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:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The superantigen toxic shock syndrome toxin (TSST)-1 can induce tumor necrosis factor (TNF)-alpha expression in T cells and monocytes, through different signaling pathways. We have stimulated peripheral blood mononuclear cells with TSST-1 and found that the major cell producers of TNF-alpha as detected by cytofluorimetry and immunocytochemistry were CD4(+) T lymphocytes. The expression of TNF-alpha by CD4(+) T cells can be inhibited by either, wortmannin (WN) or LY 294002, two phosphatidylinositol 3-kinase (PI 3-K) inhibitors. The inhibitory effect is not transcriptional as WN does not change the mRNA steady state of TNF-alpha at any of the concentrations tested and LY 294002 when preincubated with mononuclear cells at its median inhibitory concentration (IC(50) = 1. 4 microM) significantly inhibited the expression of TNF-alpha but not its mRNA. Immunoprecipitation of pulse-labeled intracellular TNF-alpha showed a specific decrease in the synthesis of this cytokine on cells treated with PI 3-K inhibitors. The p38 mitogen-activated protein kinase (MAPK) is involved in control of TNF-alpha translation in human macrophages. In T cells, we have found that the p38 MAPK inhibitor SB 203580 significantly decreased the secretion of TNF-alpha but not its mRNA. In addition, the combined use of WN and SB 203580 had an additive inhibitory effect on secretion of TNF-alpha. Therefore, both PI 3-K and p38 MAPK signaling pathways control TNF-alpha production in T cells.
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PMID:Wortmannin inhibits translation of tumor necrosis factor-alpha in superantigen-activated T cells. 1046 69

Conflicting results have been reported regarding the effect of TNF-alpha on the growth of human primitive hemopoietic cells. In this study, we have examined the effect of TNF-alpha on the proliferation of several CD34+/CD38+ (KG-1, TF-1) and CD34+/CD38- (KG-1a, TF-1a) myeloid leukemic progenitor cell lines. Our data show that TNF-alpha markedly inhibits the growth of these cells in both liquid and soft agar cultures. Addition of GM-CSF or IL-3 does not prevent TNF-alpha-induced growth inhibition. Flow cytometry analyses of propidium iodide-stained cells demonstrated cell death of all four cell lines, as judged by the presence of cells with hypodiploid DNA content after exposure of cells to TNF-alpha for 4 days. Annexin V assays detected apoptosis in TF-1, but not in TF-1a, KG-1, and KG-1a cells in terms of translocation of phosphatidylserine shortly after TNF-alpha treatment. Neutralizing anti-TNF receptor type I (TNFR-I; p55) Ab almost completely reversed TNF-alpha-induced growth inhibition in both liquid and soft agar cultures, whereas anti-TNFR-II (p75) Ab had only a marginal effect. TNF-alpha rapidly induced marked activation of nuclear transcription factor NF-kappa B in all 4 cell lines. The majority of this effect was abolished by the type I receptor Ab, whereas the type II receptor neutralizing Ab had no effect. Our data also show that TNF-alpha is incapable of inducing activation of the mitogen-activated protein kinase pathway in these leukemic cell lines.
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PMID:TNF-alpha-induced growth suppression of CD34+ myeloid leukemic cell lines signals through TNF receptor type I and is associated with NF-kappa B activation. 1047 76

Pathogenic bacteria of the genus Yersinia possess a type III secretion apparatus by which they can inject up to six effector proteins into host cells. These so-called effector Yops (Yersinia outer proteins) disrupt cellular immune defense functions such as TNF-alpha release, O2-production or phagocytosis and thereby allow Yersinia to grow extracellularly. Recent findings indicate that the effector Yops are highly active proteins that engage in crucial eukaryotic signaling mechanisms. For instance, the translocated tyrosine phosphatase YopH dephosphorylates the focal adhesion proteins paxillin and p130Cas within target cells. Furthermore, the Yersinia effector YopP is able to induce apoptosis in macrophages presumably by blocking MAP kinase and NFKB mediated signaling events. Here we discuss recent advances concerning the intracellular targets and biochemical signaling mechanisms regulated by the translocated Yersinia effectors.
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PMID:The tranquilizing injection of Yersinia proteins: a pathogen's strategy to resist host defense. 1049 28

