EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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The metastasis-promoting protein S100A4 stimulates metastatic progression through both intracellular and extracellular functions. Extracellular activities of S100A4 include stimulation of angiogenesis, regulation of cell death and increased cell motility and invasion, but the exact molecular mechanisms by which extracellular S100A4 exerts these effects are incompletely elucidated. The aim of the present study was to characterize S100A4-induced signal transduction mechanisms and to identify S100A4 target genes. We demonstrate that extracellular S100A4 activates the transcription factor NF-kappaB in a subset of human cancer cell lines through induction of phosphorylation and subsequent degradation of the NF-kappaB inhibitor IkappaBalpha. Concomitantly, S100A4 induced a sustained activation of the MAP kinase JNK, whereas no increased activity of the MAP kinases p38 or ERK was observed. Microarray analyses identified 136 genes as being significantly regulated by S100A4 treatment, and potentially interesting S100A4-induced gene products include IkappaBalpha, p53, ephrin-A1 and optineurin. Increased expression of ephrin-A1 and optineurin was validated using RT-PCR, Western blotting and functional assays. Furthermore, S100A4-stimulated transcription of these target genes was dependent on activation of the NF-kappaB pathway. In conclusion, these findings contribute to the understanding of the complex molecular mechanisms responsible for the diverse biological functions of extracellular S100A4, and provide further evidence of how S100A4 may stimulate metastatic progression.
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PMID:Activation of NF-kappaB by extracellular S100A4: analysis of signal transduction mechanisms and identification of target genes. 1854 84

Celecoxib is a specific inhibitor of cyclooxygenase 2 (COX2). While it has been used for the treatment of chronic inflammatory conditions, including rheumatoid arthritis, its detailed anti-inflammatory mechanism has not been clarified. Here, we found that Celecoxib potently inhibited TNFalpha-induced transcriptional activity and DNA binding activity of NF-kappaB; however, Celecoxib had no effect on TNFalpha-induced IKK activation and degradation of IkappaBalpha and IkappaBbeta, suggesting that it inhibited NF-kappaB activation via suppressing downstream of IKK activation and IkappaBs degradation. Interestingly, it was also found that Celecoxib abrogated TNFalpha-induced nuclear accumulation of the NF-kappaB p65 subunit. As a result, TNFalpha-induced expression of inflammatory cytokines, CXCL1/KC and CCL2/MCP-1, was clearly inhibited by Celecoxib. On the other hand, Celecoxib had no effect on the TNFalpha-induced nuclear translocation of c-jun and activation of ERK, JNK, p38 and Akt. Taken together, these data indicate that Celecoxib specifically inhibits TNFalpha-induced NF-kappaB activation at the level of its nuclear translocation. This negative regulation of NF-kappaB activation by Celecoxib might be an important mechanism leading to its anti-inflammatory activity.
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PMID:Celecoxib potently inhibits TNFalpha-induced nuclear translocation and activation of NF-kappaB. 1864 47

Thyroid hormone (T3) plays a crucial role in processes such as cell proliferation and differentiation, whereas its implication on cellular apoptosis has not been well documented. Here we examined the effect of T3 on the apoptosis of GH4C1 pituitary cells and the mechanisms underlying this effect. We show that T3 produced a significant increase in apoptosis in serum-depleted conditions. This effect was accompanied by a decrease in nuclear factor-kappaB (NF-kappaB)-dependent transcription, IkappaBalpha phosphorylation, translocation of p65/NF-kappaB to the nucleus, phosphorylation, and transactivation. Moreover, these effects were correlated with a T3-induced decrease in the expression of antiapoptotic gene products, such as members of the inhibitor of apoptosis protein and Bcl-2 families. On the other hand, ERK but not c-Jun N-terminal kinase or MAPK p38, was activated upon exposure to T3, and inhibition of ERK alone abrogated T3-mediated apoptosis. In addition, T3 increased the expression of the MAPK phosphatase, dual specificity phosphatase 1 (DUSP1), in an ERK-dependent manner. Interestingly, the suppression of DUSP1 expression abrogated T3-induced inhibition of NF-kappaB-dependent transcription and p65/NF-kappaB translocation to the nucleus, as well as T3-mediated apoptosis. Overall, our results indicate that T3 induces apoptosis in rat pituitary tumor cells by down-regulating NF-kappaB activity through a mechanism dependent on the ERK/DUSP1 pathway.
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PMID:Thyroid hormone-mediated activation of the ERK/dual specificity phosphatase 1 pathway augments the apoptosis of GH4C1 cells by down-regulating nuclear factor-kappaB activity. 1875 55

