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)

1. Oncostatin M (OSM), a member of the interleukin-6 (IL-6) cytokine family, acts on a variety of cells and elicits diversified biological responses, suggesting potential roles in the regulation of cell survival, differentiation and proliferation. 2. We have examined the effect of OSM on the regulation of human lung fibroblast proliferation, collagen production and spontaneous apoptosis. The proliferative effects of OSM (0.5 - 100 ng ml(-1)) were assessed using a MTS assay as well as [(3)H]-thymidine incorporation and cell counts at 24 and 48 h. Hydroxyproline was measured as an index of procollagen production by high pressure liquid chromotography (HPLC). Apoptosis was determined by annexin staining. 3. OSM enhanced the mitotic activity of lung fibroblasts in a time and dose dependent manner. Maximum proliferation of 57% above control was observed after incubation for 48 h with 2 ng ml(-1) OSM (P<0.05). 4. Incubation with the mitogen activated protein kinase (MAPK) kinase inhibitor, PD98059 or the tyrosine kinase inhibitor, genestein both significantly reduced the mitogenic effect of OSM (P<0.05). 5. In contrast, proliferation in response to OSM was not regulated by induction of cyclo-oxygenase and subsequent prostaglandin E(2) (PGE(2)) release or by IL-6. 6. OSM also stimulated fibroblasts to synthesize pro-collagen by a maximum of 35% above control levels after 48 h (P<0.05). 7. OSM significantly inhibited the spontaneous apoptosis of fibroblasts at 24 and 48 h. 8. These results provide evidence that OSM has pro-fibrotic properties and suggest that it may play a role in normal lung wound repair and fibrosis.
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PMID:Oncostatin M stimulates proliferation, induces collagen production and inhibits apoptosis of human lung fibroblasts. 1208 89

Oncostatin-M (OSM), a pluripotent cytokine of the interleukin-6 (IL-6) family, is produced in a number of inflammatory conditions. Known sources of OSM include monocytes-macrophages and T-cells. Here we present microglia, the resident macrophages of the brain, as a source of OSM in the CNS. In this context, we describe a novel inducer of OSM, prostaglandin E(2) (PGE(2)). PGE(2) induces OSM expression in microglia, monocytes, and macrophages of human and murine origin. PGE(2) induction of OSM is mimicked by cholera toxin, an activator of stimulatory G (G(s))-proteins; by forskolin, an activator of adenylate cyclase; and by the cAMP analog, dibutyryl-cAMP. PGE(2) induction of OSM gene expression is inhibited by the adenylate cyclase inhibitor 2',5'-dideoxyadenosine, by the protein kinase A (PKA) inhibitor H-89, and by a dominant-negative PKA construct. These data indicate that PGE(2) signals via G(s)-protein-coupled receptor(s), adenylate cyclase, and PKA to induce OSM expression. Accordingly, other activators of cAMP signaling such as norepinephrine and PGE(1) induce OSM. The ability of PGE(2) to induce OSM expression was tested under more physiological conditions, using cocultures of astrocytes and monocytes. Treatment of the cocultures with IL-1beta or tumor necrosis factor-alpha (TNF-alpha) results in production of PGE(2) and OSM. PGE(2) produced in the cocultures is responsible for OSM induction, because pretreatment with indomethacin, an inhibitor of prostaglandin synthesis, as well as depletion of PGE(2), abrogate OSM expression induced by IL-1beta or TNF-alpha. These data suggest that in the CNS, OSM may be produced through collaboration of astrocytes and macrophages-microglia.
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PMID:Prostaglandin E2 is a novel inducer of oncostatin-M expression in macrophages and microglia. 1209 85

