UNIPROT:P06889 - FACTA Search

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Mature B lymphocytes are unique in containing nuclear Rel proteins prior to cell stimulation. This activity consists largely of p50-c-Rel heterodimers, and its importance for B-cell function is exemplified by reduced B-cell viability in several genetically altered mouse strains. Here we suggest a mechanism for the cell specificity and the subunit composition of constitutive B-cell NF-kappaB based on the observed properties of Rel homo- and heterodimers and IkappaBalpha. We show that c-Rel lacks a nuclear export sequence, making the removal of c-Rel-containing complexes from the nucleus less efficient than removal of p65-containing complexes. Second, the nuclear import potential of p65 and c-Rel homodimers but not p50-associated heterodimers was attenuated when they were complexed to IkappaBalpha, leading to a greater propensity of heterodimers to be nuclear. We propose that subunit composition of B-cell NF-kappaB reflects the inefficient retrieval of p50-c-Rel heterodimers from the nucleus. Cell specificity may be a consequence of c-Rel-IkappaBalpha complexes being present only in mature B cells, which leads to nuclear c-Rel due to IkappaBalpha turnover and shuttling of the complex.
Mol Cell Biol 2001 Jul
PMID:Cell-specific association and shuttling of IkappaBalpha provides a mechanism for nuclear NF-kappaB in B lymphocytes. 1141 57

The procoagulant thrombin promotes the adhesion of polymorphonuclear leukocytes to endothelial cells by a mechanism involving expression of intercellular adhesion molecule 1 (ICAM-1) via an NF-kappaB-dependent pathway. We now provide evidence that protein kinase C-delta (PKC-delta) and the p38 mitogen-activated protein (MAP) kinase pathway play a critical role in the mechanism of thrombin-induced ICAM-1 gene expression in endothelial cells. We observed the phosphorylation of PKC-delta and p38 MAP kinase within 1 min after thrombin challenge of human umbilical vein endothelial cells. Pretreatment of these cells with the PKC-delta inhibitor rottlerin prevented the thrombin-induced phosphorylation of p38 MAP kinase, suggesting that p38 MAP kinase signals downstream of PKC-delta. Inhibition of PKC-delta or p38 MAP kinase by pharmacological and genetic approaches markedly decreased the thrombin-induced NF-kappaB activity and resultant ICAM-1 expression. The effects of PKC-delta inhibition were secondary to inhibition of IKKbeta activation and of subsequent NF-kappaB binding to the ICAM-1 promoter. The effects of p38 MAP kinase inhibition occurred downstream of IkappaBalpha degradation without affecting the DNA binding function of nuclear NF-kappaB. Thus, PKC-delta signals thrombin-induced ICAM-1 gene transcription by a dual mechanism involving activation of IKKbeta, which mediates NF-kappaB binding to the ICAM-1 promoter, and p38 MAP kinase, which enhances transactivation potential of the bound NF-kappaB p65 (RelA).
Mol Cell Biol 2001 Aug
PMID:Protein kinase C-delta regulates thrombin-induced ICAM-1 gene expression in endothelial cells via activation of p38 mitogen-activated protein kinase. 1146 37

Geldanamycin is a benzoquinone ansamycin with multiple pharmacologic properties. Recent data demonstrated that geldanamycin conferred protection in an animal model of inflammation-associated acute lung injury. In the current study, we investigated the effects of geldanamycin on interleukin (IL)-8 gene expression and nuclear factor (NF)-kappaB activation. Geldanamycin inhibited tumor necrosis factor (TNF)-alpha-mediated IL-8 gene expression in A549 human respiratory epithelial cells as measured by enzyme-linked immunosorbent assay and Northern blot analyses. In cells transiently transfected with an IL-8 promoter-luciferase reporter plasmid, geldanamycin inhibited TNF-alpha-mediated luciferase activity. Geldanamycin inhibited TNF-alpha-mediated NF-kappaB activation as measured by electromobility shift assays and transient transfections with a NF-kappaB-dependent luciferase reporter plasmid. In contrast, geldanamycin did not affect TNF-alpha-mediated degradation of the NF-kappaB inhibitory protein IkappaBalpha and did not block nuclear translocation of the NF-kappaB p65 subunit as measured by Western blot analyses. Geldanamycin added directly to nuclear extracts of TNF-alpha-treated cells reduced the formation of the NF-kappaB/DNA complex. These results demonstrate that geldanamycin inhibits TNF-alpha-mediated IL-8 gene expression in A549 cells by inhibiting activation of the IL-8 promoter. The mechanism of inhibition involves inhibition of NF-kappaB activation, which is independent of IkappaBalpha degradation or p65 nuclear translocation. Geldanamycin appears to directly inhibit the ability of NF-kappaB to bind DNA. The observed in vitro effects could account, in part, for the anti-inflammatory properties of geldanamycin observed in vivo.
Am J Respir Cell Mol Biol 2001 Jul
PMID:Geldanamycin inhibits NF-kappaB activation and interleukin-8 gene expression in cultured human respiratory epithelium. 1147 80

