UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of the human monocytic cell line Mono Mac 6 with lipopolysaccharide (LPS) leads to rapid and transient expression of cytokines like tumor necrosis factor (TNF). When such cells are precultured for 2 days with a low dose of LPS (20 ng/ml) followed by stimulation with a high dose of LPS (1 microgram/ml), expression of the TNF gene is minimal, i.e. the cells are tolerant. In nuclear run-on analysis, such tolerant cells show only a low degree of transcription, indicating that tolerance operates at or upstream of the transcription level. The CD14 LPS receptor is, however, up-regulated (not down-regulated) in tolerant cells, and LPS can, in fact, still lead to activation of tolerant cells as evidenced by mobilization of the transcription factor nuclear factor kappa B (NF-kappa B). Resolution of the NF-kappa B complex in gel shift analysis shows that the binding protein, mobilized in naive Mono Mac 6 cells, consists mainly of p50-p65 heterodimers, while in tolerant cells, the p50 homodimer is predominant. This increase in p50 homodimers coincides with an increase in p105 mRNA, suggestive of a transcriptional up-regulation of p50. Reporter gene analysis reveals that the NF-kappa B complex mobilized in tolerant cells is functionally inactive in that NF-kappa B-dependent luciferase constructs containing the human immunodeficiency virus long terminal repeat or the TNF 5'-region show only minimal transactivation after LPS stimulation. Similar to Mono Mac 6 cells, primary blood monocytes, when precultured with a low dose of LPS, also become tolerant and produce little TNF after LPS stimulation. The tolerant blood monocytes also up-regulate CD14, and they mobilize NF-kappa B with a predominance of p50 homodimers. Taken together, these results demonstrate that tolerance to LPS is determined by post-receptor mechanisms that involve an altered composition of the NF-kappa B complex.
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PMID:Tolerance to lipopolysaccharide involves mobilization of nuclear factor kappa B with predominance of p50 homodimers. 751 28

Vascular cell adhesion molecule 1 (VCAM-1) is expressed in both endothelial and epithelial cell types, where it contributes to lymphocyte migration to sites of inflammation. Its expression is regulated by cytokines, in part through two kappa B-like regulatory elements. Because NF-kappa B can be composed of multiple alternative subunits with differential effects on gene expression, the role of different specific NF-kappa B family members subunits in VCAM-1 regulation is unknown. In this report, we define the contribution of different NF-kappa B family members to VCAM-1 gene regulation. We show that both kappa B sites in the VCAM-1 enhancer are required to optimally stimulate gene expression, but the enhancer is differentially regulated by specific combinations of NF-kappa B subunits. At low concentrations, RelA(p65) acted in concert with the approximately 50-kDa product of p105 NF-kappa B, NF-kappa B1(p50), to stimulate transcription, and at high concentrations, RelA(p65) alone stimulated the VCAM-1 promoter. In contrast, NF-kappa B2 inhibited functional activation of the VCAM reporter by p65. Consistent with this finding, an additional binding complex was detected by using recombinant NF-kappa B2(p49)/RelA(p65) with radiolabeled VCAM kappa B site probes. Interestingly, the human immunodeficiency virus enhancer responded differently to stimulation by NF-kappa B subunits, with optimal response to p49(100)/p65. Analysis of NF-kappa B mRNA in human umbilical vein endothelial cells revealed that nfkb1, nfkb2, and relA NF-kappa B but not c-rel were induced by tumor necrosis factor alpha and lipopolysaccharide, which also induce VCAM-1. These data suggest that specific subunits of NF-kappa B regulate VCAM-1 and differentially activate other genes in these cells.
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PMID:Differential regulation of vascular cell adhesion molecule 1 gene expression by specific NF-kappa B subunits in endothelial and epithelial cells. 769 29

