Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of macrophages by lipopolysaccharide (LPS) leads to the rapid activation of MAP kinases (MAPK) and the subsequent induction of cytokine gene expression. We sought to determine whether LPS-inducible cytokine genes were differentially regulated in macrophages derived from different tissues. Our studies revealed that PD98059, an inhibitor of the extracellular-regulated kinase (ERK) pathway, blocked LPS-induced activation of tumor necrosis factor alpha (TNF-alpha) gene expression in a murine cell line derived from alveolar macrophages but not in a nonpulmonary macrophage cell line. These findings were confirmed using primary murine alveolar and peritoneal macrophages. This suggests that the TNF-alpha promoter contains MAPK-dependent and -independent regulatory elements that are used in a cell type-specific manner. We also found that differences in MAPK-regulated signaling were not mediated by NF-KB, LITAF, Egr-1, CREB, or ATF2/ c-Jun. Together, these studies demonstrate that transcriptional activation of the TNF-alpha gene requires the ERK signaling cascade in selected macrophage populations.
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PMID:Activation of TNF-alpha transcription utilizes distinct MAP kinase pathways in different macrophage populations. 1085 63

LITAF and PIG7 encode an identical protein, and they have recently been reported as lipopolysaccharide and p53-inducible genes, respectively. By using the differential display approach, we identified a Mycobacterium bovis BCG cell wall skeleton (BCG-CWS)-inducible gene fragment from human monocytes, showing no homology to any reported gene. Full-length cloning of this fragment reveals the following. 1) The differential display product represents the incomplete 3'-untranslated region of LITAF/PIG7. 2) The coding region of the transcript differs from LITAF/PIG7 due to an absence of a single guanine residue, resulting in a potential translational frameshift. 3) The newly coded protein turns out to be 86% identical and 90% similar to an estrogen-inducible rat gene, EET-1. Repeated analysis, expressed sequence tag search, comparison with homologues, and genome sequence analysis confirmed the absence of the single guanine residue. One interesting feature of this protein is that it possesses the RING domain signature and is predicted to be localized in the nucleus. However, detailed analysis together with experimental evidence suggests it is neither a RING family member nor a nuclear protein. Comparison of a total collection of 18 proteins from various species indicates that proteins of this family are small in size and mainly conserved at the C-terminal domain with a unique motif. We characterize this novel protein as an unglycosylated small integral membrane protein of the lysosome/late endosome (SIMPLE) whose expression is elicited in monocytes by live and heat-killed BCG, BCG cell wall complex, lipopolysaccharide, and tumor necrosis factor-alpha. To our knowledge this is the first report of pathogen-associated molecular pattern (PAMP)-induced differential expression of a lysosomal membrane protein presumably involved in apoptosis.
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PMID:Mycobacterium bovis Bacillus Calmette-Guerin and its cell wall complex induce a novel lysosomal membrane protein, SIMPLE, that bridges the missing link between lipopolysaccharide and p53-inducible gene, LITAF(PIG7), and estrogen-inducible gene, EET-1. 1127 76

Transcription of the tumor necrosis factor (TNF) gene is rapidly and transiently induced by lipopolysaccharide in cells of monocytemacrophage lineage. Previous studies have suggested that in the mouse, multiple NF-kappaBRel-binding sites contribute to the TNF transcriptional response to LPS. But the role of these regulatory elements in transcriptional activation of the TNF-alpha gene in human monocytes remains unclear. Previously, a transcription factor, termed lipopolysaccharide-induced TNF-alpha factor (LITAF), was found to regulate TNF-alpha gene expression. However, the specific protein domain(s) of human (h)LITAF that interact with the hTNF-alpha promoter had not been identified. In this study, we identify by footprinting a sequence motif, CTCCC (-515 to -511), within the TNF-alpha promoter that binds to hLITAF. We also identify the region of hLITAF (amino acids 165-180) that was named peptide B and specifically mediates binding to the hTNF-alpha promoter. When THP-1 cells were stimulated with this peptide B, it was sufficient to induce TNF-alpha secretion. Induction of TNF-alpha transcription by LPS or peptide B depended on the presence of the -515 to -511 promoter region, which was found to be essential for hLITAF binding. Together, these findings help to clarify the mechanism of hLITAFhTNF-alpha interaction and the manner by which hLITAF contributes to hTNF-alpha regulation in an attempt to design new pharmacological interventions to address TNF-related diseases.
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PMID:Identification and functional characterization of a novel binding site on TNF-alpha promoter. 1265 64