The proto-oncogene c-myb is essential for a controlled balance between cell growth and differentiation. Aberrant c-Myb activity has been reported for numerous human cancers, and enforced c-Myb transcription can transform cells of lymphoid origin by stimulating cellular proliferation and inhibiting apoptotic pathways. Here we demonstrate that activation of the NF-kappaB pathway by the HTLV-1 Tax protein leads to transcriptional inactivation of c-Myb. This conclusion was supported by the fact that Tax mutants unable to stimulate the NF-kappaB pathway could not inhibit c-Myb transactivating functions. In addition, inhibition of Tax-mediated NF-kappaB activation by coexpression of IkappaBalpha restored c-Myb transcription, and Tax was unable to block c-Myb transcription in a NEMO knockout cell line. Importantly, physiological stimuli, such as signaling with the cellular cytokines tumor necrosis factor alpha, interleukin 1 beta (IL-1beta), and lipopolysaccharide, also inhibited c-Myb transcription. These results uncover a new link between extracellular signaling and c-Myb-dependent transcription. The mechanism underlying NF-kappaB-mediated repression was identified as sequestration of the coactivators CBP/p300 by RelA. Interestingly, an amino-terminal deletion form of p300 lacking the C/H1 and KIX domains and unable to bind RelA retained the ability to stimulate c-Myb transcription and prevented NF-kappaB-mediated repression.
Mol Cell Biol 2001 Nov
PMID:Human T-cell lymphotropic virus type 1 Tax represses c-Myb-dependent transcription through activation of the NF-kappaB pathway and modulation of coactivator usage. 1158 20

The aim of this study was to elucidate the redox regulation of cytokine-induced NF-kappaB activation and NF-kappaB mediated gene induction in A549 cells and primary cultures of human airway epithelial cells. In A549 cells, Western blot analysis showed transient depletion of IkappaBalpha after 15 min IL-1beta treatment followed by its reappearance after 60 min, indicating efficient NF-kappaB-driven gene induction. A similar pattern was observed in primary epithelial cells however, the kinetics were slower and depletion was less. In primary airway epithelial cells IkappaBalpha levels were 59.8+/-8.5% of control following 30 min treatment with IL-1beta and in A549 cells 29.1+/-8.5% of control following 15 min IL-1beta treatment. Cytokine-induced IkappaBalpha depletion was associated with NF-kappaB nuclear accumulation and subsequent resynthesis of IkappaBalpha and upregulation of ICAM-1 in both cell types. The antioxidant, NAC (20 mM) had no effect on the kinetics of cytokine-induced IkappaBalpha depletion or NF-kappaB p65 nuclear translocation in either cell type and failed to influence kappaB dependent IkappaBalpha resynthesis. H2O2 treatment alone or in combination with cytokines had no significant effects on IkappaBalpha depletion, NF-kappaB p65 nuclear translocation or ICAM-1 expression in either cell type but did cause significant activation of p38 MAPK. These results suggest that cytokine-induced NF-kappaB activation in cultured human airway epithelial cells does not involve an NAC-sensitive oxidant stress and that H2O2-induced oxidant stress does not result in effective NF-kappaB activation and NF-kappaB mediated gene induction.
Int J Mol Med 2002 Jan
PMID:Regulation of NF-kappaB and ICAM-1 expression in human airway epithelial cells. 1174 93

