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)

Tumor necrosis factor a (TNF-alpha) is a potent proinflammatory cytokine and plays a crucial role in early events of inflammation. TNF-alpha is primarily produced by monocytes and T lymphocytes. In particular, T-cell-derived TNF-alpha plays a critical role in autoimmune inflammation and superantigen-induced septic shock. However, little is known about the intracellular signaling pathways that regulate TNF expression in T cells. Here we show that extracellular signal-regulated kinase (ERK), c-Jun N-terminal kinase (JNK), and p38-mitogen-activated protein kinase (MAPK) pathways control the transcription and synthesis of TNF-alpha in A3.01 T cells that produce the cytokine upon T cell activation by costimulation with 12-O-tetradecanoylphorbol-13-acetate (TPA) and ionomycin. Selective activation of each of the distinct MAPK pathways by expression of constitutively active kinases is sufficient for TNF-alpha promoter induction. Furthermore, blockage of all three pathways almost abolishes TPA/ionomycin-induced transcriptional activation of the TNF-alpha promoter. Selective inhibition of one or more MAPK pathways impairs TNF-alpha induction by TPA/ionomycin, indicating a cooperation between these signal transduction pathways. Our approach revealed that the MAPK kinase 6 (MKK6)/p38 pathway is involved in both transcriptional and posttranscriptional regulation of TNF expression. Moreover, analysis of the progressive 5' deletion mutants of the TNF-alpha promoter indicates that distinct promoter regions are targeted by either ERK-, JNK-, or p38-activating pathways. Thus, unlike what has been reported for other TNF-alpha-producing cells, all three MAPK pathways are critical and cooperate to regulate transcription of the TNF-alpha gene in T lymphocytes, suggesting a T-cell-specific regulation of the cytokine.
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PMID:Different mitogen-activated protein kinase signaling pathways cooperate to regulate tumor necrosis factor alpha gene expression in T lymphocytes. 993 33

We report here that stress stimuli such as gamma-irradiation or the anticancer drug doxorubicin activate expression of the death-inducing ligands (DILs) CD95-L, TNF-alpha and TRAIL. Apoptosis induced by gamma-irradiation or doxorubicin engages a FADD- and caspase-dependent apoptosis pathway which is inhibited by dominant negative FADD or the caspase inhibitor zVAD. zVAD did not prevent activity of JNK/SAPKs in response to doxorubicin suggesting that JNK/SAPK activity is independent of death receptor triggering during cellular stress-induced apoptosis. In addition, JNK/SAPKs remained activated by doxorubicin in resistant cell lines in which cleavage of caspases and apoptosis was not observed. These data uncouple JNK/SAPK activation and apoptosis signaling and indicate that cellular stress-induced apoptosis involves signaling via DILs which is paralleled by activation of JNK/SAPKs. Activation of these kinases may contribute e.g., to the expression of molecules involved in apoptosis but is not sufficient for induction of the apoptosis program following cellular stress.
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PMID:JNK/SAPK activity is not sufficient for anticancer therapy-induced apoptosis involving CD95-L, TRAIL and TNF-alpha. 993 84

Kinases mediating phosphorylation and activation of cytosolic phospholipase A2 (cPLA2) in intact cells remain to be fully characterized. Platelet-activating factor stimulation of human neutrophils increases cPLA2 phosphorylation. This increase is inhibited by PD 98059, a mitogen-activated protein (MAP)/extracellular signal-regulating kinase (erk) 1 inhibitor, but not by SB 203580, a p38 MAP kinase inhibitor, indicating that this action is mediated through activation of the p42 MAP kinase (erk2). However, platelet-activating factor-induced arachidonic acid release is inhibited by both PD 98059 and SB 203580. Stimulation by TNF-alpha increases cPLA2 phosphorylation, which is inhibited by SB 203580, but not PD 98059, suggesting a role for p38 MAP kinase. LPS increases cPLA2 phosphorylation and arachidonic acid release. However, neither of these actions is inhibited by either PD 98059 or SB 203580. PMA increases cPLA2 phosphorylation. This action is inhibited by PD 98059 but not SB 203580. Finally, FMLP increases cPLA2 phosphorylation and arachidonic acid release. Interestingly, while the FMLP-induced phosphorylation of cPLA2 is not affected by the inhibitors of the p38 MAP kinase or erk cascades, both inhibitors significantly decrease arachidonic acid release stimulated by FMLP. SB 203580 or PD 98059 has no inhibitory effects on the activity of coenzyme A-independent transacylase.
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PMID:Phosphorylation of cytosolic phospholipase A2 and the release of arachidonic acid in human neutrophils. 997 12