The transcription factor NF-kappa B, shown to be essential for expression of the immunoglobulin C kappa gene, is a key regulatory component in pre-B to B-cell differentiation. While previous studies have used lymphoid cell line models, here we examine the expression and subunit composition of rel/NF-kappa B complexes in normal murine pre-B and B lymphocytes. Two major NF-kappa B complexes are detected in pre-B and B cells. A high mobility complex, found in pre-B (Cb) and B cells (C beta) is a homodimer of the NF-kappa B subunit p50. In pre-B cells, the slower migrating complex (Ca), which is predominantly cytoplasmic, is largely comprised of p50 and p65, whereas in B cells, a nuclear and cytoplasmic complex (C alpha) of identical mobility to Ca mainly consists of p50 and p75c-rel. While p50 and p65 levels do not change during pre-B to B-cell differentiation, p75c-rel is 5- to 6-fold more abundant in B cells compared to pre-B cells, a finding consistent with the switch in NF-kappa B subunit usage. During lipopolysaccharide-induced B-cell proliferation, transient up-regulation of both the nuclear p50 homodimer and p75c-rel containing complex is mirrored by a concurrent increase in c-rel and p105 but not p65 mRNA expression, a finding consistent with rel-NF-kappa B expression in B cells being controlled by an autoregulatory mechanism.
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PMID:The subunit composition of NF-kappa B complexes changes during B-cell development. 769 80

Proteolytic processing of select constituents of the nuclear factor kappa B (NF-kappa B)/inhibitor kappa B alpha (I kappa B) transcription factor system plays an important role in regulating the biological responses of monocytes to pro-inflammatory mediators. Nuclear translocation of NF-kappa B is preceded by the proteolytic degradation of I kappa B alpha, an ankyrin motif-rich inhibitor that traps NF-kappa B in the cytoplasm. In addition, formation of cytoplasmic NF-kappa B/I kappa B alpha complexes in quiescent cells requires constitutive proteolytic processing of p105, another ankyrin motif-rich inhibitory protein from which the p50 subunit of NF-kappa B is generated. We have demonstrated that, following stimulation of human monocytic cells with lipopolysaccharide or tumor necrosis factor-alpha, this critical p105 processing event is up-regulated in concert with the inactivation of I kappa B alpha. Moreover, the degradative loss of both p105 and I kappa B alpha is prevented in cells depleted of intracellular ATP. In activated monocytes, however, I kappa B alpha degradation occurs more rapidly than p105 processing to p50. Together these findings provide direct biochemical evidence that p105 and I kappa B alpha are differentially sensitive targets for inducible proteolysis via ATP-dependent degradative pathways.
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PMID:Proteolytic processing of NF-kappa B/I kappa B in human monocytes. ATP-dependent induction by pro-inflammatory mediators. 781 25

The activity of the NF-kappa B transcription factor is controlled through cytoplasmic retention by either of two types of molecules: the inhibitor I kappa B alpha/MAD3 or the p105 and p100 precursors of the p50 and p52 DNA-binding subunits. Treatment of cells with classical NF-kappa B inducers such as tumor necrosis factor, interleukin-1, phorbol myristate acetate, and lipopolysaccharide results in MAD3 degradation followed by nuclear translocation of NF-kappa B. On the other hand, the mechanisms involved in the dissociation of the cytoplasmic p105/p100-containing complexes are largely unknown. The Tax protein encoded by human T-cell leukemia virus type 1 is a potent activator of viral and cellular gene transcription. It does not bind DNA directly but seems to activate transcription indirectly either by enhancing the activities of the transcription factors that recognize responsive elements located in the promoters of the Tax-responsive genes or by forming ternary complexes with these factors and DNA. It has been previously shown that Tax is able to induce nuclear translocation of NF-kappa B. We demonstrate here that Tax can induce translocation of members of the NF-kappa B family retained in the cytoplasm through their interaction with either p105 or p100. On the other hand, Tax induces no apparent degradation of MAD3, although experiments using cycloheximide indicate that it decreases the half-life of MAD3. However, this activity is shared by a mutant of Tax which is unable to activate NF-kappa B. These results suggest that Tax activates NF-kappa B essentially through the p105/p100 retention pathway.
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PMID:Tax induces nuclear translocation of NF-kappa B through dissociation of cytoplasmic complexes containing p105 or p100 but does not induce degradation of I kappa B alpha/MAD3. 796 93