c-Jun N-terminal protein kinase (JNK), a member of the mitogen-activated protein (MAP) kinase family, regulates gene expression in response to various extracellular stimuli. JNK is activated by JNK-activating kinase (JNKK1 and JNKK2), a subfamily of the dual specificity MAP kinase kinase (MEK) family, through phosphorylation on threonine (Thr) 183 and tyrosine (Tyr) 185 residues. The physiological functions of the JNK pathway, however, are not completely understood. A major obstacle is the lack of specific and activated kinase components that can stimulate the JNK pathway in the absence of any stimulus. Here we show that fusion of JNK1 to its upstream activator JNKK2 resulted in its constitutive activation. In HeLa cells, the JNKK2-JNK1 fusion protein showed significant JNK activity, which was comparable with that of JNK1 activated by many stimuli and activators, including EGF, TNF-alpha, anisomycin, UV irradiation, MEKK1, and small GTP binding proteins Rac1 and Cdc42Hs. Immunoblotting analysis indicated that JNK1 was phosphorylated by JNKK2 in the fusion protein on both Thr(183) and Tyr(185) residues. Like JNKK2, the JNKK2-JNK1 fusion protein was highly specific for the JNK pathway and did not activate either p38 or ERK2. Transient transfection assays demonstrated that the JNKK2-JNK1 fusion protein was sufficient to stimulate c-Jun transcriptional activity in the absence of any stimulus. Immunofluorescence analysis revealed that the JNKK2-JNK1 fusion protein was predominantly located in the nucleus of transfected HeLa cells. These results indicate that the JNKK2-JNK1 fusion protein is a constitutively active Jun kinase, which will facilitate the investigation of the physiological roles of the JNK pathway.
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PMID:The JNKK2-JNK1 fusion protein acts as a constitutively active c-Jun kinase that stimulates c-Jun transcription activity. 1050 43

The transcription factor NF-kappa B is a key regulator of the cellular inflammatory and immune response. Therefore, components of the NF-kappa B-activating signaling pathways are frequent targets for antiinflammatory agents. This study shows that the sesquiterpene lactone parthenolide inhibits a common step in NF-kappa B activation by preventing the TNF-alpha-induced induction of I kappa B kinase (IKK) and IKK beta, without affecting the activation of p38 and c-Jun N-terminal kinase. Parthenolide impairs NF-kappa B-dependent transcription triggered by expression of TNFR-associated factor-2, mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEKK1), and NF-kappa B-inducing kinase. This compound also prevents activation of both IKKs and DNA binding of NF-kappa B induced by MEKK and NF-kappa B-inducing kinase. Parthenolide targets a component of the I kappa B kinase complex without directly inhibiting IKK alpha, IKK beta, or MEKK1. Therefore, this sesquiterpene lactone could serve as a lead compound for the development of antiinflammatory remedies and is suitable as a molecular tool, allowing the dissection of TNF-alpha-derived signaling pathways leading to the activation of NF-kappa B, c-Jun N-terminal kinase, and p38.
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PMID:The antiinflammatory sesquiterpene lactone parthenolide inhibits NF-kappa B by targeting the I kappa B kinase complex. 1055 91