The androgen receptor (AR), a transcription factor that mediates the action of androgens in target tissues, is expressed in nearly all prostate cancers. Carcinoma of the prostate is the most frequently diagnosed neoplasm in men in industrialized countries. Palliative treatment for non-organ-confined prostate cancer aims to down-regulate the concentration of circulating androgen or to block the transcription activation function of the AR. AR function during endocrine therapy was studied in tumor cells LNCaP subjected to long-term steroid depletion; newly generated sublines could be stimulated by lower concentrations of androgen than parental cells and showed up-regulation of AR expression and activity as well as resistance to apoptosis. Androgenic hormones regulate the expression of key cell cycle regulators, cyclin-dependent kinase 2 and 4, and that of the cell cycle inhibitor p27. Inhibition of AR expression could be achieved by potential chemopreventive agents flufenamic acid, resveratrol, quercetin, polyunsaturated fatty acids and interleukin-1beta, and by the application of AR antisense oligonucleotides. In the clinical situation, AR gene amplification and point mutations were reported in patients with metastatic disease. These mutations generate receptors which could be activated by other steroid hormones and non-steroidal antiandrogens. In the absence of androgen, the AR could be activated by various growth-promoting (growth factors, epidermal growth factor receptor-related oncogene HER-2/neu) and pleiotropic (protein kinase A activators, interleukin-6) compounds as well as by inducers of differentiation (phenylbutyrate). AR function is modulated by a number of coactivators and corepressors. The three coactivators, TIF-2, SRC-1 and RAC3, are up-regulated in relapsed prostate cancer. New experimental therapies for prostate cancer are aimed to down-regulate AR expression and to overcome difficulties which occur because of the acquisition of agonistic properties of commonly used antiandrogens.
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PMID:Androgen receptors in prostate cancer. 1223 44

Interleukin-6 (IL-6) is a multifunctional cytokine which is involved in regulation of growth of various malignant tumors. IL-6 binds to its receptor, which is composed of a ligand-binding and a signal-transducing subunit and activates pathways of signal transducers and activators of transcription and mitogen-activated protein kinases (MAPKs). In prostate cancer cells, IL-6 induces divergent proliferative responses. Serum levels of IL-6 are elevated in patients with therapy-resistant carcinoma of the prostate. We have investigated whether IL-6 interacts with the androgen signaling pathway in prostate cancer cells. In DU-145 cells, transiently transfected with androgen receptor (AR) cDNA, IL-6 caused ligand-independent and synergistic activation of the AR. Nonsteroidal antagonists of the AR down-regulated AR activity induced by IL-6. In LNCaP cells, IL-6-induced expression of the AR-regulated prostate-specific antigen gene. Inhibitors of protein kinase A and C and MAPK down-regulated IL-6-induced AR activity. IL-6 expression in human prostate tissue was studied by immunohistochemistry. In benign prostatic tissue, IL-6 immunoreactivity was confined to basal cells. In prostate intraepithelial neoplasia and in cancer tissue, atypical intraluminal and cancer cells expressed IL-6. The expression of IL-6 receptor was demonstrated in benign and malignant tissue in both epithelium and stroma. In the authors' laboratory, IL-6-inhibited proliferation of parental LNCaP cells. A new LNCaP subline was generated to investigate changes in signal transduction which might occur after prolonged treatment with IL-6. In the subline LNCaP-IL-6+, IL-6 neither reduced a number of cells nor caused G1 growth arrest. IL-6 receptor expression declined during long-term IL-6 treatment. However, IL-6-up-regulated AR expression and was capable of inducing AR activity in LNCaP-IL-6+ cells. Parental LNCaP cells do not express IL-6. In contrast, IL-6 mRNA and protein expression were detectable in high passages of LNCaP-IL-6+ cells. Thus changes in signal transduction occur in prostate cancer cells after prolonged IL-6 treatment
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PMID:Interleukin-6 regulates androgen receptor activity and prostate cancer cell growth. 1243 17