The transcription factor NF-kappa B is stored in the cytoplasm in complexes with the inhibitor protein I kappa B alpha. It has been shown in vitro that dissociation of I kappa B alpha from these complexes results in active NF-kappa B. In this report we show that lipopolysaccharide (LPS)-induced activation of B or pre-B cells results in loss of I kappa B alpha from NF-kappa B complexes in vivo. Many liberated NF-kappa B dimers reached the nucleus, where increased c-rel, p65 and p50 were detected by immunoblotting and by DNA binding assays. Some liberated dimers were retained in the cytoplasm, however, through binding to newly synthesized I kappa B alpha, a finding which strongly suggests (i) that the LPS-induced signal causes dissociation of complexes rather than preventing their association and (ii) that dissociation results from modification of I kappa B alpha and not of c-rel or p65. No effect of LPS treatment was detected on p105 or p100, which also retain rel family members in the cytoplasm. Quite unexpectedly, we also found that in unstimulated cells there is a constant ongoing process of degradation and replacement of complexed I kappa B alpha. We propose that this turnover results in the low level of active NF-kappa B presumably necessary even in the unstimulated cell, and that the high rate of synthesis of I kappa B alpha provides the ability to turn off NF-kappa B activity rapidly as soon as the activating signal ceases.
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PMID:In vivo control of NF-kappa B activation by I kappa B alpha. 822 78

Many effects of lipopolysaccharide (LPS) on gene expression, including that of human immunodeficiency virus (HIV), in monocytic cells are mediated by activation of kappa B DNA-binding proteins. However, the specific members of the NF-kappa B/Rel transcription factor family involved in the LPS response, and the mechanisms through which LPS-generated signals are transduced remain unclear. Here we show that LPS induces nuclear expression of c-Rel/p50 heterodimers as well as p50/p65 (NF-kappa B) kappa B DNA-binding complexes in human monocytic THP-1 cells. Nuclear localization of these proteins occurred concomitantly with a rapid decrease in their cytosolic levels and was independent of phorbol ester-sensitive protein kinase C. Within 24 h following LPS stimulation there was a striking increase in the levels of c-Rel, p105, and p50 in the cytosol. The increased levels of these proteins correlated with increases in the amounts of their mRNAs during LPS activation of THP-1 cells. LPS activation of THP-1 cells resulted in phosphorylation of MAD3 (an I kappa B-like protein), a rapid increase in MAD3 mRNA, and an increase in MAD3 protein by 2 h. Thus, LPS activation of human monocytic cells results in nuclear expression of c-Rel/p50 and p50/p65 (NF-kappa B) and induces phosphorylation of MAD3.
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PMID:Lipopolysaccharide induces phosphorylation of MAD3 and activation of c-Rel and related NF-kappa B proteins in human monocytic THP-1 cells. 850 9

