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)

An overall increase of 40% in nuclear-associated protein has been shown to be one of the sequellae of exposure of eukaryotic cells to elevated temperatures. Several investigators have shown that the increased protein/DNA ratios correlated well with the degree of cytotoxicity. In previous investigations, we have shown that cycloheximide, which protects the cell from the killing effects of heat, produces a dramatic reduction of the bulk nuclear-associated proteins after heating. In this investigation, we studied a previously unobserved efflux of a 26 kDa protein after heat shock and the preferential accumulation of the 70 kDa protein. The 26 kDa protein was shown not to be a member of previously described heat shock protein families. Preferential reduction of a 26 kDa protein and accumulation of a 70 kDa protein was observed in nuclei isolated from Chinese hamster ovary cells after heating at 43 degrees C. After heat treatment, the 26 kDa protein in the nucleus was decreased to a level 0.1-0.3 times the original amount in unheated cells, and the 70 kDa protein in the nucleus increased by a factor of 1.6-1.8. The normal levels of these two proteins were restored when cells were incubated at 37 degrees C following heat shock. Cells treated with heat protectors, cycloheximide and histidinol, demonstrated approximately the same redistribution in nuclear 26 and 70 kDa proteins immediately after heating as those not exposed to these drugs. On the other hand, restoration to control levels was much faster in the protector-treated cells, suggesting that "repair" of heat-induced damage is an important factor in the cells ability to survive this insult. Return to normal protein levels did not require new protein synthesis.
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PMID:Heat protectors and heat-induced preferential redistribution of 26 and 70 kDa proteins in Chinese hamster ovary cells. 259 26

Recombinant human interleukin-6 produced a dose-dependent inhibition of DNA synthesis in both growing and mitogen-stimulated cultures of normal rat liver epithelial cells and also in primary rat hepatocytes. A significant inhibition of DNA synthesis (P less than 0.001) was obtained with 1 ng/ml (10 Units/ml) interleukin-6 in normal rat liver epithelial cells. The ID50 for inhibition of DNA synthesis in primary rat hepatocytes was 1 ng/ml. In contrast to the effects of transforming growth factor beta (Type I), where an almost complete inhibition of DNA synthesis could be achieved with either cell type, the maximal inhibition observed with interleukin-6 for both of these cell types was about 45%. Thus distinct mechanisms are involved in the inhibition of liver cell growth by these growth modulators. Transformed liver-derived cell lines were relatively resistant to the growth inhibitory effects of both interleukin-6 and TGF-beta 1 compared with the normal cells. However, human Hep G2 cells, which were completely resistant to the growth inhibitory effects of TGF-beta 1, were moderately inhibited by interleukin-6, indicating that the mechanisms responsible for the acquired resistance to growth inhibition is different for these growth inhibitors. The ability of interleukin-6 to function as a growth inhibitor in vitro was confirmed using normal rat liver epithelial cells. Interleukin-6 at a concentration of 10 ng/ml produced a significant decrease (P less than 0.05) in the proliferation of these cells. These data demonstrate that interleukin-6 may have the capability of functioning as a growth regulatory polypeptide for liver cells in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of interleukin-6 on the growth of normal and transformed rat liver cells in culture. 263 56

The recR gene of Escherichia coli, which is associated with recBC-independent mechanisms of recombination and DNA repair, has been located between dnaZX and htpG on a 6.4 kb EcoRI fragment of DNA that has been cloned and analysed in lambda and plasmid vectors. Nucleotide sequencing of this interval revealed two open reading frames that constitute an operon lying immediately downstream of dnaZX. The second of these two reading frames was identified as recR. It encodes a polypeptide with a predicted molecular weight of 21,965 Daltons that migrates on SDS gels as a 26 kDa protein. The first gene of the operon encodes a polypeptide of 12,015 daltons. Its function is not known.
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PMID:The recR locus of Escherichia coli K-12: molecular cloning, DNA sequencing and identification of the gene product. 267 3

Transcription of the human haptoglobin (Hp) gene is induced by interleukin-6 (IL-6) in the human hepatoma cell line Hep3B. Cis-acting elements responsible for this response are localized within the first 186 bp of the 5'-flanking region. Site-specific mutants of the Hp promoter fused to the chloramphenicol acetyl transferase (CAT) gene were analysed by transient transfection into uninduced and IL-6-treated Hep3B cells. We identified three regions, A, B and C, defined by mutation, which are important for the IL-6 response. Band shift experiments using nuclear extracts from untreated or IL-6-treated cells revealed the presence of IL-6-inducible DNA binding activities when DNA fragments containing the A or the C sequences were used. Competition experiments showed that both sequences bind to the same nuclear factors. Polymers of oligonucleotides containing either the A or the C regions confer IL-6 responsiveness to a truncated SV40 promoter. The B region forms several complexes with specific DNA-binding proteins different from those which bind to the A and C region. The B region complexes are identical in nuclear extracts from IL-6-treated and untreated cells. While important for IL-6 induction in the context of the haptoglobin promoter, the B site does not confer IL-6 inducibility to the SV40 promoter. Our results indicate that the IL-6 response of the haptoglobin promoter is dependent on the presence of multiple, partly redundant, cis-acting elements.
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PMID:The human haptoglobin gene promoter: interleukin-6-responsive elements interact with a DNA-binding protein induced by interleukin-6. 278 45

