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)

The current study reinvestigated whether pure plasminolytic fragments D and E from fibrin directly increase fibrinogen synthesized by the hepatocyte. Fibrinogen protein levels and fibrinogen mRNA levels in an interleukin-6 (IL-6) responsive rat hepatoma cell line (FAZA) were measured quantitatively by [35S]-methionine pulse-chase experiments and Northern hybridizations, respectively. The results demonstrate that neither fragments D nor E, alone or in combination, in the presence or absence of dexamethasone, had any influence on the production of fibrinogen.
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PMID:The putative role of fibrin fragments in the biosynthesis of fibrinogen by hepatoma cells. 201 4

Fibrinogen synthesis increases significantly during the early stages of an inflammatory reaction. In this study, we analysed quantitatively the fate of each fibrinogen transcript in primary rat hepatocytes during and following stimulation with interleukin-6 (IL-6). Northern blot hybridization analysis demonstrated a coordinated increase in the levels of fibrinogen mRNAs within 30 min following addition of IL-6. The half-life for each fibrinogen mRNA species was determined to be 8 h, and the decline in the level of all three fibrinogen transcripts occurred in a tightly coordinated fashion. When inhibitors of transcription (actinomycin-D) or translation (cycloheximide) were added following a maximal induction of fibrinogen mRNA expression by IL-6, the decay of mRNA was significantly diminished. Furthermore, the addition of cycloheximide (CHX) to hepatocytes increased fibrinogen mRNA levels, but only if the cells had been stimulated with IL-6. These data suggest that lability of the fibrinogen mRNAs may be due, in part, to the presence of a specific short-lived protein(s) that enhances their degradation. Constant exposure to IL-6 was required for the continual increase in expression of the fibrinogen mRNAs. Taken together, these results provide evidence that the turnover of fibrinogen mRNAs is stringently coordinated, and involves specific regulatory molecules yet to be characterized.
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PMID:Transcription and translation are required for fibrinogen mRNA degradation in hepatocytes. 202 52

This descriptive study compares the inflammatory, coagulant, and hemodynamic responses of the baboon to a 2-hr infusion of lethal and sublethal concentrations of Escherichia coli (40 and 4.0 billion organisms per kilogram, respectively). The response to lethal E. coli challenge occurred in three stages: an inflammatory stage marked by a fall in white blood cell count (0-2 hr), a coagulant stage marked by a fall in fibrinogen concentration (2-6 hr), and a hypoxic cell injury stage marked by a rise in SGPT/BUN and by a gradual cardiovascular collapse, and death (6-24 hr). The inflammatory, or first stage coincided with the appearance in plasma of tumor necrosis factor (TNF) and interleukin-1 beta (IL-1 beta), which peaked at 120 and 240-300 min, respectively; a slow but continuous appearance and rise of interleukin-6 (IL-6); and the appearance of endotoxin reaching a maximum at 120 min. This contrasted markedly with the response to sublethal E. coli, in which only one of the three stages was observed (inflammatory) and only minor amounts of the cytokines or endotoxin appeared in the plasma. This study describes the cytokine and endotoxin profiles and the bacteremia in the primate under experimental conditions. It shows for the first time the extreme qualitative differences in their response to lethal and sublethal concentrations of E. coli. It raises the possibility that lethality is associated with an override of the tissue threshold for processing these mediators, as marked by their appearance in plasma in response to lethal E. coli infusion.
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PMID:Endotoxin and cytokine profile in plasma of baboons challenged with lethal and sublethal Escherichia coli. 204 16

Fibrinogen biosynthesis is regulated under normal and pathophysiological conditions by the constitutive, hormonal and cytokine-mediated mechanisms. As an acute-phase protein, fibrinogen biosynthesis is regulated by glucocorticoids and cytokines. Recent studies have defined glucocorticoid-consensus sequences on the beta-chain promoter. The cytokine mediating production of fibrinogen, originally termed leukocyte endogenous mediator and hepatocyte stimulatory factor, has now been demonstrated to be derived from a single gene family of cytokines called interleukin-6 (IL-6). IL-6 forms produced by mammalian fibroblasts, T-cells and endothelial cells, as well as monocytic cells, can stimulate basal levels of fibrinogen production in vitro and in vivo. Studies carried out in mammalian hepatocyte systems, with natural or recombinant IL-6, show a dependency on the presence of glucocorticoids to provide a maximal effect. Our results demonstrated the ability of purified human recombinant interleukin-6 (originally BSF-2) to stimulate fibrinogen production in primary chicken hepatocytes in a dose-dependent manner. Conditioned medium from primary chick fibroblasts unstimulated or stimulated with purified natural interleukin-1 (IL-1), induced a dose-dependent increase in fibrinogen levels in cultured chick hepatocytes. IL-1 alone had little or no direct effect on fibrinogen production.
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PMID:Regulation of fibrinogen biosynthesis: glucocorticoid and interleukin-6 control. 213 21

