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)

Helicobacter pylori-infected gastric mucosa displays a conspicuous infiltration of mononuclear cells and neutrophils. RANTES (short for "regulated upon activation, normal T cell expressed and secreted") is a chemoattractant cytokine (chemokine) important in the infiltration of T lymphocytes and monocytes. RANTES may therefore contribute to the cellular infiltrate in the H. pylori-infected gastric mucosa. The aim of this study was to analyze the molecular mechanism responsible for H. pylori-mediated RANTES expression. We observed that gastric epithelial cells produced RANTES upon coculture with H. pylori. In addition, H. pylori induced RANTES mRNA expression and an increase in luciferase activity in cells which were transfected with a luciferase reporter construct derived from the RANTES promoter, in gastric epithelial cells, indicating that the induction of RANTES production occurred at the transcriptional level. Induction of RANTES was dependent on an intact cag pathogenicity island. Activation of the RANTES promoter by H. pylori occurred through the action of NF-kappa B. Transfection of kinase-deficient mutants of I kappa B kinase (IKK) and NF-kappa B-inducing kinase (NIK) inhibited H. pylori-mediated RANTES activation. In contrast, tumor necrosis factor alpha- or interleukin-1/Toll-like receptor signaling molecules-such as mitogen-activated protein kinase/extracellular signal-regulated kinase kinase 1, MyD88, and interleukin-1 receptor-associated kinase-did not play a role in RANTES activation by H. pylori. Collectively, H. pylori induced NF-kappa B activation through an intracellular signaling pathway that involved IKK and NIK, leading to RANTES gene transcription. RANTES induction by H. pylori may play an important role in gastric inflammation.
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PMID:Helicobacter pylori induces RANTES through activation of NF-kappa B. 2117 33

CpG oligodeoxynucleotides (ODN) activate immune cells to produce immune mediators by Toll-like receptor 9 (TLR9)-mediated signal transduction, which activates mitogen-activated protein kinases (MAPKs) and nuclear factor-kappaB (NF-kappaB) through the MyD88/IRAK/TRAF6 kinases cascade. However, the precise mechanisms of CpG ODN activation of immune cells have not been fully elucidated. The small GTP-binding protein Ras mediates MAPK activation in response to a variety of stimuli. Up to now, it is not clear whether Ras plays a role in CpG ODN signaling. In the present study, we found that the dominant-negative version of Ras (RasN17) and specific Ras inhibitor, FTI-277, inhibited CpG ODN-induced nitric oxide (NO) and tumor necrosis factor-alpha (TNF-alpha) production by murine macrophage cell line RAW264.7. While overexpression of wild-type Ras enhanced CpG ODN-induced extracellular signal-regulated kinase (ERK), c-Jun NH2-terminal kinase (JNK), and NF-kappaB activation, overexpression of RasN17 inhibited CpG ODN-induced ERK, JNK, and NF-kappaB activation. RasN17 overexpression also inhibited CpG ODN-induced IRAK1/TRAF6 complex formation. Further studies revealed that CpG ODN activated Ras in a time- and dose-dependent manner, and Ras associated with TLR9 in a CpG ODN-dependent manner. Most interestingly, activation of Ras preceded the association of Ras with TLR9, giving rise to a possibility that Ras activation might not be dependent on the interaction between Ras and TLR9. Our data demonstrate for the first time that Ras can be activated by CpG ODN in macrophages, and Ras is involved in CpG ODN signaling as an early event by associating with TLR9 and promoting IRAK1/TRAF6 complex formation, and MAPK and NF-kappaB activation.
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PMID:Ras participates in CpG oligodeoxynucleotide signaling through association with toll-like receptor 9 and promotion of interleukin-1 receptor-associated kinase/tumor necrosis factor receptor-associated factor 6 complex formation in macrophages. 1286 18