TNF-alpha is a key pathogenic mediator of infectious and inflammatory diseases. HIV infection stimulates and dysregulates the immune system, leading to abnormal production of TNF-alpha. Despite its cytotoxic effect on some tumor cell lines, TNF-alpha functions as a growth stimulator for Kaposi's sarcoma (KS), a common malignancy in HIV-infected patients. However, signaling pathways linked to TNF-alpha-induced mitogenic responses are not well understood. We found that extracellular signal-regulated kinases 1 and 2 (ERK1/2) in KS cells were significantly activated by TNF-alpha through tyrosine/threonine phosphorylation. Using neutralizing anti-TNFR-I and TNFR-II mAbs, we have now obtained evidence that TNF-alpha-induced KS cell growth and ERK1/2 activation are mediated exclusively by TNFR-I, not by TNFR-II. A selective inhibitor for ERK1/2 activator kinases, PD98059, profoundly inhibited not only the activation of ERK1/2, but also the TNF-alpha-induced KS cell proliferation. We therefore propose that the TNFR-I-ERK1/2 pathway plays a pivotal role in transmitting to KS cells the mitogenic signals of TNF-alpha. TNFR-I possesses no intrinsic kinase activity, suggesting that TNFR-I-associated proteins may provide a link between TNFR-I and ERK1/2 activation. We found that actinomycin D treatment of KS cells selectively abolished expression of mitogen-activated protein kinase-activating death domain protein (MADD), a novel TNFR-I-associated death domain protein. TNF-alpha failed to induce ERK1/2 activation in the actinomycin D-treated cells. MADD may couple TNFR-I with the ERK1/2 signaling pathway required for KS cell proliferation.
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PMID:Implication of TNF receptor-I-mediated extracellular signal-regulated kinases 1 and 2 (ERK1/2) activation in growth of AIDS-associated Kaposi's sarcoma cells: a possible role of a novel death domain protein MADD in TNF-alpha-induced ERK1/2 activation in Kaposi's sarcoma cells. 1009 29

The biliary epithelium is exposed to mediators of inflammation such as bacterial endotoxin or lipopolysaccharide (LPS) in a variety of inflammatory conditions. These conditions are also characterized by cholangiocyte proliferation and a predisposition to malignancy. Furthermore, LPS can enhance the expression of interleukin-6 (IL-6), a known biliary mitogen. However, the effects of LPS on cholangiocyte proliferation or IL-6 secretion are unknown. Thus, our aims were to determine if LPS stimulates cholangiocyte proliferation by IL-6-dependent signaling pathways. H69 cells derived from normal human intrahepatic cholangiocytes proliferated in response to LPS. Cholangiocytes responded to LPS (and other inflammatory cytokines such as tumor necrosis factor alpha [TNF-alpha] and IL-1beta) by increased secretion of IL-6, which had a mitogenic effect on H69 cells. Preincubation with anti-IL-6 neutralizing antibodies inhibited LPS-induced proliferation. Furthermore, cholangiocytes possessed the IL-6 receptor complex subunits and intact signaling mechanisms leading to activation of signal transducers and activators of transcription (STAT) factors. Although both p38 and p44/p42 mitogen-activated protein kinases (MAPKs) were constitutively present and active in cholangiocytes, IL-6 increased p44/p42, but not p38 MAPK activity. PD098059 inhibited activation of p44/p42 MAPK in cholangiocytes and completely blocked DNA synthesis in response to IL-6 or LPS. These studies identify a critical role for the p44/p42 MAPK in cholangiocyte proliferation and demonstrate that the proliferative response of cholangiocytes to inflammatory mediators such as LPS involves IL-6-mediated activation of the p44/p42 MAPK pathway.
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PMID:Lipopolysaccharide induces cholangiocyte proliferation via an interleukin-6-mediated activation of p44/p42 mitogen-activated protein kinase. 1009 43