The inflammatory response to bacteria and bacterial products, such as lipopolysaccharides (LPSs), is mediated by a variety of secreted factors, but cytotoxic effects of LPS have been ascribed to the tumor necrosis factor alpha (TNF-alpha) activity. TNF-alpha is probably the most pleiotropic cytokine and, given the deleterious effects to the host of this factor, it has been postulated that its expression must be tightly regulated. Our laboratory has recently isolated, cloned and characterized a novel human transcription factor named LITAF or LPS-induced TNF-alpha factor. The present study reports the isolation, cloning and characterization of the mouse LITAF cDNA. Chromosomal localization revealed that mouse LITAF mapped to mouse chromosome 16, in a region highly homologous with the area on which human LITAF was previously located. Northern blot analysis shows that mouse LITAF is already expressed at embryonic day 7 of development, and is highly expressed in adult liver, heart and kidney. Moreover, upon LPS stimulation, we show that: (i) LITAF expression is increased in a mouse monocyte/macrophage cell line; and (ii) TNF-alpha expression is reduced in ES cell-derived macrophages lacking one copy of LITAF gene. Taken together, these results highlight the important role of LITAF in the regulation of TNF-alpha gene expression and suggest a potential role of LITAF in mouse organogenesis.
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PMID:Molecular cloning and characterization of mouse LITAF cDNA: role in the regulation of tumor necrosis factor-alpha (TNF-alpha) gene expression. 1502 20

Salmonella enteritidis is a foodborne pathogen that negatively affects both animal and human health. Genetic variations in response to pathogenic SE colonization or to SE vaccination were measured in a chicken resource population. Outbred broiler sires and 3 diverse, highly inbred dam lines produced 508 F1 progeny that were evaluated for either bacterial colonization after pathogenic SE inoculation or circulating antibody level after SE vaccination. Five candidate genes were selected for study, based on their biological function as possibly affecting response to SE: toll-like receptor 4 (TLR4), T-cell specific surface protein (CD28), macrophage migration inhibitory factor (MIF), MD-2, and lipopolysaccharide-induced tumor necrosis factor (TNF)-alpha factor (LITAF). Gene fragments were sequenced from the founder lines of the resource population. The LITAF and MIF genes were homozygous for all sires. Single nucleotide polymorphisms (SNP) were identified in 3 genes (TLR4, CD28, and MD-2) and were used to test for associations of sire SNP with SE response. Linear mixed models were used for statistical analyses. The CD28 broiler sire SNP was associated with both bacterial load in the cecum (P < 0.003) and vaccine antibody response (P < 0.05). The MD-2 SNP was associated (P < 0.04) with the bacterial load in the spleen. The use of these SNP in these genes in marker-assisted selection may result in enhancement of disease resistance.
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PMID:Analysis of chicken TLR4, CD28, MIF, MD-2, and LITAF genes in a Salmonella enteritidis resource population. 1510 52