Hydrogen sulfide (H(2)S) up-regulates inflammatory response in several inflammatory diseases. However, to date, little is known about the molecular mechanism by which H(2)S provokes the inflammatory response in sepsis. Thus, the aim of this study was to investigate the signaling pathway underlying the proinflammatory role of H(2)S in cecal ligation and puncture (CLP)-induced sepsis. Male Swiss mice were subjected to CLP and treated with dl-propargylglycine (PAG; 50 mg/kg i.p., an inhibitor of H(2)S formation), NaHS (10 mg/kg, i.p., an H(2)S donor), or saline. PAG was administered 1 h before CLP, whereas NaHS was given at the time of CLP. CLP-induced sepsis resulted in a time-dependent increase in the synthesis of endogenous H(2)S. Maximum phosphorylation of ERK1/2 and degradation of IkappaBalpha in lung and liver were observed 4 h after CLP. Inhibition of H(2)S formation by PAG significantly reduced the phosphorylation of ERK1/2 in lung and liver 4 h after CLP, coupled with decreased degradation of IkappaBalpha and activation of NF-kappaB. In contrast, injection of NaHS significantly enhanced the activation of ERK1/2 in lung and liver, therefore leading to a further rise in tissue NF-kappaB activity. As a result, pretreatment with PAG significantly reduced the production of cytokines and chemokines in sepsis, whereas exogenous H(2)S greatly increased it. In addition, pretreatment with PD98059, an inhibitor of ERK kinase (MEK-1), significantly prevented NaHS from aggravating systemic inflammation in sepsis. In conclusion, the present study shows for the first time that H(2)S may regulate systemic inflammatory response in sepsis via ERK pathway.
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PMID:Endogenous hydrogen sulfide regulates inflammatory response by activating the ERK pathway in polymicrobial sepsis. 1876 90

Although dam mutants of Salmonella have been proposed as live vaccines, their capacity to trigger cell inflammatory cascades has not been fully elucidated. We investigated in detail the ability of Salmonella enterica dam mutant to activate the signalling pathways of the inflammatory response in RAW 264.7 cells. Apoptosis in macrophages treated with Salmonella dam mutant was low. Similarly, the expression of both NOS-2 and COX-2 and subsequently the production of NO and PGE(2) was significantly reduced. Also, Salmonella dam mutant induced an attenuated activation of the inflammatory signalling pathway as indicated by the reduced degradation of IkappaBalpha and IkappaBbeta and the low IkappaBalpha phosphorylation found. In addition, translocation of p65 to the nucleus was notably impaired and the amount of phosphorylated p44, p42 and p38 MAPKs was clearly reduced in extracts from dam-infected macrophages. These results indicate that the lack of ERK and p38 phosphorylation at the proper time in dam-infected cells notably reduces the engagement of subsequent signalling pathways involved in the full activation of NF-kappaB in response to infection. Taken together, these results suggest that Salmonella activation of both signalling cascades in the inflammatory response is a mechanism requiring Dam protein participation.
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PMID:Salmonella enterica serovar Enteritidis dam mutant induces low NOS-2 and COX-2 expression in macrophages via attenuation of MAPK and NF-kappaB pathways. 1880 55