Immature B cells express constitutive nuclear factor-kappaB (NF-kappaB) activity and inhibition of this activity is associated with the induction of apoptotic cell death. Previous studies have implicated a calcium-dependent proteolysis of the NF-kappaB inhibitory protein IkappaBalpha as critical in the maintenance of constitutive NF-kappaB activity in these cells. We tested whether modulation of diverse calcium-dependent processes affects the maintenance of constitutive NF-kappaB activity in the WEHI-231 immature B cell line. Calmodulin inhibitors, but not calcineurin inhibition, blocked both IkappaBalpha turnover and the maintenance of constitutive NF-kappaB activity. Inhibition of NF-kappaB DNA binding activity by the calmodulin antagonist W13 also resulted in a loss of the expression of the NF-kappaB target gene, IkappaBalpha. However, prolonged inhibition of NF-kappaB activity for up to 8 h did not lead to apoptotic induction in the WEHI-231 cells. Moreover, removal of calmodulin inhibitors resulted in the reappearance of constitutive NF-kappaB activity and the renewed expression of the IkappaBalpha gene. Thus, calmodulin activity is a requirement for the continual turnover of IkappaBalpha and the maintenance of constitutive NF-kappaB function in WEHI-231 cells. In addition, our findings suggest that inhibition of NF-kappaB activity does not lead to the immediate onset of apoptosis, indicating that prolonged inhibition of NF-kappaB-dependent gene expression is required to cause apoptosis of WEHI-231 B cells.
Mol Pharmacol 2002 Jan
PMID:Evidence for unique calmodulin-dependent nuclear factor-kappaB regulation in WEHI-231 B cells. 1175 19

Human alveolar macrophages (HAM) express FcalphaR receptors for immunoglobulin (Ig)A which could link humoral and cellular branches of lung immunity. Here, we investigate the effects of polymeric (p-IgA) and secretory (S-IgA) IgA interaction with Fc(alpha)R on lipopolysaccharide (LPS)- and phorbol myristate acetate (PMA)-activated respiratory burst and TNF-alpha release by HAM. Activation of HAM with LPS and PMA increases the respiratory burst and TNF-alpha release through activation of the extracellular signal-related protein kinases 1 and 2 (ERK1/2) pathway, because these effects are inhibited by treatment of HAM with PD98059, a selective inhibitor of mitogen-activated protein (MAP)/ERK kinases (MEK) pathway. S-IgA and p-IgA downregulate the LPS-increased respiratory burst in HAM through an inhibition of ERK1/2 activity. In contrast, p- and S-IgA induce an increase in the respiratory burst of PMA-treated HAM. This effect is associated with an upregulation by IgA of the PMA-induced phosphorylation of ERK1/2 and is also inhibited by PD98059. Moreover, p-IgA and S-IgA enhance TNF-alpha release by HAM through an alternative pathway distinct from ERK1/2. Because LPS is known to activate nuclear factor-kappaB (NF-kappaB) in HAM, we evaluate the effect of IgA on NF-kappaB. Treatment of HAM with LPS, p- and S-IgA, but not PMA, induces NF-kappaB activation through IkappaBalpha phosphorylation and subsequent proteolysis. Antioxidants, namely N-acetylcysteine (NAC) and glutathione (GSH), have no effects on IgA-mediated NF-kappaB nuclear translocation and only a minor and late effect on that of LPS, suggesting that reactive oxygen intermediates (ROI) play a minor role in HAM activation through NF-kappaB. TNF-alpha release by LPS-activated HAM is sensitive to NF-kappaB inhibition and only partly to oxidant scavenging. In contrast, TNF-alpha release by IgA-treated HAM is not dependent on oxidants and only partly dependent on NF-kappaB. Our results show a differential HAM regulation by IgA through both dependent and independent modulation of ERK pathway. In addition, IgA activates NF-kappaB and this effect was independent on oxidants. These data may help to understand the role of IgA in both lung protection and inflammation.
Am J Respir Cell Mol Biol 2002 Mar
PMID:Effect of IgA on respiratory burst and cytokine release by human alveolar macrophages: role of ERK1/2 mitogen-activated protein kinases and NF-kappaB. 1186 40

Evidence is rapidly accumulating that low-activity-reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidases homologous to that in phagocytic cells generate reactive oxygen species as signaling intermediates in both endothelium and vascular smooth muscle. We therefore explored the possibility of such an oxidase regulating growth of airway smooth muscle (AWSM). Proliferation of human AWSM cells in culture was inhibited by the antioxidants catalase and N-acetylcysteine, and by the flavoprotein inhibitor diphenylene iodonium (DPI). Membranes prepared from human AWSM cells generated superoxide anion (O) measured by superoxide dismutase-inhibitable lucigenin chemiluminescence, with a distinct preference for NADPH instead of reduced nicotinamide adenine dinucleotide as substrate. Chemiluminescence was also inhibited by DPI, suggesting the presence of a flavoprotein containing oxidase generating O as a signaling molecule for cell growth. Examination of human AWSM cells by reverse transcriptase-polymerase chain reaction consistently demonstrated transcripts with sequences identical to those reported for p22(phox). Transfection with p22(phox) antisense oligonucleotides reduced human AWSM proliferation. Inhibition of NADPH oxidase activity with DPI prevented serum-induced activation of nuclear factor-kappaB (NF-kappaB), and overexpression of a superrepressor form of the NF-kappaB inhibitor IkappaBalpha significantly reduced human AWSM growth. These findings suggest that an NADPH oxidase containing p22(phox) regulates growth-factor responsive human AWSM proliferation, and that the oxidase signals in part through activation of the prototypical redox-regulated transcription factor NF-kappaB.
Am J Physiol Lung Cell Mol Physiol 2002 Apr
PMID:NADPH oxidase promotes NF-kappaB activation and proliferation in human airway smooth muscle. 1188 Mar 5

