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)

PSGR is a newly identified human prostate tissue-specific gene belonging to the G-protein coupled receptor (GPCR) family. Overexpression of PSGR is associated with human prostate intraepithelial neoplasia (PIN) and prostate tumors, suggesting PSGR may play an important role in early prostate cancer development and progression. To understand the regulation of tissue-specific expression of human PSGR and its upregulation mechanism in prostate cancers, we characterized the promoter region of PSGR and analyzed the control mechanism for PSGR expression in human prostate tissues/cells. In this report, we demonstrate that two distinct promoters control the transcriptional regulation of PSGR in human prostate cells. The first promoter region includes exon 1 and a TATA box at -31 site. The minimal DNA sequence with promoter activity is about 123 bp upstream of exon 1. Exon 1 contains tissue specific regulatory activity for the first promoter of PSGR gene. The second promoter is located in the upstream region of exon 2, which is a TATA-less and non-GC-rich promoter. Primer extension and RNA protection assays (RPA) revealed that the transcription driven by the second promoter is initiated at the junction of intron and exon 2 within a cluster of nucleotides located about 250 bp upstream from the junction. Both promoters show prostate cell-specific characteristics in our luciferase assays in transfected cells. Furthermore, we investigated the regulation of the promoter activities of the PSGR gene by different growth factors and cytokines, and demonstrated that interleukin-6 (IL-6) activates the promoter activities of PSGR in human prostate cancer cells. These data suggest that two functional promoters regulate the transcriptional expression of PSGR in human prostate tissues and PSGR is a new target for IL-6 transcriptional regulation.
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PMID:Regulation of human prostate-specific G-protein coupled receptor, PSGR, by two distinct promoters and growth factors. 1614 59

Salmonella typhi is an important human pathogen responsible for typhoid fever. Type IVB pili, encoded by the S. typhi pil operon located in the major pathogenicity island, are used to facilitate bacterial entry into human intestinal cells in vitro and may be important in the mediation of enteric fever in humans. However, possible involvement of the type IVB pili of S. typhi in signal transduction in infected immune cells has not been examined previously. In this study, we have compared the effect of piliated and nonpiliated S. typhi on the activities of protein kinase C (PKC), the production of interleukin-6 (IL-6) and nuclear transcription factor NF-kappaB in human monocytic THP-1 cells. We find that piliated S. typhi can stimulate significantly higher activities of PKC, the production of IL-6 and NF-kappaB than a nonpiliated strain based on substrate phosphorolysis kinase assay, Western blot, RT-PCR, and luciferase reporter gene assay. In time course experiments, PKC activity increased in a time-dependent fashion after stimulation by the piliated bacteria. The PKC inhibitor Dequalinium chloride (DECA) remarkably reduced the production of IL-6, NF-kappaB and the activity of PKC induced by the piliated S. typhi. These results suggest that the induction of IL-6 and NF-kappaB depend on the PKC signal pathway. Our report demonstrates that the type IVB pili of S. typhi play important roles in the production of NF-kappaB and the proinflammatory cytokine IL-6, and in the stimulation of PKC activity and therefore, may have effects on the development of fever and other inflammatory responses.
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PMID:Type IVB piliated Salmonella typhi enhance IL-6 and NF-kappaB production in human monocytic THP-1 cells through activation of protein kinase C. 1616 36

Signal transduction from the plasma membrane to the nucleus by STAT proteins is widely represented as exclusively a soluble cytosolic process. Using cell-fractionation methods, we observed that approximately 5% of cytoplasmic STAT3 was constitutively associated with the purified early endosome (EE) fraction in human Hep3B liver cells. By 15-30 min after interleukin-6 (IL-6) treatment, up to two-thirds of cytoplasmic Tyr-phosphorylated STAT3 can be associated with the purified early endosome fraction (Rab-5-, EEA1-, transferrin receptor-, and clathrin-positive fraction). Electron microscopy, immunofluorescence, and detergent dissection approaches confirmed the association of STAT3 and PY-STAT3 with early endosomes. STAT3 was constitutively associated with clathrin heavy chain in membrane and in the 1- to 2-MDa cytosolic complexes. The membrane association was dynamic in that, within 15 min of treatment with the vicinal-thiol cross-linker phenylarsine oxide, there was a dramatic increase in bulk STAT3 association with sedimentable membranes. The functional contribution of PY-STAT3 association with the endocytic pathway was evaluated in transient transfection assays using IL-6-inducible STAT3-reporter-luciferase constructs and selective regulators of this pathway. STAT3-transcriptional activation was inhibited by expression constructs for dominant negative dynamin K44A, epsin 2a, amphiphysin A1, and clathrin light chain but enhanced by that for the active dynamin species MxA. Taken together, these studies emphasize the contribution of the endocytic pathway to productive IL-6/STAT3 signaling.
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PMID:Membrane-associated STAT3 and PY-STAT3 in the cytoplasm. 1640 71