Affinity cross-linking of 125I-labeled recombinant human interleukin-6 (IL-6) to human hepatoma cells (HepG2) allowed the detection of three IL-6-containing complexes with molecular masses of 100 kDa, 120 kDa and 200 kDa. Treatment of HepG2 cells with dexamethasone led to a time- and dose-dependent up-regulation of IL-6-receptor mRNA levels. By the use of cross-linking this effect was also seen at the protein level, where all three IL-6-binding complexes increased upon incubation of HepG2 cells with dexamethasone. Under conditions of IL-6-receptor up-regulation by dexamethasone, gamma-fibrinogen mRNA induction by IL-6 is stronger and occurs earlier than without dexamethasone. We propose therefore that the expression of the IL-6 receptor might be a rate-limiting step in acute-phase-protein induction.
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PMID:Studies on the structure and regulation of the human hepatic interleukin-6 receptor. 216 35

We have constructed on the cDNA level deletion mutants of human interleukin-6 lacking one, two, three or four amino acids from the carboxy-terminus of the molecule. After in vitro transcription and translation the biological activity of these deletion mutants was determined by two independent bioassays. Both, the mouse B9 cell proliferation assay and the fibrinogen induction assay with the human hepatoma cell line HepG2 led to the following result: already the removal of the last amino acid resulted in a five-fold loss of biological activity. An additional slight reduction was seen when two amino acids were removed from the carboxy-terminus. Interleukin-6 lacking three or four C-terminal amino acids were completely inactive. The presented results emphasize the extreme importance of the carboxy-terminus of interleukin-6 for its biological function.
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PMID:The three carboxy-terminal amino acids of human interleukin-6 are essential for its biological activity. 222 71

Secretory products of cultured human blood monocytes contain a hepatocyte-stimulating factor which is able to induce the acute-phase proteins alpha 2-macroglobulin and fibrinogen in rat liver cells. Total RNA was isolated from unstimulated and lipopolysaccharide-stimulated human monocytes and translated in a reticulocyte lysate. The capability of the cell-free synthesized proteins to induce the acute-phase proteins alpha 2-macroglobulin and fibrinogen was assayed in rat hepatocyte primary cultures and in the rat hepatoma cell line Fao. The products translated from the mRNA of lipopolysaccharide-stimulated human monocytes induced mRNAs for alpha 2-macroglobulin and fibrinogen and therefore contain hepatocyte-stimulating factor. The translation products of unstimulated monocytes had no effect. A cDNA containing the coding sequence for interleukin-6 (B-cell stimulatory factor 2, interferon-beta 2/26-kDa protein, interleukin HP1) derived from human T-cells cloned into the transcription vector pGEM4 was transcribed in vitro. Translation of the isolated RNA in a reticulocyte lysate led to the synthesis of a protein of about 25 kDa. This cell-free synthesized interleukin-6 exhibited hepatocyte-stimulating activity measured by the induction of beta-fibrinogen mRNA in Fao cells. Using an antibody against interleukin-6, two proteins of 22 kDa and 23 kDa were immunoprecipitated from the culture medium of lipopolysaccharide-stimulated human monocytes. These two proteins were not synthesized by unstimulated monocytes. When total RNA from unstimulated human monocytes and lipopolysaccharide-stimulated human monocytes and lymphocytes was subjected to Northern analysis and hybridized with the interleukin-6 cDNA, a strong hybridization signal corresponding to an RNA of about 1300 bases was detected only in the RNA from lipopolysaccharide-stimulated human monocytes, indicating that human monocytes express the interleukin-6 gene after stimulation. The data presented in this paper strongly suggest that hepatocyte-stimulating factor from human monocytes and interleukin-6 from T-cells are identical.
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PMID:Cell-free-synthesized interleukin-6 (BSF-2/IFN-beta 2) exhibits hepatocyte-stimulating activity. 245 23