Antigen with dual costimulation through CD137 and CD134 induces powerful CD8 T cell responses. These effector T cells are endowed with an intrinsic survival program resulting in their accumulation in vivo, but the signaling components required for survival are unknown. We tested a cadre of pathway inhibitors and found one preclinical compound, Bay11-7082 (Bay11), which prevented survival. Even the gammac cytokine family members IL-2, -4, -7, and -15 could not block death, nor could pretreatment with IL-7. We found that dual costimulation caused loading of phosphorylated IkappaBalpha (p-IkappaBalpha) and high basal levels of NF-kappaB activity in the effector CD8 T cells. Bay11 trumped both events by reducing the presence of p-IkappaBalpha and ensuing NF-kappaB activity. Not all pathways were impacted to this degree, however, as mitogen-mediated ERK phosphorylation was evident during NF-kappaB inhibition. Nonetheless, Bay11 blocked TCR-stimulated cytokine synthesis by rapidly accentuating activation-induced cell death through elicitation of a caspase-independent pathway. Thus, in effector CD8 T cells, Bay11 forces a dominant caspase-independent death signal that cannot be overcome by an intrinsic survival program nor by survival-inducing cytokines. Therefore, Bay11 may be a useful tool to deliberately kill death-resistant effector T cells for therapeutic benefit.
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PMID:The IKK-neutralizing compound Bay11 kills supereffector CD8 T cells by altering caspase-dependent activation-induced cell death. 1892 4

Tumor malignancy is associated with several features such as proliferation ability and frequency of metastasis. Osteopontin (OPN), which is abundantly expressed in bone matrix, is involved in cell adhesion, migration, invasion and cell proliferation via interaction with its receptor, alphavbeta3 integrin. However, the effect of OPN on migration activity in human lung cancer cells is mostly unknown. Here we found that OPN increased the migration via activation of alphavbeta3 integrin in human lung cancer cells (A549 cells). Phosphatidylinositol 3-kinase inhibitor (PI3K; Ly294002), Akt inhibitor or ERK inhibitor (PD98059) inhibited the OPN-induced increase in the migration of lung cancer cells. OPN stimulation increased the phosphorylation of focal adhesion kinase (FAK), p85 subunit of PI3K, serine 473 of Akt and ERK. In addition, treatment of A549 cells with NF-kappaB inhibitor (PDTC) or IkappaB protease inhibitor (TPCK) inhibited OPN-induced migration of lung cancer cells. Stimulation of A549 cells with OPN also induced IkappaB kinase alpha/beta (IKK alpha/beta) phosphorylation, IkappaBalpha phosphorylation, p65 Ser(536) phosphorylation, and kappaB-luciferase activity. The OPN-mediated increases in IKK alpha/beta, IkappaBalpha and p65 Ser(536) phosphorylation were inhibited by Ly294002, Akt inhibitor and PD98059. Co-transfection with FAK, p85, Akt and ERK mutants also reduced the OPN-induced kappaB-luciferase activity. Taken together, these results suggest that OPN acts through alphavbeta3 integrin, which in turn activates the FAK, PI3K, Akt, ERK and NF-kappaB pathways, contributing to the migration of lung cancer cells.
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PMID:Osteopontin increases lung cancer cells migration via activation of the alphavbeta3 integrin/FAK/Akt and NF-kappaB-dependent pathway. 1899 13

Receptor activator of nuclear factor-kappaB ligand (RANKL) is a key factor necessary for osteoclast differentiation and activation. Mutations within the TNF-like core domain of RANKL have been recently reported in patients with osteoclast-poor autosomal recessive osteopetrosis. However, the functional consequence owing to RANKL mutations has not been well characterized. Here we describe the functional propensity of RANKL mutants in osteoclast differentiation and their impact on RANKL-mediated signaling cascades. Recombinant RANKL (rRANKL) mutants within the TNF-like core domain exhibited diminished osteoclastogenic potential as compared with wild-type rRANKL1 encoding the full TNF-like core domain [amino acids (aa) 160-318]. Consistent with the insufficient activities on osteoclastogenesis, rRANKL mutants showed reduced activation of nuclear factor-kappaB, IkappaBalpha degradation, and ERK phosphorylation. In addition, we found that rRANKL mutants interfered with wild-type rRANKL-induced osteoclastogenesis with deletion mutant rRANKL5 (aa 246-318) exhibiting the greatest inhibitory effect. The same mutant also significantly reduced wild-type rRANKL1 (aa 160-318)-induced osteoclastic bone resorption in vitro. BIAcore assays demonstrated that rRANKL5 alone, lacking the AA'' and CD loops, weakly binds to receptor activator of nuclear factor-kappaB (RANK). Intriguingly, preincubation of mutant rRANKL5 with rRANKL1 before exposure to RANK enhanced the maximal binding level to RANK, indicating that rRANKL5 forms hybrid trimeric complexes with rRANKL1. Furthermore, RANKL mutant mimicking human RANKL V277 mutation in patients, impairs osteoclast differentiation and signaling. Taken together, these data lend support to the notion that the TNF-like core domain of RANKL contains structural determinants that are crucial for osteoclast differentiation and activation, thus providing a possible mechanistic explanation for the observed phenotype in osteopetrotic patients harboring RANKL mutations.
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PMID:Mutations within the TNF-like core domain of RANKL impair osteoclast differentiation and activation. 1900 64