Human plasma membrane-associated sialidase (NEU3), specifically hydrolyzing gangliosides, plays crucial roles in the regulation of cell surface functions. Here we demonstrate that NEU3 mRNA level are increased in renal cell carcinomas (RCCs) compared with adjacent non-tumor tissues, significantly correlating with elevation of interleukin-6 (IL-6), a pleiotropic cytokine that has been implicated in immune responses and pathogenesis of several cancers, including RCCs. In human RCC ACHN cells, IL-6 treatment enhanced NEU3 promoter luciferase activity 2.5-fold and the endogenous sialidase activity significantly. NEU3 transfection or IL-6 treatment resulted in both suppression of apoptosis and promotion of cell motility, and the combination had synergistic effects. NEU3 scarcely affected MAPK- or IL-6-induced STAT3 activation but promoted the phosphatidylinositol 3-kinase (PI3K)/Akt cascade in both IL-6-dependent and -independent ways. Consistent with these data, NEU3 markedly inhibited staurosporine-induced caspase-3 activity and enhanced IL-6-dependent inhibition, which was abolished by LY294002, a PI3K inhibitor. Furthermore, IL-6 promoted Rho activation, and the effect was potentiated by NEU3, leading to increased cell motility that was again affected by LY294002. NEU3 silencing by siRNA resulted in the opposite: decreased Akt phosphorylation and inhibition of Rho activation. Glycolipid analysis showed a decrease in ganglioside GM3 and increase in lactosylceramide after NEU3 transfection, with these lipids apparently affecting cell apoptosis and motility. The results indicate that NEU3 activated by IL-6 exerts IL-6-mediated signaling, largely via the PI3K/Akt cascade, in a positive feedback manner and contributes to expression of a malignant phenotype in RCCs. NEU3 thus may be a useful target for RCC diagnosis and therapy.
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PMID:Plasma membrane-associated sialidase is up-regulated in renal cell carcinoma and promotes interleukin-6-induced apoptosis suppression and cell motility. 1642 83

We studied the inhibitory effects of ginsenoside-Rb1 (1) on 12-O-tetradecanoylphorbol 13-acetate (TPA)-induced transcriptional activation of the cyclooxygenase-2 (COX-2) promoter. The suppressive activity of ginsenoside-Rb1 was characterized using COX-2 promoter-driven luciferase reporter plasmids in a transient transfection system. Ginsenoside-Rb1 at 100 microM inhibited TPA-induced transcriptional activation of the COX-2 promoter. To identify the cis-acting elements responsible for this inhibition, the effects of site-specific mutations in the COX-2 promoter region were examined. Inhibition by ginsenoside-Rb1 was not affected by mutations in nuclear factor-kappaB- or cAMP-responsive elements. However, the effects were abolished when the nuclear factor-interleukin-6 binding site was mutated, indicating that ginsenoside-Rb1 exerts its effects via this element. In conclusion, ginsenoside-Rb1 inhibits TPA-induced COX-2 promoter activity through the nuclear factor interleukin-6 binding site and not through the nuclear factor-kappaB or cAMP-responsive elements.
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PMID:Inhibitory effects of ginsenoside-Rb1 on activation of the 12-O-tetradecanoylphorbol 13-acetate-induced cyclooxygenase-2 promoter. 1653 36

