Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-6 (IL-6) subfamily of cytokines, including oncostatin M (OSM), leukemia inhibitory factor (LIF), and IL-6, has been implicated in a variety of physiological responses, such as cell growth, differentiation, and inflammation. In the present study, we demonstrated that both OSM and LIF stimulated the proliferation of human adipose tissue-derived mesenchymal stem cells (hATSCs), however, IL-6 had no effect on cell proliferation. OSM treatment induced phosphorylation of ERK, and pretreatment with U0126, a MEK inhibitor, prevented the OSM-stimulated proliferation of hATSCs, suggesting that the MEK/ERK pathway is involved in the OSM-induced proliferation. Treatment with OSM also induced phosphorylation of JAK2 and JAK3, and pretreatment of the cells with WHI-P131, a JAK3 inhibitor, but not with AG490, a JAK2 inhibitor, attenuated the OSM-induced proliferation of hATSCs. Furthermore, OSM treatment elicited phosphorylation of STAT1 and STAT3, and pretreatment with WHI-P131 specifically prevented the OSM-induced phosphorylation of STAT1, without affecting the OSM-induced phosphorylation of ERK and STAT3. These results suggest that two separate signaling pathways, such as MEK/ERK and JAK3/STAT1, are independently involved in the OSM-stimulated proliferation of hATSCs.
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PMID:Oncostatin M induces proliferation of human adipose tissue-derived mesenchymal stem cells. 1597 22

The intracellular signaling pathways that mediate cytokine-induced granulocytic and monocytic differentiation are incompletely understood. In this study, we examined the importance of the MEK/ERK signal transduction pathway in granulocyte-colony stimulating factor (G-CSF)-induced granulocytic differentiation of murine 32 Dc l3 cells, and in interleukin-6 (IL-6)-induced monocytic differentiation of murine M1 cells. Induction of granulocytic differentiation with G-CSF, or monocytic differentiation with IL-6, led to rapid and sustained activation of the MEK-1/-2 and ERK-1/-2 enzymes. Inhibition of the MEK/ERK pathway by pretreatment with the MEK inhibitor U 0126 dramatically attenuated G-CSF-induced granulocytic differentiation and IL-6-induced monocytic differentiation. Inhibition of MEK/ERK signaling also significantly reduced cytokine-induced DNA binding activities of STAT 3 and PU.1, transcription factors that have been implicated in myeloid differentiation. Additionally, interleukin-3, which inhibits G-CSF-induced differentiation of 32 Dc l3 cells, also inhibited the ability of G-CSF to stimulate prolonged MEK/ERK activation. Thus, the opposing actions of different hematopoietic cytokines on myeloid progenitors may be mediated at the level of MEK/ERK activation. Taken together, these studies demonstrate an important requirement for MEK/ERK activation during cytokine-induced granulocytic and monocytic differentiation.
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PMID:Cytokine-induced myeloid differentiation is dependent on activation of the MEK/ERK pathway. 1609 86

Tissue hypoxia is a common sequel of trauma-hemorrhage but can occur even without blood loss under hypoxic conditions. Although hypoxia is known to upregulate Kupffer cells (KC) to release cytokines, the precise mechanism of release remains unknown. We hypothesized that Src family kinases play a role in mediating KC mitogen-activated protein kinase (MAPK) signaling and their cytokine production after hypoxia. Male C3H/HeN mice received either Src inhibitor PP1 (1.5 mg/kg body wt) or vehicle 1 h before hypoxia. KCs were isolated 1 h after hypoxia, lysed, and immunoblotted with antibodies to Src, p38, ERK1/2, or JNK proteins. In addition, KCs were cultured to measure interleukin-6 (IL-6) and monocyte chemoattractant protein-1 (MCP-1) production. Hypoxia produced a significant increase in KC Src and MAPK (p38, ERK, JNK) activity compared with normoxic controls. This was associated with an increase in IL-6 and MCP-1 production. Treatment with PP1 abolished the increase in KC Src activation as well as p38 activity. However, PP1 did not prevent the increase in KC ERK1/2 or JNK phosphorylation. Furthermore, administration of PP1 prevented the hypoxia-induced increase in IL-6 but not MCP-1 release by KC. Additional in vitro results suggest that p38 but not ERK1/2 or JNK are critical for KC IL-6 production. In contrast, the production of MCP-1 by KC was found to be independent of MAPK. Thus hypoxia increases KC IL-6 production by p38 MAPK activation via Src-dependent pathway. Src kinases may therefore be a novel therapeutic target for preventing immune dysfunction following low-flow conditions in trauma patients.
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PMID:Src family kinases regulate p38 MAPK-mediated IL-6 production in Kupffer cells following hypoxia. 1657 68

