UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cDNA encoding NF-IL6, an interleukin-6 (IL-6)-regulated human nuclear factor of the C/EBP family, is demonstrated to complement the transactivation function of E1A. The endogenous NF-IL6 level varies according to cell type and correlates positively with an IL-6-regulated cellular E1A-substituting activity that was described recently (J.M. Spergel and S. Chen-Kiang, Proc. Natl. Acad. Sci. USA 88:6472-6476, 1991). When expressed by transfection in cells which contain low levels of NF-IL6 and are incapable of complementing the function of E1A proteins, NF-IL6 also transactivates the E1A-responsive E2ae and E1B promoters, to the same magnitude as E1A. Activation by NF-IL6 is concentration dependent and sequence specific: mutational studies of the E2ae promoter suggest that the promoter-proximal NF-IL6 recognition site functions as a dominant negative regulatory site whereas the promoter-distal NF-IL6 recognition site is positively regulated at low NF-IL6 concentrations and negatively regulated when the NF-IL6 level is high. Consistent with these functions, NF-IL6 alone is sufficient to complement an E1A deletion mutant dl312 in viral infection, when expressed at appropriate concentrations. These results identify NF-IL6 as a sequence-specific cellular nuclear factor which regulates E1A-responsive genes in the absence of E1A.
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PMID:NF-IL6, a member of the C/EBP family, regulates E1A-responsive promoters in the absence of E1A. 130 87

NF-IL6 and NF-kappa B are nuclear proteins supposed to play an important role in the regulation of acute-phase protein synthesis and inflammatory response against infection and tissue injury as a host defence mechanism. In addition the promoter region of the interleukin-6 (IL-6) gene has a NF-kappa B binding motif as well as a NF-IL6 binding site. Considering of these facts, we come to investigate that there may be a synergistic effect between NF-IL6 and NF-kappa B in the regulation of IL-6 gene expression. In order to study it, some combinations of expression vectors NF-IL6 cDNA, NF-kappa B (p50/p65) cDNA and reporter plasmid K18-CAT which contains human IL-6 promoter linked to the chloramphenicol acetyltransferase (CAT) gene, were transfected into Jurkat cells and the CAT activities were examined. Co-transfection of NF-IL6 and NF-kappa B (p50/p65) cDNA revealed a dramatic increase of acetylated [14C] chloramphenicol, and its CAT activity reached to 40%. Then, co-transfection of NF-IL6 and NF-kappa B subunit p65 alone showed a high level of CAT activity, too. When 5' deletion mutant reporter plasmid K9-CAT lacking the NF-IL6 binding site was used, co-transfection of NF-IL6 and NF-kappa B (p50/p65) showed low level of CAT activity. These results indicate that there is a synergistic effect between NF-IL6 and NF-kappa B (p50/p65) in IL-6 gene regulation. Among two subunits of NF-kappa B (p50/p65), p65 seems to play an important role rather than p50 does in synergism between NF-IL6 and NF-kappa B. Besides, this synergistic function comes to work only when NF-IL6 binds to its binding site of IL-6 promoter region.
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PMID:[Synergism between transcription factors NF-IL6 and NF-kappa B in IL-6 gene regulation]. 142

We report the cloning and sequencing of a 1252 base pairs (bp) DNA fragment containing the bovine interleukin-6 (IL-6) gene promoter. This fragment was isolated from a bovine genomic library constructed in the lambda GEM11 vector. Comparison with human, murine and rat IL-6 gene promoters reveals a high degree of conservation of the 200 bp immediately upstream of the RNA CAP site. This region contains nucleotide stretches matching with consensus sequences recognized by transcription factors, including NF-KB, CREB and NF-IL6. A potential AP-1 binding site is found 284 nucleotides upstream of the RNA CAP site. The bovine IL-6 gene promoter cloned upstream of the bacterial chloramphenicol acetyl transferase (CAT) gene was shown to be active in bovine and ovine cells.
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PMID:Nucleotide sequence of the bovine interleukin-6 gene promoter. 145 13

The initial phase of inflammation is accompanied by dramatic changes in the concentrations of certain plasma proteins. Interleukin-6 (IL-6) is an important inducer of these acute phase proteins at the transcriptional level. The recently cloned nuclear factor NF-IL6, a potent trans-acting regulator of IL-6 gene expression, has a region that is highly homologous to the liver-specific transcriptional factor C/EBP. Both factors recognize the same nucleotide sequence. In this study the recombinant NF-IL6 was shown to interact with the IL-6-responsive elements (IL-6REs) identified in the promoter region of several acute phase protein genes whose activity increases during the acute phase reaction. Furthermore, in competition experiments, formation of all the DNA-protein complexes by the IL-6RE and IL-6-treated hepatoma cell extracts was specifically decreased by adding either the 14-bp NF-IL6 binding motif identified in the IL-6 promoter or the antibody against the recombinant NF-IL6. NF-IL6 was expressed at a minor level in mouse liver, but was dramatically induced after stimulation with IL-6. In contrast, the amount of C/EBP mRNA decreased considerably after IL-6 stimulation. These results indicate that the NF-IL6 that regulated IL-6 expression was also involved in regulation of expression of the acute phase protein genes. The ability of NF-IL6 to replace C/EBP may explain the positive and negative acute phase responses induced by IL-6.
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PMID:Reciprocal expression of NF-IL6 and C/EBP in hepatocytes: possible involvement of NF-IL6 in acute phase protein gene expression. 171 Jan 43