Gangliosides participate in various cellular events of the central nervous system and have been closely implicated in many neuronal diseases. However, the precise molecular mechanisms underlying the pathological activity of gangliosides are poorly understood. Here we report that toll-like receptor 4 (TLR4) may mediate the ganglioside-triggered inflammation in glia, brain resident immune cells. Gangliosides rapidly altered the cell surface expression of TLR4 in microglia and astrocytes within 3 hours. Using TLR4-specific siRNA and a dominant-negative TLR4 gene, we clearly demonstrate the functional importance of TLR4 in ganglioside-triggered activation of glia. Inhibition of TLR4 expression by TLR4-siRNA suppressed nuclear factor (NF)-kappaB-binding activity, NF-kappaB-dependent luciferase activity, and transcription of inflammatory cytokines after exposure to gangliosides. Transient transfection of dominant-negative TLR4 also attenuated NF-kappaB-binding activity and interleukin-6 promoter activity. In contrast, these activities were slightly elevated in cells with wild-type TLR4. In addition, CD14 was required for ganglioside-triggered activation of glia, and lipid raft formation may be associated with ganglioside-stimulated signal propagation. Taken together, these results suggest that TLR4 may provide an explanation for the pathological ability of gangliosides to cause inflammatory conditions in the brain.
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PMID:Gangliosides trigger inflammatory responses via TLR4 in brain glia. 1665 28

Chronic inhalation of low amounts of Cr(VI) promotes pulmonary diseases and cancers through poorly defined mechanisms. SFKs (Src family kinases) in pulmonary airway cells may mediate Cr(VI) signalling for lung injury, although the downstream effectors of Cr(VI)-stimulated SFKs and how they relate to pathogenic gene induction are unknown. Therefore SFK-dependent activation of transcription factors by non-cytotoxic exposure of human bronchial epithelial cells to Cr(VI) was determined. Protein-DNA binding arrays demonstrated that exposing BEAS 2B cells to 5 microM Cr(VI) for 4 and 24 h resulted in increased protein binding to 25 and 43 cis-elements respectively, while binding to 12 and 16 cis-elements decreased. Of note, Cr(VI) increased protein binding to several STAT (signal transducer and activator of transcription) cis-elements. Cr(VI) stimulated acute tyrosine phosphorylation and nuclear translocation of STAT1 over a 4 h period and a prolonged activation of STAT3 that reached a peak between 48 and 72 h. This prolonged activation was observed for both STAT3alpha and STAT3beta. Immunofluorescent confocal microscopy confirmed that Cr(VI) increased nuclear localization of phosphorylated STAT3 for more than 72 h in both primary and BEAS 2B human airway cells. Cr(VI) induced transactivation of both a STAT3-driven luciferase reporter construct and the endogenous inflammatory gene IL-6 (interleukin-6). Inhibition with siRNA (small interfering RNA) targeting the SFK Lck, but not dominant-negative JAK (Janus kinase), prevented Cr(VI)-stimulated phosphorylation of both STAT3 isoforms and induction of IL-6. The results suggest that Cr(VI) activates epithelial cell Lck to signal for prolonged STAT3 activation and transactivation of IL-6, an important immunomodulator of lung disease progression.
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PMID:Cr(VI)-stimulated STAT3 tyrosine phosphorylation and nuclear translocation in human airway epithelial cells requires Lck. 1707 13

Progression to androgen independence is the lethal end stage of prostate cancer. We used expression of androgen receptor (AR)-targeted short hairpin RNAs (shRNA) to directly test the requirement for AR in ligand-independent activation of androgen-regulated genes and hormone-independent tumor progression. Transient transfection of LNCaP human prostate cancer cells showed that AR shRNA decreased R1881 induction of the prostate-specific antigen (PSA)-luciferase reporter by 96%, whereas activation by forskolin, interleukin-6, or epidermal growth factor was inhibited 48% to 75%. Whereas the antiandrogen bicalutamide provided no further suppression, treatment with the mitogen-activated protein kinase (MAPK) inhibitor U0126 completely abrogated the residual activity, indicating a MAPK-dependent, AR-independent pathway for regulating the PSA promoter. Expression of doxycycline-inducible AR shRNA expression in LNCaP cells resulted in decreased levels of AR and PSA as well as reduced proliferation in vitro. When these cells were grown as xenografts in immunocompromised mice, induction of AR shRNA decreased serum PSA to below castration nadir levels and significantly retarded tumor growth over the entire 55-day experimental period. This is the first demonstration that, by inducibly suppressing AR expression in vivo, there is an extensive delay in progression to androgen independence as well as a dramatic inhibition of tumor growth and decrease in serum PSA, which exceeds that seen with castration alone. Based on these findings, we propose that suppressing AR expression may provide superior therapeutic benefit in reducing tumor growth rate than castration and may additionally be very effective in delaying progression to androgen independence.
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PMID:Short hairpin RNA knockdown of the androgen receptor attenuates ligand-independent activation and delays tumor progression. 1707 86