TNF-alpha or IL-10 has been implicated to reversibly regulate physiological states of dendritic cells (DCs). However, little is known about dual stimulations of these cytokines on DC properties and the intracellular signaling events that are responsible for the regulation of these states. Here, we show that a family of mitogen-activated protein kinases (MAPKs), extracellular signal-regulated kinase 2 (ERK2), stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK), and p38mapk, are potentially involved in IL-10-mediated selective suppression of TNF-alpha-induced changes of the monocyte-derived DC properties. TNF-alpha induced the cluster formation of the cells and the enhancement of cell surface expression levels of CD83, CD86, and HLA-DR, and T cell stimulatory capacity, whereas the capacities for the endocytosis and the chemotactic migration were suppressed in these cells. Treatment of monocyte-derived DCs with IL-10 resulted in the reduction of the cell surface expression levels of CD86, HLA-DR, and T cell stimulatory capacity, whereas both endocytic and chemotactic migratory capacities were increased by IL-10. Dual stimulations of monocyte-derived DCs with TNF-alpha and IL-10 selectively antagonized their respective effects on these DC properties. TNF-alpha induced tyrosine phosphorylation and enzymatic activation of ERK2, SAPK/JNK, and p38mapk, whereas IL-10 did not induce these events. Dual stimulations of TNF-alpha plus IL-10 abolished TNF-alpha-induced changes of these MAPKs in DCs. These results suggest that the blockage in the MAPKs cascades contributes to IL-10-mediated repression of TNF-alpha-induced changes of DC properties.
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PMID:Extracellular signal-regulated kinase, stress-activated protein kinase/c-Jun N-terminal kinase, and p38mapk are involved in IL-10-mediated selective repression of TNF-alpha-induced activation and maturation of human peripheral blood monocyte-derived dendritic cells. 1020 4

Cytokine signaling involves the participation of many adaptor proteins, including the docking protein TNF receptor-associated factor-2 (TRAF-2), which is believed to transmit the TNF-alpha signal through both the I kappa B/NF-kappa B and c-Jun N-terminal kinase (JNK)/stress-related protein kinase (SAPK) pathways. The physiological role of TRAF proteins in cytokine signaling in intestinal epithelial cells (IEC) is unknown. We characterized the effect of a dominant-negative TRAF-2 delivered by an adenoviral vector (Ad5dnTRAF-2) on the cytokine signaling cascade in several IEC and also investigated whether inhibiting the TRAF-2-transmitting signal blocked TNF-alpha-induced NF-kappa B and IL-8 gene expression. A high efficacy and level of Ad5dnTRAF-2 gene transfer were obtained in IEC using a multiplicity of infection of 50. Ad5dnTRAF-2 expression prevented TNF-alpha-induced, but not IL-1 beta-induced, I kappa B alpha degradation and NF-kappa B activation in NIH-3T3 and IEC-6 cells. TNF-alpha-induced JNK activation was also inhibited in Ad5dnTRAF-2-infected HT-29 cells. Induction of IL-8 gene expression by TNF-alpha was partially inhibited in Ad5dnTRAF-2-transfected HT-29, but not in control Ad5LacZ-infected, cells. Surprisingly, IL-1 beta-mediated IL-8 gene expression was also inhibited in HT-29 cells as measured by Northern blot and ELISA. We concluded that TRAF-2 is partially involved in TNF-alpha-mediated signaling through I kappa B/NF-kappa B in IEC. In addition, our data suggest that TRAF-2 is involved in IL-1 beta signaling in HT-29 cells. Manipulation of cytokine signaling pathways represents a new approach for inhibiting proinflammatory gene expression in IEC.
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PMID:TNF receptor-associated factor-2 is involved in both IL-1 beta and TNF-alpha signaling cascades leading to NF-kappa B activation and IL-8 expression in human intestinal epithelial cells. 1020 81

In FDCP2 myeloid cells, IL-4 activated cyclic nucleotide phosphodiesterases PDE3 and PDE4, whereas IL-3, granulocyte-macrophage CSF (GM-CSF), and phorbol ester (PMA) selectively activated PDE4. IL-4 (not IL-3 or GM-CSF) induced tyrosine phosphorylation of insulin-receptor substrate-2 (IRS-2) and its association with phosphatidylinositol 3-kinase (PI3-K). TNF-alpha, AG-490 (Janus kinase inhibitor), and wortmannin (PI3-K inhibitor) inhibited activation of PDE3 and PDE4 by IL-4. TNF-alpha also blocked IL-4-induced tyrosine phosphorylation of IRS-2, but not of STAT6. AG-490 and wortmannin, not TNF-alpha, inhibited activation of PDE4 by IL-3. These results suggested that IL-4-induced activation of PDE3 and PDE4 was downstream of IRS-2/PI3-K, not STAT6, and that inhibition of tyrosine phosphorylation of IRS molecules might be one mechnism whereby TNF-alpha could selectively regulate activities of cytokines that utilized IRS proteins as signal transducers. RO31-7549 (protein kinase C (PKC) inhibitor) inhibited activation of PDE4 by PMA. IL-4, IL-3, and GM-CSF activated mitogen-activated protein (MAP) kinase and protein kinase B via PI3-K signals; PMA activated only MAP kinase via PKC signals. The MAP kinase kinase (MEK-1) inhibitor PD98059 inhibited IL-4-, IL-3-, and PMA-induced activation of MAP kinase and PDE4, but not IL-4-induced activation of PDE3. In FDCP2 cells transfected with constitutively activated MEK, MAP kinase and PDE4, not PDE3, were activated. Thus, in FDCP2 cells, PDE4 can be activated by overlapping MAP kinase-dependent pathways involving PI3-K (IL-4, IL-3, GM-CSF) or PKC (PMA), but selective activation of PDE3 by IL-4 is MAP kinase independent (but perhaps IRS-2/PI3-K dependent).
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PMID:IL-3 and IL-4 activate cyclic nucleotide phosphodiesterases 3 (PDE3) and 4 (PDE4) by different mechanisms in FDCP2 myeloid cells. 1020 31