Using two panels of somatic cell hybrids segregating either human or rat chromosomes, the gene encoding the interleukin-6-dependent DNA-binding protein, also called liver activator protein (designated transcription factor 5: TCF5), was assigned to human chromosome 20 and to rat chromosome 3. The TCF5 gene might be identical with the NF-IL6 gene. The locus encoding the IL6 receptor gene (IL6R) was localized to human chromosome 1 and rat chromosome 2. An IL6R-like (IL6RL) locus was also assigned to human chromosome 9. In addition, the rat interleukin-6 (IL6) gene was assigned to rat chromosome 4. These mapping data allow one to extend comparison between the rat, mouse, and human gene maps.
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PMID:The Interleukin-6-dependent DNA-binding protein gene (transcription factor 5: TCF5) maps to human chromosome 20 and rat chromosome 3, the IL6 receptor locus (IL6R) to human chromosome 1 and rat chromosome 2, and the rat IL6 gene to rat chromosome 4. 188 4

Granulocyte colony-stimulating factor (G-CSF) is a hematopoietic growth factor produced by mesenchymal and myeloid cells following activation by inflammatory stimuli. It has previously been shown that a region of the G-CSF promoter, (-200 to -165) containing the decanucleotide CK-1 element and two repeated sequences that resemble nuclear factor (NF)-interleukin-6 (IL-6) binding sites, is required for activation of the G-CSF gene by tumor necrosis factor-alpha (TNF-alpha) and IL-1 beta. We now show that the NF-kappa B p65 protein can bind to and activate this TNF response region. There are several unusual features of this p65 interaction with the TNF response region. First, NF-kappa B p65 but not the related NF-kappa B p50 binds to the CK-1 element and a p50/65 hybrid protein that relies on the p50 rel homology domain for DNA binding does not transactivate the TNF response region. Second, p65 transactivation of this region is cell specific and requires not only its own binding site but also the NF-IL6 consensus sites. NF-IL6 also binds to the TNF response region of the G-CSF promoter. Electrophoretic mobility shift studies show that p65 and NF-IL6 can bind cooperatively to the TNF response region. The ability of this region to respond to TNF-alpha or p65 is correlated with the ability to form the p65/NF-IL6 ternary complex.
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PMID:Requirement for nuclear factor (NF)-kappa B p65 and NF-interleukin-6 binding elements in the tumor necrosis factor response region of the granulocyte colony-stimulating factor promoter. 751 99

Human cytosolic aldehyde dehydrogenase 1 (ALDH1) plays a role in the biosynthesis of retinoic acid that is a modulator for gene expression and cell differentiation. Northern blot analysis showed that liver tissue, pancreas tissue, hepatoma cells, and genital skin fibroblast cells expressed high levels of ALDH1. Sequence analysis showed that the 5'-flanking region contains a number of putative regulatory elements, such as NF-IL6, HNF-5, GATA binding sites, and putative response elements for interleukin-6, phenobarbital and androgen, in addition to a noncanonical TATA box (ATAAA) and a CCAAT box. Functional characterization of the 5'-regulatory region of the human ALDH1 gene was carried out by a fusion to the chloramphenicol acetyltransferase gene. A construct containing 2.6 kilobase pairs of the 5'-flanking region was efficiently expressed in hepatoma Hep3B cells, but not in erythroleukemic K562 cells or in fibroblast LTK- cells, which do not express ALDH1. Within this region, we define a minimal promoter (-91 to +53) that contains positive regulatory elements. The study using site-directed mutagenesis demonstrated that the CCAAT box region is the major cis-acting element involved in basal ALDH1 promoter activity in Hep3B cells. Gel mobility shift assays showed that NF-Y and other octamer factors bound CCAAT box and an octamer motif sequence, but not GATA site existing in the minimal promoter region. Two additional DNA binding activities associated with the minimal promoter were found in the nuclear extract from Hep3B cells, but not from K562 cells. These results offer the possible molecular mechanism of the cell type-specific expression of ALDH1 gene.
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PMID:The transcriptional regulation of human aldehyde dehydrogenase I gene. The structural and functional analysis of the promoter. 761 57