Metallothioneins are low molecular weight, cysteine-rich, metal-binding proteins, which can be induced by heavy metal ions, cytokines, stress, and hormones. To investigate the roles of the main cis-acting elements involved in the inducible expression of metallothionein gene in fish, the 5'-upstream region of crucian carp (Carassius cuvieri) metallothionein-I gene had been cloned and analyzed after our previous work on metallothionein-II. In its upstream region, several putative cis-acting elements, including nine metal regulatory elements (MREs), one antioxidant response element, one E-box, and three interleukin-6 responsive elements, etc. were found. The nine metal regulatory elements are confined in less than 1000 bp from ATG start codon and organized into two clusters with different roles to the induction of the metallothionein-I expression. Deletion mutant assays demonstrated that both the distal and proximal clusters of metal regulatory elements contributed to the basal expression of the metallothionein-I, but only the proximal cluster was the chief contributor to the metal fold induction. In transient luciferase reporter assays, Zn2+ and Cd2+ served as much stronger inducers than Cu2+ to the metallothionein-I expression. H2O2 also could activate the metallothionein-I promoter about two-fold, which was mediated by the antioxidant response element (TGACAACGC, -437/-445). In conclusion, our studies demonstrate the roles of metal regulatory element and antioxidant response element in the induction of crucian carp metallothionein-I gene, and provide the regulatory mechanism for the use of fish metallothionein as a biomarker for monitoring of metal contamination in waters.
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PMID:Cloning and functional characterization of 5'-upstream region of metallothionein-I gene from crucian carp (Carassius cuvieri). 1733 34

Ozone (O(3)) is a major component of smog and an inhaled toxicant to the lung. O(3) rapidly reacts with the airway epithelial cell membrane phospholipids to generate lipid ozonation products (LOP). 1-Hydroxy-1-hydroperoxynonane (HHP-C9) is an important LOP, produced from the ozonation of 1-palmitoyl-2-oleoyl-sn-glycerol-3-phosphatidylcholine. This LOP, at a biologically relevant concentration (100 microM), increases the activity of phospholipase C, nuclear factors-kappaB (NF-kappaB), and interleukin-6 (NF-IL-6) and the expression of the inflammatory gene, interleukin-8 (IL-8) in a cultured human bronchial epithelial cell line (BEAS-2B). The signaling pathways of ozone and its biologically-active products are as yet undefined. In the present study, we report that the HHP LOP, HHP-C9 (100 microM x 4 h), activated the expression of IL-8 (218 +/- 26% increase over control, n = 4, P < 0.01) through an apparent interaction between the two transcription factors, NF-kappaB and NF-IL-6. Transfection studies using luciferase reporter assays demonstrated that HHP-C9 induced a significant increase in NF-kappaB-DNA binding activity (37 +/- 7% increase over control, n = 6, P < 0.05). Inhibition of NF-kappaB showed a statistically significant but modest decrease in IL-8 release, which suggested a role for another transcription factor, NF-IL-6. Exposure of BEAS-2B cells to HHP-C9 induced a significant increase in the DNA binding activity of NF-IL-6 (45 +/- 11% increase over control, n = 6, P < 0.05). The results of the present study indicate that NF-IL-6 interacts with NF-kappaB in regulating the expression of IL-8 in cultured human airway epithelial cells exposed to LOP, the biological products of ozone in the lung.
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PMID:Activation of transcription factor IL-6 (NF-IL-6) and nuclear factor-kappaB (NF-kappaB) by lipid ozonation products is crucial to interleukin-8 gene expression in human airway epithelial cells. 1736 69

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