Rat peritoneal exudate cells produce two interleukin 6 (IL6) messenger RNA species, a major 1200 nucleotide and a 5-fold less abundant, 2400-nucleotide species. A cDNA clone representing the major species was isolated, and sequenced. The 1055-base pair insert covered the 3'-nontranslated region, the 211 triplet coding region and most of the 5'-nontranslated region. The derived rat IL6 amino acid sequence was 93 and 58% identical, respectively, with mature murine and human IL6. Rat IL6 lacks N-glycosylation sites but contains a fifth cysteinyl residue in addition to the 4 residues shared in conserved positions with murine and human IL6. Stable murine L cell and human HeLa-derived cell lines were established by cotransfection with rat IL6 cDNA and a selectable neomycin resistance marker. These lines secrete 9-fold increased amounts of functional IL6 over their respective parental cells. A stable rat macrophage-derived cell line, RM-SV1, was established by transformation with simian virus 40. IL6 and Il1 mRNA levels are inducible 20- and 3.5-fold, respectively, in this line by treatment with lipopolysaccharide with kinetics characteristic of macrophages. A set of three overlapping genomic DNA clones was isolated and a 10-kilobase DNA segment was sequenced containing the rat IL6 gene plus 2.9 kilobases of 5'-flanking and 1.3 kilobases of 3'-flanking sequences. The two transcription start sites used in RM-SV1 cells were mapped within 5 base pairs of each other. The exon/intron boundaries are conserved with the murine and human IL6 genes. The two IL6 mRNA species are generated by alternative polyadenylation at sites separated by a distance of 1.2 kilobases. The intervening region contains a repetitive element 72-80% identical with the rat and murine consensus L1 family sequences.
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PMID:Structure of the rat interleukin 6 gene and its expression in macrophage-derived cells. 278 17

We have recently shown that Abelson murine leukemia (A-MuLV) virus can transform cells in large mixed colonies to give tumorigenic myeloid cell lines capable of autonomous growth in vitro. Initial studies revealed that granulocyte-macrophage colony-stimulating factor (GM-CSF) production was consistently activated in these cells. Using a sensitive S1 RNA mapping technique and additional bioassays, we have now obtained evidence of expression of other hemopoietic growth factor genes. Uniformly 32P-labeled, single-stranded DNA probes (greater than 4 x 10(8) cpm/micrograms) were generated for interleukin 3 (IL-3) and GM-CSF using pTZ based vectors. IL-3 mRNA was detected in four of four cloned transformants (from two different infections) at approximately 1% of the level seen in pokeweed mitogen (PWM)-stimulated spleen cells. GM-CSF mRNA was detected in the two clones that showed the highest IL-3 mRNA levels. Medium conditioned by these cells was able to stimulate IL-3-dependent 32D cells, and IL-3- and GM-CSF-dependent B6SUtA cells, and also supported the growth of a variety of single and multilineage colonies in assays of mouse marrow cells even in the presence of neutralizing antibodies to GM-CSF. Rearrangements of the IL-3 and GM-CSF genes were not apparent by Southern blot analysis. Additional bioassays revealed the presence of two other growth factors: IL-6 (hybridoma growth factor or Ifn-beta 2) assayed on B13.29 cells, a factor-dependent murine B-cell hybridoma; and a new pre-B-cell stimulatory factor different from any of the above. Elucidation of the mechanism underlying this phenomenon may provide important insights into the regulation of hemopoietic growth factor gene expression and the role such genes play in human leukemogenesis.
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PMID:Activation of multiple hemopoietic growth factor genes in Abelson virus-transformed myeloid cells. 284 75