IL-17 expression is restricted to activated T cells, whereas the IL-17R is expressed in a variety of cell types including intestinal epithelial cells. However, the functional responses of intestinal epithelial cells to stimulation with IL-17 are unknown. Moreover, the signal transduction pathways activated by the IL-17R have not been characterized. IL-17 induced NF-kappa B protein-DNA complexes consisting of p65/p50 heterodimers in the rat intestinal epithelial cell line IEC-6. The induction of NF-kappa B correlated with the induction of CXC and CC chemokine mRNA expression in IEC-6 cells. IL-17 acted in a synergistic fashion with IL-1 beta to induce the NF-kappa B site-dependent CINC promoter. Induction of the CINC promoter by IL-17 in IEC-6 cells was TNF receptor-associated factor-6 (TRAF6), but not TRAF2, dependent. Furthermore, IL-17 induction of the CINC promoter could be inhibited by kinase-negative mutants of NF-kappa B-inducing kinase and I kappa B kinase-alpha. In addition to activation of the NF-kappa B, IL-17 regulated the activities of extracellular regulated kinase, c-Jun N-terminal kinase, and p38 mitogen-activated protein kinases in IEC-6 cells. Whereas the IL-17-mediated activation of extracellular regulated kinase mitogen-activated protein kinases was mediated through ras, c-Jun N-terminal kinase activation was dependent on functional TRAF6. These data suggest that NF-kappa B-inducing kinase serves as the common mediator in the NF-kappa B signaling cascades triggered by IL-17, TNF-alpha, and IL-1 beta in intestinal epithelial cells.
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PMID:NF-kappa B-inducing kinase is a common mediator of IL-17-, TNF-alpha-, and IL-1 beta-induced chemokine promoter activation in intestinal epithelial cells. 1022 9

Several reports have shown that bicyclic imidazoles, specific inhibitors of the p38 mitogen-activated protein kinase (MAPK), block cytokine synthesis at the translational level. In this study, we examined the role of p38 MAPK in the regulation of the IL-1beta cytokine gene in monocytic cell lines using the bicyclic imidazole SB203580. Addition of SB203580 30 min before stimulation of monocytes with LPS inhibited IL-1beta protein and steady state message in a dose-dependent manner in both RAW264.7 and J774 cell lines. The loss of IL-1beta message was due mainly to inhibition of transcription, since nuclear run-off analysis showed an approximately 80% decrease in specific IL-1 RNA synthesis. In contrast, SB203580 had no effect on the synthesis of TNF-alpha message. LPS-stimulated p38 MAPK activity in the RAW264.7 cells was blocked by SB203580, as measured by the inhibition of MAPKAP2 kinase activity, a downstream target of the p38 MAPK. CCAATT/enhancer binding protein (C/EBP)/NFIL-6-driven chloramphenicol acetyltransferase (CAT) reporter activity was sensitive to SB203580, indicating that C/EBP/NFIL-6 transcription factor(s) are also targets of p38 MAPK. In contrast, transfected CAT constructs containing NF-kappaB elements were only partially inhibited (approximately 35%) at the highest concentration of SB203580 after LPS stimulation. As measured by EMSA, LPS-stimulated NF-kappaB activation was not affected by SB203580. Overall, the results demonstrate, for the first time, a role for p38 MAPK in IL-1beta transcription by acting through C/EBP/NFIL-6 transcription factors.
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PMID:The role of p38 mitogen-activated protein kinase in IL-1 beta transcription. 1022 13


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