TNF receptor-associated factor 6 (TRAF6) is an essential adaptor protein for the Interleukin-1 (IL-1) signaling pathway; however, its role in the signaling of another proinflammatory cytokine, tumor necrosis factor alpha (TNFalpha, has not been explored. Interestingly, we observed that TNFalpha-induced expression of IL-6, CXCL1 and granulocyte macrophage colony stimulating factor (GM-CSF) were significantly enhanced in TRAF6-deficient MEFs. Compared to those observed in wild-type MEFs, TNFalpha-induced IkappaB kinase (IKK) activation and IkappaBalpha degradation were enhanced in TRAF6-deficient MEFs. Also, TNFalpha-induced DNA binding activity and transcriptional activation of nuclear factor kappaB (NF-kappaB) were also augmented in TRAF6-deficient MEFs. On the other hand, TRAF6 deficiency did not affect the TNFalpha-induced activation of mitogen-activated protein (MAP) kinases, ERK, JNK, and p38. Moreover, the reintroduction of exogenous TRAF6 into TRAF6-deficient MEFs clearly suppressed TNFalpha-induced IKK activation, NF-kappaB activation and subsequent cytokine expression. In contrast, both the deletion mutant (DeltaN) and the point mutant (C70A) of TRAF6, which is defective in its ubiquitin ligase activity, failed to repress TNFalpha-induced IKK activation, NF-kappaB activation and cytokine production. Thus, these data suggest that TRAF6 negatively regulates TNFalpha-induced NF-kappaB activation through its ubiquitin ligase activity.
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PMID:TRAF6 negatively regulates TNFalpha-induced NF-kappaB activation. 1909 94

Dectin-1 is a C-type lectin that recognizes beta-glucan in the cell walls of fungi and plays an important role in anti-fungal immunity. It signals via tyrosine kinase Syk and adaptor protein Card9 to activate NF-kappaB leading to proinflammatory cytokine production in dendritic cells (DCs). Other than this, not much else is known of the mechanism of Dectin-1 signaling. We demonstrate here that stimulation of DCs with zymosan triggers an intracellular Ca2+ flux that can be attenuated by a blocking anti-Dectin-1 antibody or by pre-treatment of cells with the phospholipase C (PLC) gamma-inhibitor U73122, suggesting that Dectin-1 signals via a PLCgamma pathway to induce Ca2+ flux in DCs. Interestingly, treatment of DCs with particulate curdlan, which specifically engages Dectin-1, results in the phosphorylation of both PLCgamma1 and PLCgamma2. However, we show that PLCgamma2 is the critical enzyme for Dectin-1 signaling in DCs. PLCgamma2-deficient DCs have drastic impairment of Ca2+ signaling and are defective in their secretion of interleukin 2 (IL-2), IL-6, IL-10, IL-12, IL-23, and tumor necrosis factor alpha. PLCgamma2-deficient DCs also exhibit impaired activation of ERK and JNK MAPKs and AP-1 and NFAT transcription factors in response to Dectin-1 stimulation. In addition, PLCgamma2-deficient DCs are also impaired in their activation of NF-kappaB upon Dectin-1 engagement due to defective assembly of the Card9-Bcl10-Malt1 complex and impaired IKKalpha/beta activation and IkappaBalpha degradation. Thus, our data indicate that pattern recognition receptors such as Dectin-1 could elicit Ca2+ signaling and that PLCgamma2 is a critical player in the Dectin-1 signal transduction pathway.
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PMID:Phospholipase Cgamma2 is critical for Dectin-1-mediated Ca2+ flux and cytokine production in dendritic cells. 1913 64

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