The human interferon-beta 2 gene (IFNB2) product is identical to that for the B-cell stimulation factor-2 (BSF-2), the hybridoma growth factor (HGF) ("interleukin-6"), and the hepatocyte stimulating factor (HSF). Proteins derived from this gene mediate the plasma protein response to tissue injury (acute-phase response) and regulate the growth and differentiation of both B and T cells. By using the enzymes MspI, BstNI, and BglI, three polymorphic systems were detected with probes for the IFNB2 gene. The MspI and BglI polymorphisms are likely to be due to base pair substitutions; the BstNI polymorphism was revealed by nine other enzymes and is likely to be due to DNA insertions within 1 kb of the 3' flanking region of the gene. This region is rich in AT dinucleotides, and slippage at DNA replication may generate the insertions of between 0.07 and 0.23 kb that were observed. The polymorphic MspI site also lies within the vicinity of the fifth exon. The BglI polymorphic site is likely to lie in 5' flanking DNA. The three polymorphisms are separate, and a variety of haplotypes was observed. A low level of linkage disequilibrium exists between the MspI and the BglI alleles. MspI and BstNI polymorphisms were observed in Caucasoids, CAR Pygmies, Zaire Pygmies, Melanesians, and Chinese but at differing frequencies, and not all alleles were present in all populations. The BglI polymorphism was observed in Caucasoids and Africans only. Linkage studies involving the IFNB2 gene and 27 other chromosome 7 markers have localized it to between D7S135 and D7S370 at 7p22-p21.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The human "interferon-beta 2/hepatocyte stimulating factor/interleukin-6" gene: DNA polymorphism studies and localization to chromosome 7p21. 290 47

Proliferation and maturation of antigen-stimulated B cells are regulated by several soluble factors derived from macrophages and T cells. These soluble factors are functionally divided into two groups: B-cell growth factor (BCGF), thought to be involved in B-cell proliferation; and B-cell differentiation factor (BCDF), responsible for maturation of activated B cells into immunoglobulin-secreting cells. This classification needs to be re-examined in the light of the recent cloning of complementary DNA encoding IgG1 induction factor (interleukin-4, IL-4) from the 2.19 mouse T-cell line. Recombinant IL-4 has BCGF and BCDF activities and affects B cells, T cells and mast cells (refs 7, 8; our unpublished data). Another well-characterized B-cell factor is T-cell replacing factor (TRF), which, when secreted by the murine T-cell hybridoma B151K12, is defined by two activities: induction of IgM secretion by BCL1 leukaemic B-cell line; and induction of secondary anti-dinitrophenol (DNP) immunoglobulin G (IgG) synthesis in vitro by DNP-prime B cells. Although TRF from B151K12 was classified as BCDF, purified TRF has BCGF-II activity. To elucidate the molecular properties of TRF we isolated cDNA encoding TRF from the 2.19 T-cell line and report here the structure and multiple activities of this lymphokine.
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PMID:Cloning of complementary DNA encoding T-cell replacing factor and identity with B-cell growth factor II. 302 9

Mouse B lymphocytes can be activated polyclonally by bacterial lipopolysaccharide (LPS) to secrete Ig and perform Ig class switch. In the presence of the T-cell lymphokine B-cell differentiation factor, the frequency of IgG1-secreting cells is drastically enhanced. We show here that IgG1-secreting B cells isolated from such cultures have undergone a similar DNA rearrangement of the switch regions (S mu, S gamma 1) of the Ig heavy chain constant region genes C mu and C gamma 1 on both active and inactive IgH loci. This result argues against a stochastic model of class switch recombination and suggests programmed class-specific switch recombination in the case of the switch to IgG1. In accord with this notion, cells expressing IgM but not IgG on the surface have not deleted or rearranged C mu or S gamma 1 on either chromosome.
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PMID:Class switch recombination is IgG1 specific on active and inactive IgH loci of IgG1-secreting B-cell blasts. 308 72

Cellular and genetic analyses of interleukin-2 (IL-2) production and IL-2 receptor (IL-2R) expression were examined in a immunodeficient patient and his family members. Mononuclear cells (MNC) of the patient showed no proliferative response (stimulation index, less than 2) to T-cell mitogens (PHA and Con A) and were defective in IL-2 production and IL-2R expression (less than 1%), whereas productions of other lymphokines (B-cell differentiation factor and IFN-gamma) were not impaired significantly. His brother died of the same disease and his father also lacked in proliferative response and IL-2 production by PHA stimulation. In Southern blot analyses using DNA probes of IL-2 and IL-2R, patterns of the patient were the same as those of healthy volunteers, whereas the transcription of DNA coding for IL-2R to mRNA was lacking in the patient. These results suggest that inheritant defects of IL-2 production and IL-2R expression reside in this family and the defects are not linked to DNAs coding for IL-2 and IL-2R but to a transcriptional deficiency.
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PMID:Cellular and genetic analyses of IL-2 production and IL-2 receptor expression in a patient with familial T-cell-dominant immunodeficiency. 312 Dec 26

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