The phenotype of mitogen-activated protein kinase-activated protein kinase-2 (MK2) knockout mice revealed the essential role of this enzyme in post-transcriptional regulation of lipopolysaccharide-induced expression of cytokines such as tumour necrosis factor (TNF)-alpha, interleukin-6 and interferon-gamma, at the level of mRNA stability and translation. In the case of TNF-alpha, this regulation depends on the AU-rich element in TNF-alpha mRNA. In addition to cytokine expression, MK2 is also essential for cell migration in vitro. Although the role of MK2 in cytokine expression depends mainly on catalytic activity, its role in cell migration is also dependent on a proline-rich N-terminal motif. However, the molecular mechanisms involved and the relevant protein targets for MK2 are not completely defined. Here we discuss the possible mechanisms by which two potential target proteins of MK2, small heat-shock protein 25/27 (Hsp25/27) and tristetraprolin, could contribute to our understanding of the above regulation.
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PMID:Is MK2 (mitogen-activated protein kinase-activated protein kinase 2) the key for understanding post-transcriptional regulation of gene expression? 1244 Sep 54

The phosphatidylinositol 3-kinase/Akt pathway plays an important role in the signaling of insulin and other growth factors, which reportedly attenuate the interleukin-6 (IL-6)-mediated stimulation of acute phase plasma protein genes. We investigated the effect of the protein kinase Akt on IL-6-mediated transcriptional activation. The transient expression of constitutively active Akt inhibited the IL-6-dependent activity of the alpha(2)-macroglobulin promoter in HepG2 cells, whereas expression of an inactive mutant of phosphatidylinositol-dependent kinase 1 had the opposite effect. Since Akt is known to regulate gene expression through inactivation of the transcription factor FKHR (forkhead in rhabdomyosarcoma), we examined the effect of FKHR on STAT3-mediated transcriptional regulation. Indeed, the overexpression of FKHR specifically enhanced the activity of STAT3-dependent promoters but not that of a STAT5-responsive promoter. The effect of FKHR required the presence of functional STAT3 and was abrogated by the expression of dominant negative STAT3 mutants. Furthermore, FKHR and STAT3 were shown to coimmunoprecipitate and to colocalize in the nuclear regions of IL-6-treated HepG2 cells. Our results indicate that FKHR can modulate the IL-6-induced transcriptional activity by acting as a coactivator of STAT3.
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PMID:Akt modulates STAT3-mediated gene expression through a FKHR (FOXO1a)-dependent mechanism. 1245 85

Lewis (LEW/N) rats, compared to Fischer (F344/N) rats, are susceptible to inflammatory/autoimmune diseases, in part, as a result of their blunted hypothalamic-pituitary-adrenal (HPA) axis responses. We examined regulation of LEW/N and F344/N fetal hypothalamic cell secretion of corticotropin-releasing hormone (CRH) and arginine vasopressin (AVP), two major HPA axis mediators, by inflammatory and neurotransmitter stimuli. Interleukin-1beta (IL-1beta), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNF-alpha), and protein kinase A (PKA) and protein kinase C (PKC) activators did not affect LEW/N basal secretion. Compared to F344/N, LEW/N cells were hyporesponsive to lipopolysaccharide (LPS), serotonin (5-HT), and acetylcholine chloride (ACh). However, LPS-induced AVP release and ACh-evoked CRH secretion in LEW/N were comparable with those of F344/N. Our findings suggest that the blunted LEW/N neuropeptide response was more likely related to components of second messenger systems, rather than to any one specific stimulus.
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PMID:Specific up-regulation of CRH or AVP secretion by acetylcholine or lipopolysaccharide in inflammatory susceptible Lewis rat fetal hypothalamic cells. 1245 34

