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Query: UNIPROT:P05231 (
interleukin-6
)
23,907
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tumor necrosis factor (TNF)-receptor-associated-factor-6 (TRAF6) is an adaptor protein involved in Toll-like receptor (TLR) signaling. Recent studies using macrophages from TRAF6 knockout mice have revealed that TRAF6 is required for TLR7 signaling. However, an essential role of TRAF6 in TLR4 signaling and cytokine production is slightly controversial. Using an RNAi approach to reduce the cellular levels of TRAF6, we tested the role of this adaptor protein on the sensitivity of the various components of the ERK pathway mediated by TLR4 and -7 in Raw264.7, a mouse macrophage cell line. ERK activation in macrophages by TLR4 and -7 is mediated via a MAP3K, called
TPL2
/COT, which under unstimulated conditions is associated with NF kappa B1 p105, a member of the I kappa B family of proteins. Upon stimulation with TLR ligands, p105 is phosphorylated by I kappa B kinase (IKK) complex and partially degraded, which releases
TPL2
. The free
TPL2
is active and stimulates the ERK pathway via MEK1/2. The free
TPL2
, however, is also unstable and is targeted for degradation. We demonstrate here that reduced level of TRAF6 ( approximately 80% decrease) in macrophages does not significantly affect any of the components of the TLR4-stimulated ERK pathway, including p105 phosphorylation,
TPL2
degradation and ERK1/2 phosphorylation. Surprisingly, however, TLR4-induced JNK1/2 phosphorylation is significantly blocked by TRAF6 knockdown, suggesting that ERK and JNK pathways are differentially sensitive to TRAF6 levels. Furthermore, although TLR4-mediated IKK-induced p105 phosphorylation is not sensitive to TRAF6 knockdown, I kappa B alpha phosphorylation (also, IKK-induced) is significantly blocked, suggesting that TLR4 activation results in a TRAF6-sensitive and -insensitive IKK activation in macrophages. In contrast to TLR4 signaling, TLR7 activation of ERK, JNK pathways and phosphorylation of p105 and I kappa B alpha are completely inhibited in TRAF6 knockdown cells. Compared to the signaling data, while TLR4-induced TNFalpha mRNA expression is not significantly inhibited by TRAF6 knockdown, TLR7-induced TNFalpha mRNA is significantly blocked. In contrast, both TLR4- and TLR7-induced
IL6 mRNA
are significantly blocked by TRAF6 knockdown. These results suggest that while TRAF6 is absolutely essential for TLR7 activation of ERK, JNK and NF kappa B pathways, TLR4-induced ERK, JNK pathways and IKK-mediated phosphorylation of I kappa B family members as well as cytokine expression are differentially sensitive to the cellular levels of TRAF6. These results have important implications in terms of therapeutic targeting of TRAF6 complexes in diseases where TLR4 and -7 are involved.
...
PMID:Sensitivity of TLR4- and -7-induced NF kappa B1 p105-TPL2-ERK pathway to TNF-receptor-associated-factor-6 revealed by RNAi in mouse macrophages. 1750 94
Pancreatic and lung inflammation during acute pancreatitis is a poorly understood, but clinically important, phenomenon. The proto-oncogene Tpl2 (
tumor progression locus-2
) has recently been shown to have important immunomodulatory effects on some inflammatory processes, but its importance to pancreatitis has not been previously examined. Our studies were designed to (a) define the effects of Tpl2 on pancreatic and lung inflammation during pancreatitis and (b) identify mechanisms and cell types responsible for those effects. We examined pancreatitis-associated Tpl2 effects in wild type and Tpl2(-/-) mice subjected to either secretagogue-induced or bile salt-induced pancreatitis. To determine the myeloid or non-myeloid lineage of cells responsible for the Tpl2 effects, we used Tpl2(-/-) chimeric mice generated by lethal irradiation followed by bone marrow transplantation. Mechanisms responsible for the effects of Tpl2 ablation on caerulein-induced proinflammatory events were evaluated under in vivo and in vitro conditions using the techniques of electrophoretic mobility shift assay, immunoblot analysis, and quantitative reverse transcription-PCR. We found that Tpl2 ablation markedly reduced pancreatic and lung inflammation in these two dissimilar models of pancreatitis, but it did not alter pancreatic injury/necrosis in either model. The reduction in caerulein-induced pancreatic inflammation is dependent upon Tpl2 ablation in non-myeloid cells and is associated with both in vivo and in vitro inhibition of MEK, JNK, and AP-1 activation and the expression of MCP-1, MIP-2, and
interleukin-6
. Non-myeloid cell expression of Tpl2 regulates pancreatic inflammation during pancreatitis by mediating proinflammatory signals and the generation of neutrophil chemoattracting factors.
...
PMID:Tumor progression locus-2 is a critical regulator of pancreatic and lung inflammation during acute pancreatitis. 1753 24
Interleukin-6
(
IL-6
) is overexpressed and contributes to tumor cell growth in cholangiocarcinoma. Enforced
IL-6
production can alter the expression of specific microRNAs (miRNAs) involved in tumor growth, and moreover can modulate expression of methylation-dependent genes. Thus, we assessed the methylation-dependent regulation of miRNA expression in human malignant cholangiocytes stably transfected to overexpress
IL-6
. The expression of the methyltransferases DNA methyltransferase enzyme-1 and HASJ4442 was increased by
IL-6
overexpression, but was decreased by the methylation inhibitor 5-aza-2'-deoxycytidine (5-aza-CdR). Expression profiling identified seven miRNAs that were significantly downregulated by
IL-6
overexpression (<0.4-fold) and upregulated (>2-fold) by 5-aza-CdR. One of these, miR-370, is embedded in a CpG island. Although 5-aza-CdR increased miR-370 expression by 2.1-fold in malignant cells, the expression in nonmalignant cells was unchanged. The oncogene
mitogen-activated protein kinase kinase kinase 8
(MAP3K8) was identified as a target of miR-370, and its expression was decreased by 5-aza-CdR in cholangiocarcinoma cells. Overexpression of
IL-6
reduced miR-370 expression and reinstated MAP3K8 expression in vitro as well as in tumor cell xenografts in vivo. Thus,
IL-6
may contribute to tumor growth by modulation of expression of selected miRNAs, such as miR-370. These studies define a mechanism by which inflammation-associated cytokines can epigenetically modulate gene expression and directly contribute to tumor biology.
...
PMID:Epigenetic regulation of microRNA-370 by interleukin-6 in malignant human cholangiocytes. 1762 Dec 67
