EC:2.7.11.10 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.10 (IKK)
4,900 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The anti-inflammatory effect of miyabenol A, a stilbene isolated from Vitis thunbergii, on lipopolysaccaride (LPS)-induced nitric oxide (NO) production in RAW264.7 macrophages was studied. Miyabenol A inhibited NO production (EC 50: 2.7 muM) and iNOS protein and mRNA expression in a parallel concentration-dependent manner. LPS-evoked NF-kappaB nuclear translocation and associated IkappaB degradation were abrogated by miyabenol A treatment. Phosphorylations of IKKalpha/beta, ERK1/2, JNK p38 MAPK, and Akt were observed in LPS-stimulated cells; nevertheless, miyabenol A selectively blocked IKKalpha/beta, p38, and Akt phosphorylation. Furthermore, LPS-stimulated IKKalpha/beta and Akt phosphorylation was abolished by p38 inhibitor SB203580. Wortmannin (a PI3K inhibitor) also attenuated LPS-induced IKKalpha/beta phosphorylation, although to a less extent than SB203580, but failed to affect p38 phosphorylation. These observations suggested that PI3K/Akt might lie downstream of p38 MAPK to coregulate LPS-induced IKKalpha/beta phosphorylation. Taken together, miyabenol A acted via interfering with p38 MAPK-related signal pathways to down-regulate IKK/IkappaB activation and NO production.
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PMID:Miyabenol A inhibits LPS-induced NO production via IKK/IkappaB inactivation in RAW 264.7 macrophages: possible involvement of the p38 and PI3K pathways. 1878 39

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

Hexamethylene Bisacetamide (HMBA) is a hybrid polar compound originally developed as a differentiation inducing agent. We show in this study that HMBA can inhibit activation of several NF kappaB target genes in both lung and breast cancer cell lines. Furthermore, consistent with its ability to inhibit NF kappaB function, HMBA can also sensitize cells to apoptosis. We show that HMBA mediates inhibition of the Akt and ERK/MAPK cascade, both of which are critical for cell survival and proliferation and are well known regulators of NF kappaB activation. We also show that PTEN negative breast cancer cells which have hyper activation of the PI3K/Akt pathway show increased sensitivity to growth inhibitory effects of combination of HMBA and TNFalpha. Furthermore, HMBA can decrease the kinase activity of the IKK complex leading to defective phosphorylation of I kappaB alpha and Ser536 of p65. This study gives mechanistic insight into the mechanism of action of HMBA, provides the rationale for the potential use of HMBA in combination with various existing kinase inhibitors in combination therapy and also suggests useful biomarkers for monitoring tumor response to HMBA.
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PMID:Hexamethylene bisacetamide (HMBA) simultaneously targets AKT and MAPK pathway and represses NF kappaB activity: implications for cancer therapy. 1902 24

G1-4A, a polysaccharide from an Indian medicinal plant Tinospora cordifolia, was recently shown to protect mice against septic shock by modulating the proinflammatory cytokines. G1-4A also activated B cells polyclonally. The present report describes in detail the molecular events associated with G1-4A-induced immunomodulation in vitro and in vivo. G1-4A treatment led to an increase in the CD69 expression in lymphocytes. G1-4A-induced proliferation of B cells was completely inhibited by PI3K inhibitor Ly294002, mTOR inhibitor rapamycin and NF-kappaB inhibitor plumbagin. Akt, ERK and JNK were activated by G1-4A which finally resulted in the activation of IKK, degradation of IkappaB-alpha and translocation of NF-kappaB to the nucleus. Administration of G1-4A to mice led to splenomegaly and an increase in the numbers of T cells, B cells and macrophages. This increase in spleen cellularity was due to in vivo proliferation of lymphocytes and upregulation of anti-apoptotic genes. Anti-TLR4-MD2 complex antibody inhibited G1-4A-induced B cell proliferation and degradation of IkappaB-alpha suggesting that TLR-4 was a receptor for G1-4A on B cells. Activation of RAW 264.7 macrophages by G1-4A was found to be dependent on ERK and NF-kappaB-mediated signals. The phagocytosis index in peritoneal exudate cells (PEC) isolated from G1-4A treated mice was significantly higher as compared to that in PEC from control mice. G1-4A administration also increased the number of CD11b(+) cells in the PEC without an increase in the total number of PEC. Thus the present understanding of the molecular mechanism of action of G1-4A, a novel non-microbial TLR4 agonist, will pave the way for its application as an immunomodulator and adjuvant.
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PMID:Molecular events in the activation of B cells and macrophages by a non-microbial TLR4 agonist, G1-4A from Tinospora cordifolia. 1942 53