The p53 protein is a sequence-specific DNA-binding factor that can induce apoptosis or activate genes whose dysregulation is involved in cancer. By using serial analysis of gene expression technique, p53-induced genes (PIGs) have been identified, one of which was lipopolysaccharide (LPS)-induced tumor necrosis factor-alpha (TNF-alpha) factor (LITAF/PIG7). LITAF regulates the transcription of cytokines such as TNF-alpha. To further elucidate the role of p53 in LITAF expression, LITAF promoter activity was carefully dissected. In this study, we found that the element required for transcriptional activity is mainly located in the region from -990 to -500 of the LITAF promoter; the specific site required for p53 protein-DNA binding is located between -550 and -500. We also found that transient transfection of either a p53 short DNA sequence, called p53LFB12, or its corresponding 7-amino-acid synthetic peptide from amino acids 164 to 170 (K164Q165S166Q167H168M169T170), named p53pep164, significantly reduced LITAF promoter activity to 15% in p53-null H1299 cells. Transfection of p53pep164 into H1299 cells significantly down-regulated LPS-induced LITAF expression as well. Furthermore, transfection of p53pep164 into human monocytes resulted in down-regulation of nine proinflammatory cytokines, including TNF-alpha. We also found that the LPS-activated p53 is a short-lived protein, and that p53-orchestrated apoptosis occurs shortly after the initiation stage following LPS stimulation and lasts a short time. Once p53 levels return to baseline, the p53-mediated inhibition of LITAF is released, and LITAF-mediated cytokine production can proceed. The present finding proposes a novel link between p53 and the inflammatory processes and highlights potential interventional approaches to control p53-associated inflammatory processes.
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PMID:p53 short peptide (p53pep164) regulates lipopolysaccharide-induced tumor necrosis factor-alpha factor/cytokine expression. 1728 68

Tumor necrosis factor alpha (TNFalpha) plays a fundamental role in the pathogenesis of wear particle-induced periprosthetic osteolysis. However, particle-induced mechanisms that control TNFalpha gene expression are not yet well characterized. LITAF [lipopolysaccharide (LPS)-induced TNFalpha factor] is a novel transcription factor that regulates expression of the TNFalpha gene, but nothing is known about its role in wear particle-induced osteolysis. We evaluated the effect of titanium aluminum vanadium (TiAlV) and polyethylene particles on mRNA expression of LITAF. A human monocytic leukemia cell line (THP-1) was used in this in vitro study. THP-1 monocytes were differentiated to macrophage-like cells and exposed to LPS-detoxified polyethylene particles and prosthesis-derived TiAlV particles. Supernatant was used for TNFalpha protein measurement and total RNA was extracted from cells. LITAF was analyzed at the mRNA level using semiquantitative RT-PCR. Both polyethylene and TiAlV particles induced significant upregulation of LITAF mRNA that was followed by a significant TNFalpha response. These effects were dependent on the particle dose. Low particle concentrations exhibited no significant effect on expression of TNFalpha and LITAF mRNA. In comparison to exposure to polyethylene and TiAlV particles, LPS stimulation exhibited similar upregulation of LITAF mRNA, but led to an overwhelming TNFalpha response. Our findings provide evidence that LITAF is implicated in the pathogenesis of wear particle-induced osteolysis.
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PMID:Upregulation of LITAF mRNA expression upon exposure to TiAlV and polyethylene wear particles in THP-1 macrophages. 1740 80

Lipopolysaccharide-induced TNF-alpha factor (LITAF) is an important transcription factor that mediates the expression of inflammatory cytokines, including TNF-alpha, in lipopolysaccharide (LPS)-induced processes. In the present study, the Pacific oyster Crassostrea gigas LITAF (Cg-LITAF) gene was cloned and characterized. The full-length Cg-LITAF cDNA consists of 906bp and encodes a polypeptide of 115 amino acids. The Cg-LITAF gene consists of three exons and two introns, with a length of approximately 1.8kb. The Cg-LITAF protein showed 34-45% amino acid sequence identity with other known LITAF sequences. Although the Cg-LITAF coding sequence (115 aa) is shorter than all previously reported LITAF genes, the LITAF domain which contains two CXXC motifs is well conserved. An in vivo expression study showed that Cg-LITAF mRNA was expressed predominantly in gills and moderately in digestive gland and labial palps of healthy oysters. The accumulation of Cg-LITAF mRNA in oyster haemocytes determined by real-time PCR showed the peak 12h after bacterial challenge. This expression pattern suggests that Cg-LITAF is a potent factor in the regulation of genes that are involved in innate defence mechanisms.
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PMID:Cloning, characterization and expression analysis of the gene for a putative lipopolysaccharide-induced TNF-alpha factor of the Pacific oyster, Crassostrea gigas. 1798 Jun 21