MyD88 is an adapter protein that is involved in Toll-like receptor (TLR)- and interleukin-1 receptor (IL-1R)-induced activation of nuclear factor-kappaB (NF-kappaB) and c-Jun N-terminal kinase (JNK). By directly binding IL-1R-associated kinase (IRAK)-1 and IRAK-4, MyD88 serves as a bridging protein, enabling IRAK-4-induced IRAK-1 phosphorylation. We previously identified a lipopolysaccharide-inducible splice variant of MyD88, MyD88(S), which specifically prevents the recruitment of IRAK-4 into the IL-1R complex and thus inhibits IRAK-4-mediated IRAK-1 phosphorylation. MyD88(S) is not able to activate NF-kappaB, and in contrast functions as a dominant negative inhibitor of TLR/IL-1R-induced NF-kappaB activation. Unexpectedly, we here demonstrate that MyD88(S) still allows JNK phosphorylation and activator protein (AP)-1-dependent reporter gene induction upon overexpression in HEK293T cells. These observations indicate that NF-kappaB and JNK activation pathways can already diverge at the level of MyD88. Moreover, the regulated expression of a MyD88 splice variant which specifically interferes with NF-kappaB- but not AP-1-dependent gene expression implies an important role for alternative splicing in the fine-tuning of TLR/IL-1R responses.
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PMID:MyD88S, a splice variant of MyD88, differentially modulates NF-kappaB- and AP-1-dependent gene expression. 1288 15

The immune stimulatory unmethylated CpG motifs present in bacterial DNA (CpG DNA) induce expression of cyclooxygenase-2 (cox-2). The present study demonstrates that CpG DNA can up-regulate cox-2 expression by post-transcriptional mechanisms in RAW264.7 cells. To determine the CpG DNA-mediated signaling pathway that post-transcriptionally regulates cox-2 expression, a cox-2 translational reporter (COX2-3'-UTR-luciferase) was generated by inserting sequences within the 3'-untranslated region (UTR) of cox-2 to the 3' end of the luciferase gene under control of the SV40 promoter. CpG DNA-induced COX2-3'-UTR-luciferase activity was completely inhibited by an endosomal acidification inhibitor chloroquine, a Toll-like receptor 9 antagonist inhibitory CpG DNA, or overexpression of a dominant negative (DN) form of MyD88. However, overexpression of DN-IRAK-1 or DN-TRAF6 resulted in substantial, but not complete, inhibition of the CpG DNA-induced COX2-3'-UTR-luciferase activity. Activation of all three MAPKs (ERK, p38, and JNK) was required for optimal COX2-3'-UTR-luciferase activity induced by CpG DNA. Overexpression of DN-TRAF6 suppressed CpG DNA-mediated activation of p38 and JNK, but not ERK, explaining the partial inhibitory effects of DN-TRAF6 on CpG DNA-induced COX2-3'-UTR-luciferase activity. Co-expression of DN-TRAF6 and N17Ras completely inhibited CpG DNA-induced COX2-3'-UTR-luciferase activity, indicating the involvement of Ras in CpG DNA-mediated ERK and COX2-3'-UTR regulation. Collectively, our results suggest that MyD88 and MAPKs play a key regulatory role in CpG DNA-mediated cox-2 expression at the post-transcriptional level and that TRAF6 is a diverging point in the Toll-like receptor 9-signaling pathway for CpG DNA-mediated MAPK activation.
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PMID:Myeloid differentiation factor 88-dependent post-transcriptional regulation of cyclooxygenase-2 expression by CpG DNA: tumor necrosis factor-alpha receptor-associated factor 6, a diverging point in the Toll-like receptor 9-signaling. 1290 24

Pulmonary epithelial cells are continuously exposed to microbial challenges as a result of breathing. It is recognized that immune myeloid cells express Toll-like receptors (TLRs), which play a major role in detecting microbes and initiating innate immune responses. In contrast, little is known concerning the expression of TLR in pulmonary epithelial cells per se, their distribution within the cell, their function, and the signaling pathways involved. In this work, we demonstrated by reverse transcription-PCR and/or immunoblot that TLR4 and the accessory molecule MD-2 are constitutively expressed in distinct human alveolar and bronchial epithelial cells. We further characterized by flow cytometry, biotinylation/precipitation, and confocal microscopy the intracellular localization of TLR4 in these cells. Despite this intracellular compartmentalization of TLR4, pulmonary epithelial cells were responsive to the TLR4 activator lipopolysaccharide (LPS), a potent Gram-negative bacteria-associated molecular pattern. Using respiratory epithelial cells isolated from TLR4 knock-out and wild type mice, we demonstrated that TLR4 is the actual activating receptor for LPS in these cells. Furthermore we showed that this cell response to LPS involves a signaling complex including the kinases interleukin-1 receptor-associated kinase (IRAK), p38, Jnk, and ERK1/2. Moreover, using vectors expressing dominant-negative forms of MyD88 and TRAF6, we established that LPS-induced activation of respiratory epithelial cells is largely dependent on TLR4 signaling intermediates. Altogether these data demonstrate that TLR4 is a key element in the response of pulmonary epithelial cells to molecules derived from Gram-negative bacteria. The intracellular localization of TLR4 in lung epithelia is expected to play an important role in the prevention of the development of chronic inflammatory disease.
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PMID:Response of human pulmonary epithelial cells to lipopolysaccharide involves Toll-like receptor 4 (TLR4)-dependent signaling pathways: evidence for an intracellular compartmentalization of TLR4. 1460 Jan 54