STAT1 is an essential transcription factor for macrophage activation by IFN-gamma and requires phosphorylation of the C-terminal Ser727 for transcriptional activity. In macrophages, Ser727 phosphorylation in response to bacterial lipopolysaccharide (LPS), UV irradiation, or TNF-alpha occurred through a signaling path sensitive to the p38 mitogen-activated protein kinase (p38 MAPK) inhibitor SB203580 whereas IFN-gamma-mediated Ser727 phosphorylation was not inhibited by the drug. Consistently, SB203580 did not affect IFN-gamma-mediated, Stat1-dependent transcription but inhibited its enhancement by LPS. Furthermore, LPS, UV irradiation, and TNF-alpha caused activation of p38 MAPK whereas IFN-gamma did not. An essential role for p38 MAPK activity in STAT1 Ser727 phosphorylation was confirmed by using cells expressing an SB203580-resistant p38 MAPK. In such cells, STAT1 Ser727 phosphorylation in response to UV irradiation was found to be SB203580 insensitive. Targeted disruption of the mapkap-k2 gene, encoding a kinase downstream of p38 MAPK with a key role in LPS-stimulated TNF-alpha production and stress-induced heat shock protein 25 phosphorylation, was without a significant effect on UV-mediated Ser727 phosphorylation. The recombinant Stat1 C terminus was phosphorylated in vitro by p38MAPKalpha and beta but not by MAPK-activated protein kinase 2. Janus kinase 2 activity, previously reported to be required for IFN-gamma-mediated Ser727 phosphorylation, was not needed for LPS-mediated Ser727 phosphorylation, and activation of Janus kinase 2 did not cause the appearance of STAT1 Ser727 kinase activity. Our data suggest that STAT1 is phosphorylated at Ser727 by a stress-activated signaling pathway either through p38 MAPK directly or through an unidentified kinase downstream of p38MAPK.
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PMID:Stress-induced phosphorylation of STAT1 at Ser727 requires p38 mitogen-activated protein kinase whereas IFN-gamma uses a different signaling pathway. 1057 Jan 80

Recently, it has been demonstrated that the CD40 receptor is constitutively expressed on cultured microglia at low levels. Ligation of CD40 by CD40 ligand on these cells results in microglial activation, as measured by TNF-alpha production and neuronal injury. However, the intracellular events mediating this effect have yet to be investigated. We report that ligation of microglial CD40 triggers activation of p44/42 mitogen-activated protein kinase (MAPK). This effect is evident 30 min posttreatment, and progressively declines thereafter (from 30 to 240 min). Phosphorylated p38 MAPK is not observed in response to ligation of microglial CD40 across the time course examined. Inhibition of the upstream activator of p44/42 MAPK, mitogen-activated protein/extracellular signal-related kinase kinase 1/2, with PD98059, decreases phosphorylation of p44/42 MAPK and significantly reduces TNF-alpha release following ligation of microglial CD40. Furthermore, cotreatment of microglial cells with CD40 ligand and TGF-beta1 or IL-10, or both, inhibits CD40-mediated activation of p44/42 MAPK and production of TNF-alpha in a statistically interactive manner. Taken together, these data show that ligation of microglial CD40 triggers TNF-alpha release through the p44/42 MAPK pathway, an effect that can be opposed by TGF-beta1 and IL-10.
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PMID:Ligation of microglial CD40 results in p44/42 mitogen-activated protein kinase-dependent TNF-alpha production that is opposed by TGF-beta 1 and IL-10. 1058 56

Protein kinase C encodes a family of enzymes implicated in cellular differentiation, growth control and tumor promotion. The generation and characterization of NIH-3T3 cells which stably overexpress the PKCeta isoform has been previously described by us. In these cells, overexpression of PKCeta altered the expression of specific cell cycle regulators and promoted differentiation [20]. Since PKC has been implicated in the regulation of gene expression, including that of various cytokines, we examined the production of several cytokines in these cells. We report here that out of the major pro-inflammatory cytokines examined, IL-1alpha, IL-1beta, TNF-alpha and IL-6, only IL-6 was generated and secreted in PKCeta -expressing cells without any additional inducer in serum-supplemented cultures (10% FCS). IL-6 was not detected in the control cell line, transfected with the same vector, but lacking the cDNA coding for PKCeta. Moreover, the production of IL-6 on serum stimulation correlated with the levels of PKCeta expressed in these cells. This implies that factors in the serum activate PKCeta and induce IL-6 production. We have examined several growth factors and cytokines for their ability to induce IL-6 production in our PKCeta-expressing cells. Among the growth factors tested (EGF, PDGF, FGF, insulin, IGF-1 and IL-1), PDGF and FGF were the most potent IL-6 inducers. The effects of FGF and PDGF on IL-6 production were blocked in the presence of PKC inhibitors. We also examined the signaling pathways that mediate production of IL-6 in PKCeta-expressing cells. Using specific inhibitors of the MAPK pathway, we have shown a role for ERK and p38 MAPK in FGF- and serum-stimulated IL-6 production, but only for p38 MAPK in PDGF-stimulated IL-6 production. Our studies provide evidence that PDGF and FGF can serve as upstream regulators of PKCeta and that PKCeta is involved in the expression of IL-6. This suggests that inhibition of PKC may provide a basis for the development of drugs for the treatment of disorders in which IL-6 is pathologically involved.
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PMID:Expression of PKCeta in NIH-3T3 cells promotes production of the pro-inflammatory cytokine interleukin-6. 1058 15