There is a substantial unmet need for new classes of drugs that block TNF-alpha-mediated inflammation, and particularly for small molecule agents that can be taken orally. We have screened a library of natural products against an assay measuring TNF-alpha secretion in lipopolysaccharide-stimulated THP-1 cells, seeking compounds capable of interfering with the TNF-alpha-inducing transcription factor lipopolysaccharide-induced TNF-alpha factor. Among the active compounds were several produced by the kava plant (Piper mysticum), extracts of which have previously been linked to a range of therapeutic effects. When tested in vivo, a representative of these compounds, kavain, was found to render mice immune to lethal doses of lipopolysaccharide. Kavain displays promising pharmaceutical properties, including good solubility and high cell permeability, but pharmacokinetic experiments in mice showed relatively rapid clearance. A small set of kavain analogs was synthesized, resulting in compounds of similar or greater potency in vitro compared with kavain. Interestingly, a ring-opened analog of kavain inhibited TNF-alpha secretion in the cell-based assay and suppressed lipopolysaccharide-induced TNF-alpha factor expression in the same cells, whereas the other compounds inhibited TNF-alpha secretion without affecting lipopolysaccharide-induced TNF-alpha factor levels, indicating a potential divergence in mechanism of action.
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PMID:Identification and characterization of kava-derived compounds mediating TNF-alpha suppression. 1953 8

To begin to understand the surprising survival of macrophage-specific lipopolysaccharide-induced tumor necrosis factor alpha factor-deficient (macLITAF(-/-)) animals after a lethal dose of lipopolysaccharide (LPS), as reported earlier, the present follow-up study focuses on the role of LITAF in the regulation of inflammatory cytokines secreted in response to lethal or sublethal doses of LPS administered to wild-type (WT) and macLITAF(-/-) mice. A time course study of kinase expression in peritoneal macrophages revealed increased phosphorylation of prosurvival kinases Akt, Erk1/2, and ribosomal S6 kinase (RSK) in macLITAF(-/-) mice compared to that in WT mice (n = 8), confirming their role in LPS-mediated diseases. macLITAF(-/-) mice (n = 8) survived a lethal dose of LPS plus d-galactosamine (d-GalN), expressing lower serum levels of pro- and anti-inflammatory cytokines than the WT levels. To extend our knowledge on LPS-induced inflammatory events, an effective sublethal dose of LPS was administered to the animals (n = 14). WT animals exhibited an acute inflammatory response that decreased after 4 h. Interestingly, macLITAF(-/-) mice exhibited an initial delay in the secretion of proinflammatory cytokines that peaked after 8 h and reached WT levels after 18 h. Anti-inflammatory cytokine secretions were initially delayed but increased after 4 h and remained elevated compared to WT levels, even after 18 h. Our results demonstrate that LITAF deficiency in vivo affects cytokines other than TNF-alpha and influences the balance between the pro- and anti-inflammatory cytokines, which protects the animals from the deleterious effects of an LPS-induced inflammatory response, resulting in a beneficial host regulation of inflammatory cytokines and in enhanced survival. Therapeutic intervention aimed at reducing LITAF via kinase modulators may prove useful in preventing LPS-induced mortality.
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PMID:Beneficial dysregulation of the time course of inflammatory mediators in lipopolysaccharide-induced tumor necrosis factor alpha factor-deficient mice. 2021 76


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