Increased visceral adipose tissue results in elevated plasma leptin, which are associated with increased risk of a number of obesity-related cancers. However, research is contradictory regarding the role of elevated plasma leptin in colon cancer risk. Having established that leptin induced proliferation in a murine model of preneoplastic (Apc(Min/+); IMCE) colon epithelial cells but not normal (Apc(+/+); YAMC) cells, we hypothesized that the leptin-associated IMCE cell proliferation was a result of autocrine interleukin-6 (IL-6) production and ensuing IL-6 receptor (IL-6R) signaling. Here we show, for the first time, that leptin induces elevated IL-6 production in IMCE cells but not in YAMC cells. IL-6 treatment induced cell proliferation in IMCE cells, but not in YAMC cells, in a concentration-dependent manner from 0.1 to 100 ng/ml (P < 0.05). Interleukin-6-induced IMCE cell proliferation was blocked by the addition of a neutralizing anti-IL-6R antibody. In addition, leptin-induced IMCE cell proliferation was blocked by the addition of an anti-IL-6R neutralizing antibody. Further, we elucidate a novel mechanism by which leptin activates TACE/ADAM17-associated IL-6R shedding and trans-IL-6 signaling in IMCE by induction of IL-6 production. IL-6 treatment of IMCE cells was associated with STAT3, ERK, p38, MEK and JAK2 activation and associated STAT3 nuclear activation and translocation. These data implicate leptin-induced IL-6 production, signaling and subsequent STAT3 activation as early events promoting the survival/proliferation of colon epithelial preneoplastic cells. The elucidation of the leptin-initiated mechanism of preneoplastic cell proliferation establishes a biologically plausible link between the adipocyte-specific cytokine leptin and obesity-associated colon cancer.
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PMID:Interleukin-6 production induced by leptin treatment promotes cell proliferation in an Apc (Min/+) colon epithelial cell line. 1659 43

Oncostatin M (OSM) is a multifunctional cytokine of the interleukin-6 family and has been implicated in embryonic development, differentiation, inflammation, and regeneration of liver and bone. In the present study, we demonstrated that treatment of human adipose mesenchymal stem cells (hADSCs) with OSM-attenuated adipogenic differentiation, as indicated by decreased accumulation of intracellular lipid droplets and down-regulated expression of adipocytic markers, such as lipoprotein lipase and PPARgamma. However, OSM treatment stimulated osteogenic differentiation, as demonstrated by the increase in matrix mineralization and expression levels of osteogenic differentiation markers, including alkaline phosphatase, Runx2, and osteocalcin. OSM treatment induced activation of JAK2, JAK3, and ERK in hADSCs, and pre-treatment of hADSCs with the JAK2 inhibitor, AG490, significantly restored the OSM-induced inhibition of adipogenic differentiation. Whereas, the JAK3 inhibitor, WHI-P131, and the MEK inhibitor, U0126, had no effects on the anti-adipogenic activity of OSM. On the other hand, the pro-osteogenic activity of OSM was prevented by treatment of the cells with WHI-P131 or U0126, but not with AG490. These results indicate that distinct signaling pathways, including JAK2, JAK3, and MEK-ERK, play specific roles in the OSM-induced anti-adipogenic and pro-osteogenic differentiation of hADSCs.
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PMID:Oncostatin M promotes osteogenesis and suppresses adipogenic differentiation of human adipose tissue-derived mesenchymal stem cells. 1722 68

CCN2 is expressed by mesenchymal cells undergoing active tissue remodeling, and is characteristically overexpressed in connective tissue pathologies such as fibrosis and cancer. However, the physiological roles and mechanism of action of CCN2 are largely unknown. Here, we probe the contribution of CCN2 to the biology of mouse embryonic fibroblasts (MEFs) using genome-wide mRNA expression profiling, proteomic and functional bioassay analyses. We show that ccn2-/- mouse embryonic fibroblasts (MEFs) have significantly reduced the expression of pro-adhesive, pro-inflammatory and pro-angiogenic genes such as interleukin-6 (IL-6), ceruloplasmin, thrombospondin-1, lipocalin-2 and syndecan 4. Anti-syndecan 4 antibody reduced ERK phosphorylation in ccn2+/+ MEFs. In ccn2+/+ MEFs, the MEK inhibitor U0126 and dominant negative ras reduced expression of IL-6 and lipocalin-2. Overexpressing syndecan 4 in ccn2-/- MEFs restored IL-6 and lipocalin-2 mRNA expression. Syndecan 4 has been shown to mediate cell migration. We found that ccn2+/+ MEFs migrated significantly faster than ccn2-/- MEFs; anti-syndecan 4 antibody and U0126 reduced the migration of ccn2+/+ MEFs to that of ccn2-/- MEFs. These results collectively support the notion that syndecan 4 acts downstream of CCN2 in MEFs, and that reduced syndecan 4 expression contributes to at least part of the ccn2-/- phenotype. Further, these results suggest that CCN2 is required for MEFs to contribute to aspects of tissue remodeling. Consistent with this notion, whereas ccn2+/+ MEFs displayed actin stress fibers and focal adhesions at the cell periphery consistent with a migratory phenotype, ccn2-/- MEFs displayed reduced focal adhesions and actin stress fibers, and a reduced ability to transduce forces across a collagen gel matrix. Collectively, these results suggest that CCN2 supplies essential, non-redundant functions required for fibroblasts to properly participate in features of embryogenesis, and further suggest that CCN2 may play essential roles in adult wound healing, tissue repair and fibrogenesis.
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PMID:CCN2 is necessary for the function of mouse embryonic fibroblasts. 1723 53