We showed previously that epithelial growth factor (EGF) receptor (EGFR) signaling is triggered by metallic compounds associated with ambient air particles. Specifically, we demonstrated that As, Zn, and V activated the EGFR tyrosine kinase and the downstream kinases MEK1/2 and ERK1/2. In this study, we examined the role of Ras in EGFR signaling and the nuclear factor-kappaB (NF-kappaB) activation pathway and the possible interaction between these two signaling pathways in a human airway epithelial cell line (BEAS-2B) exposed to As, V, or Zn ions. Each metal significantly increased Ras activity, and this effect was inhibited by the EGFR tyrosine kinase activity inhibitor PD-153035. Adenoviral-mediated overexpression of a dominant-negative mutant form of Ras(N17) significantly blocked MEK1/2 or ERK1/2 phosphorylation in As-, Zn-, or V-exposed BEAS-2B cells but caused little inhibition of V-, Zn- or EGF-induced EGFR tyrosine phosphorylation. This confirmed Ras as an important intermediate effector in EGFR signaling. Interestingly, V, but not As, Zn, or EGF, induced IkappaBalpha serine phosphorylation, IkappaBalpha breakdown, and NF-kappaB DNA binding. Moreover, PD-153035 and overexpression of Ras(N17) each significantly blocked V-induced IkappaBalpha breakdown and NF-kappaB activation, while inhibition of MEK activity with PD-98059 failed to do so. In summary, exposure to As, Zn, and V initiated EGFR signaling and Ras-dependent activation of MEK1/2 and ERK1/2, but only V induced Ras-dependent NF-kappaB nuclear translocation. EGFR signaling appears to cross talk with NF-kappaB signaling at the level of Ras, but additional signals appear necessary for NF-kappaB activation. Together, these data suggest that, in V-treated BEAS-2B cells, Ras-dependent signaling is essential, but not sufficient, for activation of NF-kappaB.
Am J Physiol Lung Cell Mol Physiol 2002 May
PMID:Role of Ras in metal-induced EGF receptor signaling and NF-kappaB activation in human airway epithelial cells. 1194 69

PPARs are ligand-activated transcription factors that regulate energy homeostasis. In addition, PPARs furthermore control the inflammatory response by antagonizing the nuclear factor-kappaB (NF-kappaB) signaling pathway. We recently demonstrated that PPARalpha activators increase IkappaBalpha mRNA and protein levels in human aortic smooth muscle cells. Here, we studied the molecular mechanisms by which PPARalpha controls IkappaBalpha expression. Using transient transfection assays, it is demonstrated that PPARalpha potentiates p65-stimulated IkappaBalpha transcription in a ligand-dependent manner. Site-directed mutagenesis experiments revealed that PPARalpha activation of IkappaBalpha transcription requires the NF-kappaB and Sp1 sites within IkappaBalpha promoter. Chromatin immunoprecipitation assays demonstrate that PPARalpha activation enhances the occupancy of the NF-kappaB response element in IkappaBalpha promoter in vivo. Overexpression of the oncoprotein E1A failed to inhibit PPARalpha-mediated IkappaBalpha promoter induction, suggesting that cAMP response element binding protein-binding protein/p300 is not involved in this mechanism. By contrast, a dominant-negative form of VDR-interacting protein 205 (DRIP205) comprising its two LXXLL motifs completely abolished PPARalpha ligand-mediated activation. Furthermore, cotransfection of increasing amounts of DRIP205 relieved this inhibition, suggesting that PPARalpha requires DRIP205 to regulate IkappaBalpha promoter activity. By contrast, DRIP205 is not involved in PPARalpha-mediated NF-kappaB transcriptional repression. Taken together, these data provide a molecular basis for PPARalpha-mediated induction of IkappaBalpha and demonstrate, for the first time, that PPARalpha may positively regulate gene transcription in the absence of functional PPAR response elements.
Mol Endocrinol 2002 May
PMID:DNA binding-independent induction of IkappaBalpha gene transcription by PPARalpha. 1198 Oct 37

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