The three monokines interleukin-1 beta (IL-1 beta), tumor necrosis factor alpha (TNF alpha), and interleukin-6 (IL-6) modulate acute phase plasma protein synthesis in adult human hepatocytes. Only IL-6 stimulates the synthesis of the full spectrum of acute phase proteins as seen in inflammatory states in humans, i.e. synthesis and secretion of C-reactive protein, serum amyloid A, fibrinogen, alpha 1-antitrypsin, alpha 1-antichymotrypsin and haptoglobin are increased while albumin, transferrin and fibronectin are decreased. IL-1 beta as well as TNF alpha, although having a moderate effect on the positive acute phase proteins and inhibiting the synthesis of fibrinogen, albumin and transferrin, fail to induce serum amyloid A and C-reactive protein. These data suggest that IL-6 plays the key role in the regulation of acute phase protein synthesis in human hepatocytes.
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PMID:Interleukin-6 is the major regulator of acute phase protein synthesis in adult human hepatocytes. 246 4

We have constructed and analyzed amino terminally deleted analogs of IL-6. Progressively shortened variants of mature IL-6 were constructed at the cDNA level and expressed in Escherichia coli. Mutant proteins were recovered from refractile bodies by solubilizing in 6 M guanidine-HCl. The mutant protein concentration in these preparations was estimated by Western blotting by using an IL-6-specific mAb and the biologic activity was measured in the B9 (hybridoma growth factor) assay. The first 28 amino acids of mature IL-6 could be removed without significantly affecting biologic activity. A further removal of amino acids 29 and 30 resulted in an approximately 50-fold decrease, whereas removal of amino acids 31 to 34 virtually abolished the activity. The mutants showed the same reaction pattern in three other IL-6 assays: induction of murine thymocyte proliferation, induction of fibrinogen synthesis by a human hepatoma cell line (HepG2), and the induction of IgM synthesis by an EBV-transformed B cell line. This suggests that a single functional domain might be responsible for all four activities of IL-6.
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PMID:Analysis of human IL-6 mutants expressed in Escherichia coli. Biologic activities are not affected by deletion of amino acids 1-28. 266 92

The cDNA for human beta 2-interferon (IFN-beta 2)/B-cell differentiation factor 2/hepatocyte-stimulating factor was expressed in Escherichia coli to yield a fusion protein which contains the 182 carboxyl-terminal amino acids of IFN-beta 2 fused to a 34-amino acid prokaryotic leader peptide (rIFN-beta 2). When added to cultures of human hepatoma cell line Hep3B2, rIFN-beta 2 as well as preparations of natural IFN-beta 2 enhance secretion of positive acute phase reactants such as alpha 1-antichymotrypsin, complement C3, fibrinogen, and alpha 1-acid glycoprotein and inhibit secretion of albumin, confirming that a protein derived from the IFN-beta 2 gene can have hepatocyte-stimulating factor activity. We have prepared a rabbit polyclonal antiserum to the E. coli-derived human IFN-beta 2 fusion protein. This polyclonal antiserum inhibits the hepatocyte-stimulating and B-cell differentiation activities of appropriate IFN-beta 2 preparations. The anti-rIFN-beta 2 antiserum has been used in immunoprecipitation experiments and in Western blots to help define the secretory proteins derived from the IFN-beta 2 gene in fibroblasts and monocytes. "Uninduced" human FS-4 fibroblasts as well as those induced with interleukin-1 alpha, tumor necrosis factor, or bacterial lipopolysaccharide secrete at least five forms of IFN-beta 2 of apparent molecular mass in the range from 23 to 30 kDa which can be resolved by polyacrylamide gel electrophoresis under denaturing and reducing conditions. The three higher molecular mass forms are not observed when FS-4 cells are induced in the presence of tunicamycin, suggesting that these forms are N-glycosylated (gp28, gp29, and gp30). Although secretion of the two lower molecular mass forms is resistant to tunicamycin, they are labeled by [3H]glucosamine (gp23-gp25). The inclusion of cycloheximide during the [35S]methionine labeling of induced FS-4 cells results in the preferential synthesis and secretion of the 29-kDa triplet. Human monocytes induced with bacterial lipopolysaccharide also secrete several distinct forms of IFN-beta 2 in the size range from 23 to 30 kDa which co-migrate in polyacrylamide gels with those obtained from FS-4 cells. Our observations help relate previous descriptions of multiple forms of hepatocyte-stimulating factor to specific proteins derived from the IFN-beta 2 gene.
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PMID:Synthesis and secretion of multiple forms of beta 2-interferon/B-cell differentiation factor 2/hepatocyte-stimulating factor by human fibroblasts and monocytes. 313 26

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