Inflammatory bowel disease (IBD), including Crohn's disease and ulcerative colitis, is characterized by chronic mucosal injury and the infiltration of inflammatory cells. Tumor suppressor FOXO3 regulates gene expression and its translocation to the cytosol leads to the abrogation of its transcriptional function. We have previously shown that bacterial infection regulates FOXO3 in intestinal epithelial cells and increases cytokine levels. As TNFalpha is a major contributor in intestinal inflammation, the aim of this study was to assess its effect on FOXO3 and FOXO3's contribution to intestinal inflammation in vitro and in vivo. TNFalpha induces the translocation of nuclear FOXO3 into the cytosol where it undergoes proteasomal degradation in human intestinal HT-29 cells. Proximally, the PI3K and IKK pathways mediate TNFalpha-induced FOXO3 phosphorylation. In FOXO3-silenced HT-29 cells, TNFalpha-induced IL-8 expression is increased approximately 83%. In vivo, Foxo3 is present in the nuclei and cytosol of colonic crypt epithelia. In DSS-induced colonic inflammation, Foxo3's nuclear localization is lost and it is only found in the cytosol. Consistent with a role for Foxo3 in colitis, Foxo3-deficient mice treated with DSS developed more severe colonic inflammation with an increased number of intraepithelial lymphocytes and PMNs infiltrated in the epithelia, than wild-type mice. In summary, TNFalpha inactivates FOXO3 in intestinal epithelia through the PI3K and IKK pathways and FOXO3 inactivation leads to the upregulation of IL-8 in vitro; in vivo Foxo3 is in the cytosol of inflamed colonic epithelia and Foxo3 deficiency leads to severe intestinal inflammation.
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PMID:Tumor suppressor FOXO3 participates in the regulation of intestinal inflammation. 1963 95

The inhibitory effect of wortmannin on leukemic cells and the possible mechanisms were examined. K562 cells were treated with wortmannin of various concentrations (3.125-100 nmol/L) for 0-72 h. MTT assay was used to evaluate the inhibitory effect of wortmannin on the growth of K562 cells. Cell apoptosis was detected by both Annexin-V FITC/PI double-labeled cytometry and transmission electron microscopy (TEM). The expression of p-Akt, T-p-Akt, NF-kappaBp65 and IKK-kappaB was determined by Western blotting and reverse transcription-polymerase chain reaction (RT-PCR). Our results showed that wortmannin obviously inhibited growth and induced apoptosis of K562 cells in vitro in a time- and dose-dependent manner. The IC(50) value of wortmannin for 24 h was 25+/-0.14 nmol/L. Moreover, wortmannin induced K562 cells apoptosis in a dose-dependent manner. TEM revealed typical morphological changes of apoptosis in wortmannin-treated K562 cells, such as chromatin condensation, karyopyknosis, karyorhexis and apoptotic bodies. Additionally, several important intracellular protein kinases such as p-Akt, NF-kappaBp65 and IKK-kappaB experienced degradation of various degrees in a dose-dependent manner both at protein level and transcription level when cultured with wortmannin, but the expression of total Akt showed no change. It is concluded that wortmannin can inhibit the proliferation and induce apoptosis of K562 leukemia cells possibly by down-regulating the survival signaling pathways (PI3K/Akt and NF-kappaB channels).
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PMID:Wortmannin inhibits K562 leukemic cells by regulating PI3k/Akt channel in vitro. 1966 61

Bacterial infections have been shown to be involved in several inflammatory diseases such as brain inflammation. A major factor for these findings is due to the secretion of pro-inflammatory mediators by host cells triggered by the components released from the bacteria. Among these components, lipoteichoic acid (LTA), a component of Gram-positive bacterial cell wall, has been found to be elevated in cerebrospinal fluid of patients suffering from meningitis. Moreover, increased plasma levels of matrix metalloproteinases (MMPs), in particular MMP-9, have been observed in patients with brain inflammatory diseases and may contribute to disease pathology. However, the molecular mechanisms underlying LTA-induced MMP-9 expression in rat brain astrocytes (RBA-1 cells) remain poorly defined. Here, the data with zymographic, Western blotting, RT-PCR, and immunofluorescent staining analyses showed that LTA induced MMP-9 expression and activation via a TLR2-activated c-Src-dependent transactivation of PDGFR pathway. Transactivation of PDGFR led to activation of PI3K/Akt and p42/p44 MAPK and then activated the IKK/NF-kappaB cascade. The activated-NF-kappaB translocated into nucleus which bound to kappaB-binding site of MMP-9 promoter, and thereby turned on transcription of MMP-9. Eventually, upregulation of MMP-9 by LTA enhanced cell migration of astrocytes. Taken together, these results suggested that in RBA-1 cells, activation of NF-kappaB by a c-Src-dependent PI3K/Akt-p42/p44 MAPK activation mediated through transactivation of PDGFR is essential for MMP-9 gene upregulation induced by LTA. Understanding the regulation of MMP-9 expression and functional changes by LTA/TLR system on astrocytes may provide potential therapeutic targets of Gram-positive bacterial infection in brain disorders.
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PMID:Lipoteichoic acid induces matrix metalloproteinase-9 expression via transactivation of PDGF receptors and NF-kappaB activation in rat brain astrocytes. 1976 35