The interleukin-6 (IL-6) gene expression in bovine monocytes is highly induced following bacterial lipopolysaccharide (LPS) stimulation. To identify the promoter element(s) involved in the inducible transcription of IL-6, a 5'-flanking region containing 230 bp of the bovine IL-6 gene was linked to a reporter gene coding for bacterial chloramphenicol acetyltransferase (CAT) and analyzed for its ability to confer LPS-responsiveness to the reporter CAT gene in monocytic cells. Using mutant reporter genes, we demonstrate that although mutation in the NF-kappa B element produces the major loss of induction, both NF-kappa B and C/EBP elements are necessary for maximal transcriptional activation of the bovine IL-6 gene. Gel electrophoretic mobility-shift assays have detected induced DNA-binding activities in the LPS-stimulated monocytes. Further characterization has revealed the activation and interaction of C/EBP-alpha, C/EBP-beta (NF-IL6), NFKB1 (p50), and RelA (p65) to their specific binding elements present in the bovine IL-6 gene. These results suggest a model in which induction of C/EBP-alpha in differentiating monocytes contributes and synergizes with induced C/EBP-beta and NF-kappa B, which are activated following LPS stimulation, to mediate a high rate of IL-6 transcription under inflammatory conditions.
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PMID:Lipopolysaccharide-mediated induction of the bovine interleukin-6 gene in monocytes requires both NF-kappa B and C/EBP binding sites. 766 56

Interleukin-6 (IL-6) is known to be a major mediator of the acute-phase response in liver. We show here that IL-6 triggers the rapid activation of a nuclear factor, termed acute-phase response factor (APRF), both in rat liver in vivo and in human hepatoma (HepG2) cells in vitro. APRF bound to IL-6 response elements in the 5'-flanking regions of various acute-phase protein genes (e.g., the alpha 2-macroglobulin, fibrinogen, and alpha 1-acid glycoprotein genes). These elements contain a characteristic hexanucleotide motif, CTGGGA, known to be required for the IL-6 responsiveness of these genes. Analysis of the binding specificity of APRF revealed that it is different from NF-IL6 and NF-kappa B, transcription factors known to be regulated by cytokines and involved in the transcriptional regulation of acute-phase protein genes. In HepG2 cells, activation of APRF was observed within minutes after stimulation with IL-6 or leukemia-inhibitory factor and did not require ongoing protein synthesis. Therefore, a preexisting inactive form of APRF is activated by a posttranslational mechanism. We present evidence that this activation occurs in the cytoplasm and that a phosphorylation is involved. These results lead to the conclusions that APRF is an immediate target of the IL-6 signalling cascade and is likely to play a central role in the transcriptional regulation of many IL-6-induced genes.
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PMID:Acute-phase response factor, a nuclear factor binding to acute-phase response elements, is rapidly activated by interleukin-6 at the posttranslational level. 767 52

The pathologic picture in ischemic tissue injury shares features with the inflammatory response, including production of proinflammatory cytokines. Hypoxia-mediated induction of interleukin-6 (IL-6), a cytokine with anti-inflammatory properties, could set in motion mechanisms limiting inflammation in ischemia. Exposure of cultured endothelial cells (ECs) to H (pO2 approximately 12-16 torr) increased transcription of IL-6, elevated levels of IL-6 mRNA, and induced elaboration of IL-6 antigen in a time-dependent manner. Exposure of mice to hypoxia increased IL-6 transcripts in the lung, and immunostaining revealed a striking increase in IL-6 antigen in pulmonary vasculature. Transfection of ECs with deletion chimeric IL-6 promoter-chloramphenicol acetyl-transferase (CAT) constructs showed hypoxia-mediated 9-11-fold induction with -1200/+13, -596/+13, and -225/+13 but no induction with -111/+13. Electrophoretic mobility shift assays (EMSAs) using -225/-111 as the labeled probe demonstrated enhanced binding activity in nuclear extracts of hypoxic ECs and lung; the appearance of the gel shift band was prevented by excess unlabeled probe (-225/-111), and hypoxia-mediated enhancement of the band was blocked by a probe corresponding to the nuclear factor (NF)-IL-6 site (-158/-145). The hypoxia-enhanced band on EMSA displayed a supershift with antibody to CCAAT-enhancer-binding protein beta (C/EBP-beta), but antibody to C/EBP-alpha or -delta was without effect. Transfection of ECs with a construct comprising thymidine kinase promoter, -225/-111 in either the 5' to 3' to 5' orientation, and the reporter CAT showed this region to be an enhancer (approximately 8-fold) under hypoxia. EMSA with the NF-IL-6 probe revealed a prominent induction of binding activity with nuclear extracts from hypoxic ECs and whole lung. Constructs with -158/-145 and the CAT reporter gene showed induction when transfected into hypoxic ECs, whereas a similar construct with the NF-IL-6 motif mutationally inactivated failed to display hypoxia-induced expression. Furthermore, the tumor necrosis factor (TNF) gene, whose product contributes to ischemic pathology and contains a putative regulatory NF-IL-6 site, demonstrated enhanced binding activity for its NF-IL-6 motif and induction of TNF mRNA based on analysis of hypoxic lung. These data indicate that hypoxia induces expression of IL-6, most likely a result of hypoxic activation at the NF-IL-6 site, and suggest that other genes with regulatory NF-IL-6 sites may also be induced by a similar mechanism.
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PMID:Induction of interleukin 6 (IL-6) by hypoxia in vascular cells. Central role of the binding site for nuclear factor-IL-6. 774 84

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