Parenterally administered lipopolysaccharide (LPS) increases the concentration of the pro-inflammatory cytokine interleukin-1beta (IL-1beta) in the rat hippocampus and evidence suggests that this effect plays a significant role in inhibiting long-term potentiation (LTP). The anti-inflammatory cytokine IL-10, antagonizes certain effects of IL-1beta, so if the effects of LPS are mediated through an increase in IL-1beta, it might be predicted that IL-10 would also abrogate the effect of LPS. Here, we report that IL-10 reversed the inhibitory effect of LPS on LTP and the data couple this with an inhibitory effect on the LPS-induced increase in IL-1beta. LPS treatment increased hippocampal expression of IL-1 receptor Type I protein. Consistent with the LPS-induced increases in IL-1beta concentration and receptor expression, were downstream changes which included enhanced phosphorylation of IRAK and the stress-activated kinases, JNK and p38; these LPS-induced changes were reversed by IL-10, which concurs with the idea that these events are triggered by increased activation of IL-1RI by IL-1beta. We provide evidence which indicates that LPS treatment leads to evidence of cell death and this was reversed in hippocampus prepared from LPS-treated rats which received IL-10. The evidence is therefore consistent with the idea that IL-10 acts to protect neuronal tissue from the detrimental effects induced by LPS.
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PMID:Lipopolysaccharide-induced increase in signalling in hippocampus is abrogated by IL-10--a role for IL-1 beta? 1472 Feb 13

The proinflammatory response of infected macrophages is an important early host defense mechanism against mycobacterial infection. Mycobacteria have been demonstrated to induce proinflammatory gene transcription through the Toll-like receptors, (TLR)2 and TLR 4, which initiate signaling cascades leading to nuclear factor (NF)-kappaB activation. The main transduction pathway responsible for NF-kappaB activation has been established and involves the MyD88, interleukin-1 receptor-associated kinase, tumor necrosis factor receptor-associated factor-6, NF-kappaB-inducing kinase, and inhibitor of kappaB kinase complex. The role of other kinase cascades triggered by mycobacteria in the NF-kappaB activation is less clear. We herein examine the role of the mitogen-activated protein kinases (MAPKs) and phosphatidylinositol 3-kinase (PI-3K) cascades in the expression of the bacillus Calmette-Guerin (BCG) mycobacteria-induced NF-kappaB-dependent genes, macrophage-inflammatory protein-2 (MIP-2) and inducible nitric oxide (NO) synthase. Specific pharmacological inhibition of the PI-3K, c-jun-N-terminal kinase (JNK), and to a smaller extent, p38 MAPK but not extracellular-regulated kinase (ERK), suppressed NF-kappaB-dependent reporter gene transcription and MIP-2 and NO secretion in BCG-induced RAW264.7 macrophages. A similar effect was obtained following molecular inhibition of JNK via JNK-interacting protein-1 overexpression. In addition, a kinase-dead mutant of MEK kinase-1, the up-stream regulator of JNK, also proved to be a potent inhibitor of NF-kappaB-reporter activity. The effect of inhibitors was mediated by the down-regulation of NF-kappaB transcription activity and without effecting its nuclear translocation. These data suggest an indirect mechanism of the NF-kappaB regulation by these kinases, probably through p65 phosphorylation and improved binding to the p300 transcription coactivator. The data obtained demonstrate that PI-3K, JNK, and p38 MAPK activation by mycobacteria enhance NF-kappaB-driven gene expression contributing to the proinflammatory macrophage response.
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PMID:Activation of phosphatidylinositol 3-kinase and c-Jun-N-terminal kinase cascades enhances NF-kappaB-dependent gene transcription in BCG-stimulated macrophages through promotion of p65/p300 binding. 1474 34