The inflammation observed in the dental pulp of teeth with deep caries lesions is characterized by a significant increase in blood vessel density. It is known that lipoteichoic acid (LTA) from Gram-positive cariogenic bacteria induces expression of vascular endothelial growth factor (VEGF) in dental pulp cells. The hypothesis underlying this study was that LTA induces VEGF expression in dental pulp cells through TLR2 and PI3k/Akt signaling. Odontoblast-like cells (MDPC-23) and undifferentiated pulp cells (OD-21) were exposed to LTA from Streptococcus sanguis, and the role of TLR2, PI3K/Akt, and IKK signaling in LTA-induced VEGF expression was evaluated. These studies demonstrated that TLR2 signaling through the PI3K-Akt pathway is necessary for LTA-induced VEGF expression in pulp cells. In contrast, inhibition of IKK signaling did not prevent VEGF up-regulation in response to LTA. Understanding signaling pathways triggered by cariogenic bacteria may reveal novel therapeutic targets for the clinical management of pulpitis.
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PMID:Angiogenic signaling triggered by cariogenic bacteria in pulp cells. 1976 81

Although the role of the actin cytoskeleton has become increasingly elucidated, the role of actin polymerization in inflammatory processes remains poorly understood. Here, we examine the role of the actin cytoskeleton during LPS-mediated inflammatory events in RAW264.7 cells and peritoneal macrophages. We observed that actin cytoskeleton disruption by cytochalasin B and siRNA to cytoplasmic actin strongly down-regulated LPS-mediated inflammatory responses such as NO production, PGE(2) release, and TNF-alpha secretion. Actin cytoskeleton disruption by cytochalasin B down-regulated a series of signaling cascades including PI3K, Akt, and IKK, but not MAPKs, necessary for NF-kappaB activation without down-regulating total forms of the proteins as assessed by measuring their phosphorylation levels. In particular, cytochalasin B significantly inhibited LPS-induced both phosphorylation and kinase activity of Src without altering total level, implying that Src may be a potential pharmacological target of actin cytoskeleton rearrangement. Moreover, the direct association of Src with actin was actin polymerization-dependent according to immunoprecipitation analysis performed with a GFP-actin wild type and HA-tagged Src. Therefore, our data suggest that actin cytoskeleton rearrangement may be a key event during the regulation of inflammatory responses that modulates the activity of Src and its downstream signaling molecules.
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PMID:Src-mediated regulation of inflammatory responses by actin polymerization. 1976 47

Insulin receptor substrate-4 (IRS-4) transmits signals from the insulin-like growth factor receptor (IGF-IR) and the insulin receptor (IR) to the PI3K/AKT and the ERK1/2 pathways. IRS-4 expression increases dramatically after partial hepatectomy and plays an important role in HepG2 hepatoblastoma cell line proliferation/differentiation. In human hepatocarcinoma, IRS-4 overexpression has been associated with tumor development. Herein, we describe the mechanism whereby IRS-4 depletion induced by RNA interference (siRNA) sensitizes HepG2 cells to treatment with actinomycin D (Act D) and combined treatment with Act D plus tumor necrosis factor-alpha (TNF-alpha). Similar results have been obtained in HuH 7 and Chang cell lines. Act D therapy drove the cells to a mitochondrial-dependent apoptotic program involving cytochrome c release, caspase 3 activation, PARP fragmentation and DNA laddering. TNF-alpha amplifies the effect of Act D on HepG2 cell apoptosis increasing c-jun N-terminal kinase (JNK) activity, IkappaB-alpha proteolysis and glutathione depletion. IRS-4 depleted cells that were treated with Act D showed an increase in cytochrome c release and procaspase 3 and PARP proteolysis with respect to control cells. The mechanism involved in IRS-4 action is independent of Akt, IkappaB kinase and JNK. IRS-4 down regulation, however, decreased gamma-glutamylcysteine synthetase content and cell glutathione level in the presence of Act D plus TNF-alpha. These results suggest that IRS-4 protects HepG2 cells from oxidative stress induced by drug treatment.
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PMID:RNAi-mediated silencing of insulin receptor substrate-4 enhances actinomycin D- and tumor necrosis factor-alpha-induced cell death in hepatocarcinoma cancer cell lines. 1979 87

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