Hypothemycin, a resorcylic acid lactone antibiotic, was identified as active in a screen for inhibitors of T cell activation. It was found to inhibit the proliferation of mouse and human T cells stimulated with anti-CD3 mAb + PMA and of human PBMC stimulated with anti-CD3 mAb alone. This inhibition was partially reversed by exogenous IL-2 indicating that it is not due to non-specific toxicity. Hypothemycin potently suppressed the production of IL-2 (IC50: 9 nM) but affected IL-2-induced proliferation to a lesser extent (IC50: 194 nM). Hypothemycin also inhibited IL-6, IL-10, IFN-gamma and TNF-alpha production. By contrast, it markedly enhanced the production of IL-4, IL-5 and IL-13. These effects were seen both at the mRNA and protein secretion levels. Analysis of the effect of hypothemycin on CD69 induction suggested that it disrupts calcineurin-independent rather than calcineurin-dependent signaling. Furthermore, hypothemycin was able to inhibit the phosphorylation of ERK1/2 induced by PMA treatment of T cells. Therefore, hypothemycin represents an inhibitor of T cell activation with a novel mode of action and unique modulatory activity on cytokine production.
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PMID:Hypothemycin inhibits the proliferative response and modulates the production of cytokines during T cell activation. 1059 82

Proliferation of vascular smooth muscle cells (SMC) is a crucial event in the formation of atherosclerotic tissues and is regulated by nuclear transcriptional factors including nuclear factor-kappaB (NF-kappaB). We constructed a reporter gene assay to measure NF-kappaB-dependent transcriptional activity in SMC. Thrombin receptor-activating peptide (TRAP) and basic fibroblast growth factor (bFGF) stimulated SMC proliferation and rapidly enhanced the NF-kappaB transcriptional activity in a dose-dependent manner. 4-Cyano-5,5-bis-(methoxyphenyl)4-pentenoic acid (E5510) significantly inhibited SMC proliferation and also suppressed NF-kappaB transcription stimulated by TRAP and bFGF. In contrast, although tumor necrosis factor (TNF)-alpha activated NF-kappaB transcription, E5510 had no effect on TNF-alpha-induced activation. NF-kappaB was activated after the stimulation of TRAP, bFGF, and TNF-alpha in electrophoretic mobility shift assay, and E5510 suppressed the NF-kappaB activation induced by TRAP and bFGF but not the activation by TNF-alpha. Western blot analysis of I-kappaBalpha and I-kappaBbeta, inhibitors of NF-kappaB, indicated that I-kappaBalpha degradation, rather than I-kappaBbeta degradation, was important in NF-kappaB activation after the stimulation of TRAP and bFGF. PD98059, an inhibitor of extracellular signal-regulated kinase (ERK) kinase, suppressed NF-kappaB transcriptional activity and SMC proliferation. The phosphorylation of ERK1/2 was rapidly induced by TRAP and bFGF but not by TNF-alpha. These results indicate that TRAP and bFGF induced I-kappaB degradation and NF-kappaB activation through a distinct pathway from TNF-alpha and that ERK1/2 may play an important role in NF-kappaB activation induced by TRAP and bFGF.
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PMID:Regulation of vascular smooth muscle cell proliferation by nuclear factor-kappaB and its inhibitor, I-kappaB. 1062 22


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