Interferon-gamma (IFN-gamma) modulates the expression of several cytokines by human monocytes at the transcriptional level. In view of these findings, we analyzed the effects of IFN-gamma on the expression of different transcription factors in activated human monocytes. Priming of human monocytes with IFN-gamma resulted in the down regulation of c-fos and c-jun mRNA in response to stimulation with lipopolysaccharide (LPS) compared to the effects of LPS alone. Not only was this effect observed at the mRNA level, but activator protein-1 (AP-1) DNA binding capacity was affected as well, A strong reduction was observed in the LPS-induced DNA-binding activity of AP-1 in the presence of IFN-gamma. LPS-stimulated monocytes showed an increased expression of p105 mRNA, the precursor of the p50 subunit of the transcription factor nuclear factor-kappa B (NF-kappa B), while no effect was noticed on the expression of p65 mRNA. In contrast, IFN-gamma priming did not affect the expression of p105 transcripts but enhanced the expression of p65 mRNA (two-fold). Priming with IFN-gamma followed by LPS stimulation resulted in a further increase in the expression of p65 mRNA. This was due to an increase in the half-life of p65 mRNA (75 vs 150 minutes). Electrophoretic mobility shift assays (EMSAs) demonstrated that unstimulated monocytes predominantly expressed p50 NF-kappa B. Stimulation with LPS or IFN-gamma resulted in the expression of p50 and p65 subunits, while the combination of IFN-gamma plus LPS caused a further increase in the expression of NF-kappa B. With Western blotting, it was shown that nuclear extracts from monocytes contained p50 and p65 protein in response to LPS and IFN-gamma stimulation. However, the combined stimulation did not result in enhanced p50 and p65 protein expression. The effects of IFN-gamma on the transcription factors were specific, since no change was observed in the expression of NF-IL-6 or I kappa B alpha, the inhibitor of NF-kappa B. We conclude that the effects of IFN-gamma on the expression of the transcription factors AP-1 and NF-kappa B may be important for the modulatory effects of IFN-gamma on the cytokine expression in activated human monocytes.
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PMID:Interferon-gamma modulates the lipopolysaccharide-induced expression of AP-1 and NF-kappa B at the mRNA and protein level in human monocytes. 864 46

Regulation of the transcription factor NF-kappaB involves proteasome-mediated processing of the NF-kappaB1 p105 precursor protein, which generates the p50 subunit of NF-kappaB. The processing of p105 occurs constitutively in vivo but can be markedly enhanced by various cellular activation agents, although the underlying regulatory mechanism is not yet clear. In the present study, we demonstrate that signal-mediated induction of p105 processing in human T cells is associated with de novo synthesis of this precursor protein. Transient transfection studies performed in COS7 cells revealed that the newly synthesized p105 protein appears to be more rapidly processed compared to its accumulated form that is already associated with the processed product p50. Interestingly, the processing rate of p105 is markedly inhibited in cells co-transfected with p50 or other NF-kappaB subunits, including RelA and c-Rel, that physically interact with p105. These findings suggest that the processing of p105 is subject to negative regulation by the various NF-kappaB subunits. We further demonstrate that p105 undergoes degradation in lipopolysaccharide-stimulated human monocytic cells. However, the inducible degradation of p105 is not coupled with the generation of p50. Together, these studies demonstrate that the processing and inducible degradation of p105 are differentially regulated.
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PMID:Inhibition of p105 processing by NF-kappaB proteins in transiently transfected cells. 864 79

During the course of serious bacterial infections, lipopolysaccharide (LPS) interacts with monocyte/macrophage receptors, resulting in the generation of inflammatory cytokines. Transcription factor NF-kappaB is crucial in activating the transcription of genes encoding proinflammatory cytokines. In this paper, we demonstrate that the activation of NF-kappaB by LPS in a promonocytic cell line (U937) followed a rather slow kinetics, depending on the rate of IkappaB-alpha inhibitor hydrolysis. No degradation of p105 and p100 inhibitors was observed under these conditions. The transduction pathway leading to NF-kappaB activation in U937 cells involved the intracellular generation of reactive oxygen species (ROS), as demonstrated by the concomitant inhibitory effects of antioxidants on NF-kappaB activation and the emission of a fluorescent probe reacting intracellularly with hydrogen peroxide. This ROS pathway was also characterized by the use of other inhibitors. This finding indicates that phospholipase A2 and 5-lipoxygenase are also involved. However, the NF-kappaB activation pathway involving the acidic sphingomyelinase of the endolysosomial membrane did not seem to participate in the LPS-induced NF-kappaB activation in U937 cells.
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PMID:Activation of the transcription factor NF-kappaB in lipopolysaccharide-stimulated U937 cells. 906 37

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