Norepinephrine (NE) is involved in many cardiovascular diseases such as congestive heart failure. We have recently reported that NE had a comitogenic effect in isolated cardiac fibroblasts, and that it activated p42/p44 mitogen activated protein kinase (MAPK). This study was designed to characterize a possible mechanism involved in the proliferative effect of NE. Isolated rat cardiac fibroblasts were exposed to NE (10 microM) for up to 8 h, and interleukin-6 (IL-6) expression was measured by Ribonuclease Protection Assay and Western blotting. The activity of p42/p44MAPK was analyzed by Western blotting. Cell number was assessed by use of a Coulter Counter. IL-6/GAPDH mRNA was increased by NE in a time-dependent manner reaching 23 fold stimulation after 1 h compared to untreated samples. Immunoreactivity to IL-6 was not found in controls. After 16 h of exposure to NE, IL-6 protein was detected. It further increased up to 48 h. The effect of NE on IL-6 mRNA was abolished by the beta-adrenoceptor blockers propranolol, metoprolol (beta1) and ICI 118.551 (beta2), but not by the alpha-adrenoceptor blockers prazosin (alpha1) and yohimbine (alpha2). The MAPK-inhibitor PD98059 suppressed the NE-induced MAPK activation in a concentration-dependent fashion after 5 min, attenuated the NE-induced IL-6 expression after 2 h, and suppressed the proliferative effect of NE from 53 to 18% after 48 h. Recombinant IL-6 caused an increase in proliferation by 31% after 48 h. Simultaneous application of the IL-6 antibody reduced the NE-induced proliferation to 34%, and completely prevented the IL-6 induced effect. These results suggest that NE induces proliferation of rat cardiac fibroblasts in part by increasing the expression of IL-6 through regulation of MAPK.
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PMID:Regulation of norepinephrine-induced proliferation in cardiac fibroblasts by interleukin-6 and p42/p44 mitogen activated protein kinase. 1261 90

Several interacting and mutually perpetuating biochemical pathways or systems, such as the polyol pathway, nonenzymatic glycation, oxidative stress, protein kinase Cbeta and the reninangiotensin system, may be activated as a result of sustained hyperglycemia in diabetes. These abnormally activated pathways may in turn influence several vasoactive factors and cytokines, such as vascular endothelial growth factor, interleukin-6, pigment epithelium-derived factor and endostatin, which are important in mediating the functional and structural changes of diabetic retinopathy. Intricate and interacting regulatory mechanisms involving these factors may control their ultimate ability to produce biologically significant effects. A better understanding of these factors and their interactions may assist in the development of adjuvant therapies for the treatment of diabetic retinopathy. (c) 2002 Prous Science. All rights reserved.
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PMID:Pathophysiology of Diabetic Retinopathy. 1267 48

Helicobacter pylori has been reported to induce interleukin-6 (IL-6) production in monocytes/macrophages and in chronically inflamed gastric tissues. The mechanism by which H. pylori induces IL-6 production in macrophages, however, has not been investigated. To identify the H. pylori factor responsible for this activity, we fractionated soluble proteins from H. pylori strain 26695 by ion exchange and size exclusion chromatography and screened the fractions for IL-6-inducing activity on RAW 264.7 macrophages. A single protein was purified and identified by mass spectrometry as H. pylori heat shock protein 60 (HSP60). Consistent with the observed IL-6-inducing activity of H. pylori HSP60, soluble protein extracts of H. pylori 26695 and SS1 strains that were depleted of this protein by affinity chromatography had dramatically reduced IL-6-inducing activities. The immunopurified HSP60 stimulated IL-6 production in macrophages. When stimulated with H. pylori HSP60 or intact bacteria, peritoneal macrophages from mice deficient in Toll-like receptor (TLR)-2, TLR-4, TLR-2/TLR-4, and myeloid differentiation factor 88 produced the same amount of IL-6 than macrophages from wild-type mice, demonstrating the independence of H. pylori HSP60 responses from these signaling molecules. H. pylori HSP60-induced IL-6 mRNA expression, and NF-kappaB activation in RAW 264.7 cells was abrogated in the presence of MG-132, a proteasome inhibitor. In contrast, inhibitors of protein kinase A or C, mitogen-activated protein kinase kinase, and phosphoinositide 3-kinase had no effect on IL-6 mRNA levels. This study demonstrates the induction of innate immune responses by H. pylori HSP60, thereby implicating this highly conserved protein in the pathophysiology of chronic gastritis.
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PMID:Helicobacter pylori heat shock protein 60 mediates interleukin-6 production by macrophages via a toll-like receptor (TLR)-2-, TLR-4-, and myeloid differentiation factor 88-independent mechanism. 1457 21

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