Local activation of the macrophage by endotoxin is essential for the eradication of invasive gram-negative infections. Circulating endotoxin at lower concentrations results in immune cell activation at distant sites leading to tissue injury. Although the cellular mechanisms involved in these potentially dissimilar events are incomplete, it appears that the proximal kinase IRAK-1 plays a role. Thus, sense and antisense IRAK-1 oligonucleotides were used to determine the role IRAK-1 plays in macrophage activation by systemic (1-100 ng/mL) and local (1000 ng/mL) concentration of lipopolysaccharide (LPS) within THP-1 cells. Within the sense group, 1-1000 ng/mL of LPS within the sense group resulted in cellular activation of ERK-1/2, p38, and JNK/SAPK and the nuclear activation of NF-kappaB and AP-1. This activation was associated with proinflammatory cytokine production and cellular spreading. Systemic concentrations of LPS within the antisense group were associated with significant attenuation of intracellular signaling, cytokine production, and cellular spreading compared with the sense group. Local concentrations of LPS within the antisense group, however, were associated only with a delay in intracellular signaling, with no effect on cytokine production or cell spreading compared with the sense group. Based on these results, it appears that IRAK-1 is essential to macrophage activation at systemic, but not local, concentrations of LPS. These data suggest that redundant pathways exist that are functional at higher concentrations of LPS. Therefore, IRAK-1 appears to be the central kinase involved in the activation of the macrophage at distant sites during septic shock but is not necessary for activation in areas of local infection.
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PMID:Modulation of macrophage responsiveness to lipopolysaccharide by IRAK-1 manipulation. 1475 94

The discovery of the Toll-like receptors (TLRs) has revolutionised the field of innate immunity. One unresolved question regarding LPS signalling is whether there is a role for tyrosine kinases downstream of the LPS receptor. Studies in mice deficient in Bruton's tyrosine kinase have previously shown that they are defective in their responses to LPS. Further investigation into the role of Btk in LPS signalling has directly implicated Btk downstream of TLR4, both with respect to p38 MAPK activation and activation of the transcription factor NFkappaB. In fact Btk is activated by LPS and has been shown to directly bind TLR4 and the key proximal signalling proteins involved in LPS-induced NFkappaB activation, MyD88, Mal and IRAK-1. These recent findings point to a direct role for Btk in LPS signal transduction and raise interesting questions regarding the mode of activation of Btk following LPS stimulation and the precise nature of the pathways activated downstream of Btk. A better understanding of how Btk functions in LPS signalling will have important implications for inflammatory and autoimmune disorders and therapies thereof.
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PMID:Bruton's tyrosine kinase (Btk)-the critical tyrosine kinase in LPS signalling? 1508 22

Interleukin-1 (IL-1) stimulation leads to the recruitment of interleukin-1 receptor-associated kinase (IRAK) to the IL-1 receptor, where IRAK is phosphorylated, ubiquitinated, and eventually degraded. Kinase-inactive mutant IRAK is still phosphorylated in response to IL-1 stimulation when it is transfected into IRAK-deficient cells, suggesting that there must be an IRAK kinase in the pathway. The fact that IRAK4, another IRAK family member necessary for the IL-1 pathway, is able to phosphorylate IRAK in vitro suggests that IRAK4 might be the IRAK kinase. However, we now found that the IRAK4 kinase-inactive mutant had the same ability as the wild-type IRAK4 in restoring IL-1-mediated signaling in human IRAK4-deficient cells, including NFkappaB-dependent reporter gene expression, the activation of NFkappaB and JNK, and endogenous IL-8 gene expression. These results strongly indicate that the kinase activity of human IRAK4 is not necessary for IL-1 signaling. Furthermore, we showed that the kinase activity of IRAK4 was not necessary for IL-1-induced IRAK phosphorylation, suggesting that IRAK phosphorylation can probably be achieved either by autophosphorylation or by trans-phosphorylation through IRAK4. In support of this, only the impairment of the kinase activity of both IRAK and IRAK4 efficiently abolished the IL-1 pathway, demonstrating that the kinase activity of IRAK and IRAK4 is redundant for IL-1-mediated signaling. Moreover, consistent with the fact that IRAK4 is a necessary component of the IL-1 pathway, we found that IRAK4 was required for the efficient recruitment of IRAK to the IL-1 receptor complex.
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PMID:IRAK4 kinase activity is redundant for interleukin-1 (IL-1) receptor-associated kinase phosphorylation and IL-1 responsiveness. 1508 82


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