized SGK-1-mediated spatial memory facilitation. Our results together demonstrated novel substrate proteins of SGK1 and novel SGK1 signaling pathways. Activation of these signaling pathways enhances NR2A and NR2B expression that is implicated in neuronal plasticity.
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PMID:SGK1 phosphorylation of IkappaB Kinase alpha and p300 Up-regulates NF-kappaB activity and increases N-Methyl-D-aspartate receptor NR2A and NR2B expression. 1908 76


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