Macrophages proliferate in the presence of their growth factor, macrophage colony-stimulating factor (M-CSF), in a process that is dependent on early and short ERK activation. Lipopolysaccharide (LPS) induces macrophage activation, stops proliferation, and delays ERK phosphorylation, thereby triggering an inflammatory response. Proliferating or activating responses are balanced by the kinetics of ERK phosphorylation, the inactivation of which correlates with Mkp1 induction. Here we show that the transcriptional induction of this phosphatase by M-CSF or LPS depends on JNK but not on the other MAPKs, ERK and p38. The lack of Mkp1 induction caused by JNK inhibition prolonged ERK-1/2 and p38 phosphorylation. The two JNK genes, jnk1 and jnk2, are constitutively expressed in macrophages. However, only the JNK1 isoform was phosphorylated and, as determined in single knock-out mice, was necessary for Mkp1 induction by M-CSF or LPS. JNK1 was also required for pro-inflammatory cytokine biosynthesis (tumor necrosis factor-alpha, interleukin-1 beta, and interleukin-6) and LPS-induced NO production. This requirement is independent of Mkp1 expression, as shown in Mkp1 knock-out mice. Our results demonstrate a critical role for JNK1 in the regulation of Mkp1 induction and in LPS-dependent macrophage activation.
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PMID:JNK1 Is required for the induction of Mkp1 expression in macrophages during proliferation and lipopolysaccharide-dependent activation. 1733 50

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.
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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

Bacillus anthracis, the causative agent of inhalational anthrax, enters a host through the pulmonary system before dissemination. We have previously shown that human alveolar macrophages participate in the initial innate immune response to B. anthracis spores through cell signal-mediated cytokine release. We proposed that the lung epithelia also participate in the innate immune response to this pathogen, and we have developed a human lung slice model to study this process. Exposure of our model to B. anthracis (Sterne) spores rapidly activated the mitogen-activated protein kinase signaling pathways ERK, p38, and JNK. In addition, an RNase protection assay showed induction of mRNA of several cytokines and chemokines. This finding was reflected at the translational level by protein peak increases of 3-, 25-, 9-, 34-, and 5-fold for interleukin-6 (IL-6), tumor necrosis factor alpha, IL-8, macrophage inflammatory protein 1alpha/beta, and monocyte chemoattractant protein 1, respectively, as determined by an enzyme-linked immunosorbent assay. Inhibition of individual pathways by UO126, SP600125, and SB0203580 decreased induction of chemokines and cytokines by spores, but this depended on the pathways inhibited and the cytokines and chemokines induced. Combining all three inhibitors reduced induction of all cytokines and chemokines tested to background levels. An immunohistochemistry analysis of IL-6 and IL-8 revealed that alveolar epithelial cells and macrophages and a few interstitial cells are the source of the cytokines and chemokines. Taken together, these data showed the activation of the pulmonary epithelium in response to B. anthracis spore exposure. Thus, the lung epithelia actively participate in the innate immune response to B. anthracis infection through cell signal-mediated elaboration of cytokines and chemokines.
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PMID:Human lung innate immune response to Bacillus anthracis spore infection. 1751 78

Interleukin-6 (IL-6) is a pleiotropic cytokine that regulates diverse cell functions including proliferation and differentiation. Within the liver IL-6 signaling plays a central role during normal hepatic growth and regeneration yet can inhibit the proliferation of hepatocellular carcinoma (HCC) cells. The aim of the current study was to identify underlying mechanisms whereby IL-6 induces cell-cycle arrest in HCC cells. These studies demonstrate that IL-6 inhibits cell-cycle progression at the G(0)/G(1) interface through inhibition of cyclin-dependent kinase (cdk) 2 and cdk4 activity in the absence of changes in total cyclin (A, D1, D3, and E) or cdk (cdk2, 4, and cdc2 p34) expression. Inhibition of signal transduction pathways associated with IL-6 receptor activation demonstrates that IL-6-dependent inhibition of G(0)-G(1) progression occurs via Janus tyrosine kinase-signal transducers and activators of transcription-3 (Jak-STAT3)-dependent induction of p21(waf1/cip1) and is independent of ERK-MAPK signaling. These data demonstrate that, while IL-6 plays a central role in hepatocyte priming and proliferation in vivo, the pronounced inhibition of proliferation observed in HCC cells occurs due to IL-6-STAT3-dependent regulation of cdk2/cdk4 activity and p21(waf1/cip1) expression.
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PMID:Interleukin-6 mediates G(0)/G(1) growth arrest in hepatocellular carcinoma through a STAT 3-dependent pathway. 1757 77


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