Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: HUMANGGP:031927 (cytokine)
 144,509 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin caused a transient increase in H2O2 accumulation in human fat cell suspensions that was observed only in the presence of an inhibitor of catalase and heme-containing peroxidases, such as azide, and reached peak levels of 30 microM within 5 min. The cells contained a plasma membrane-bound NADPH oxidase, producing 1 mol H2O2/mol of NADPH oxidation, that was activated on exposure of intact cells to insulin at contrations that are physiologically relevant (0.1-10 nM). The hormone effect was rapid and was due to a selective increase in substrate affinity. The enzyme was magnesium dependent, required a flavine nucleotide for optimal activity, and was most active at pH 5.0-6.5. In contrast to all other hormone- or cytokine-sensitive NADPH oxidases that have been characterized in sufficient detail, the human fat cell oxidase retained its hormone responsiveness after cell disruption, and only Mn2+, but no ATP, was required for a ligand-induced activation in crude plasma membranes. The results demonstrate that insulin utilizes tyrosine kinase-independent pathways for receptor signaling and strongly support the view that H2O2 contributes to the intracellular propagation of the insulin signal.
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PMID:Human fat cells possess a plasma membrane-bound H2O2-generating system that is activated by insulin via a mechanism bypassing the receptor kinase. 131 14

The transcriptional start sites of the endogenous human thrombomodulin (TM) gene and transiently expressed TM promoter/CAT gene constructs were defined by nuclease S1 mapping which showed two closely spaced sites at +1 and +6, respectively. Transient expression and in vitro transcription assays of 5' and internal deletion mutants of the TM promoter/CAT gene constructs reveal that the region from -72 to -29 exhibits a positive acting domain which is essential for transcriptional activity, whereas the region from -373 to -225 possesses two positive acting subdomains, -343 to -277 and -245 to -225, which together augment transcriptional activity by about 40%. Electrophoretic mobility shift assays with a duplex oligonucleotide corresponding to -72 to -29 and DNase I footprinting experiments show two specific interaction products which individually or cooperatively protect the DNA sequence from about -60 to -30. These components are essential for TM gene transcription since affinity fractionation of nuclear extracts with a duplex oligonucleotide corresponding to -72 to -29 depletes the above interaction products and specifically inhibits in vitro transcription activity of the promoter, whereas addition of the eluted components specifically restores in vitro transcription activity of the promoter. Electrophoretic mobility shift assays with duplex oligonucleotides corresponding to -294 to -215, as well as -373 to -295 and DNase I footprinting experiments show two specific interaction products which individually bind to the two subdomains but not -72 to -29 and protect the coding and noncoding strands from -245 to -225, and the noncoding strand from -337 to -314, respectively. Transient expression studies reveal that the TM promoter construct starting at -51 and including the TATA box is responsive to TNF only in cell lines exhibiting sensitivity of the endogenous receptor gene to cytokine, whereas other promoter constructs possessing a TATA box sequence are insensitive to TNF in all cell types. Based upon the above data, the regulatory events involved in TNF-dependent transcriptional regulation of the TM gene can be defined with the experimental tools and conceptual framework developed by the present investigation.
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PMID:Transcriptional regulation of the thrombomodulin gene. 133 Oct 78

Acute inflammation is characterized by increased liver output of acute phase proteins (APP). Several cytokines including IL-6, leukemia inhibitory factor, and IL-11 are capable of stimulating APP synthesis by hepatocytes and hepatoma cells. We have tested the activity of a separate and unique cytokine oncostatin M (OM) and have found potent APP-inducing activity of human recombinant OM on hepatocytes. OM acted in a dose-dependent fashion (ED50 5 to 10 ng/ml) in stimulating APP synthesis in human HepG2 cells, rat H35 cells, and primary rat hepatocyte cultures, but not human Hep3B cells. Human OM induced equivalent to or greater responses than IL-6 in HepG2 cells, however, it was less effective than human IL-6 in stimulating rat cells. Northern analysis showed that OM stimulated mRNA levels of haptoglobin and alpha 1-antichymotrypsin in HepG2 cells. OM induced CAT activity in HepG2 cells transfected with CAT constructs containing IL-6-responsive elements, suggesting that OM induces transcription of native proteins through mechanisms involving IL-6-responsive element-like sequences in gene promoters. OM was also shown to act additively with IL-6 or leukemia inhibitory factor and synergistically with glucocorticoid or IL-1 in the induction of specific APP. These results suggest that OM plays a role as a mediator of APP synthesis in inflammatory responses.
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PMID:Recombinant oncostatin M stimulates the production of acute phase proteins in HepG2 cells and rat primary hepatocytes in vitro. 137 87

Rat hepatic cells respond to interleukin (IL) -1, IL-6, and dexamethasone treatment by increasing the transcription rate of acute-phase plasma protein genes. The same conditions lead to changes in the expression of CAAT-enhancer binding protein (C/EBP) isoforms which are specific to the hepatic cell line. To identify the relationship between C/EBP isoforms and acute-phase protein gene activation, the hormone-specific expression of C/EBP alpha, beta, and delta was determined in H-35 and HTC cells and was compared to acute-phase liver. C/EBP beta was found to be the principal isoform in hepatoma cells and to be strongly stimulated by cytokines and dexamethasone in H-35 cells. Transactivating functions were observed for all three C/EBP isoforms by cotransfection of CAT gene reporter constructs containing cytokine and glucocorticoid response elements of acute-phase protein genes and expression plasmids for mouse C/EBP alpha, beta, and delta into rat and human hepatoma cells. The degree of C/EBP-mediated transactivation was, however, extremely variable among the different regulatory elements. Transcription run-on reactions with nuclei from transiently transfected H-35 cells indicated that cotransfected C/EBP beta increases basal expression of reporter gene constructs as well as the dexamethasone-mediated stimulation of constructs containing the glucocorticoid response elements of the rat alpha 1-acid glycoprotein gene, but did not accelerate or enhance hormone-dependent transcription activation of reporter gene plasmids containing the IL-6 regulatory element of the beta-fibrinogen gene. Activation of the reporter gene constructs appeared to be temporally and quantitatively correlated with the amount of nuclear C/EBP as determined by two-dimensional Western and Southwestern blot analyses.
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PMID:Role of CAAT-enhancer binding protein isoforms in the cytokine regulation of acute-phase plasma protein genes. 138 74

It was shown previously that leukoregulin (LR), a T cell-derived cytokine with unique antitumor properties, modulates fibroblast functions in vitro, including prostaglandin production, matrix synthesis, and protease gene expression. Here, we have focused on the ability of LR to modulate IL-8 gene expression in human dermal fibroblasts. Using a specific ELISA, we demonstrated a dose-dependent enhancement of IL-8 production by LR, accompanied by a parallel elevation of the corresponding mRNA levels, as measured by Northern hybridizations. Maximum accumulation of IL-8 mRNA was observed after 6 h of incubation with LR, and the elevation persisted over 24 h. Inhibition of protein synthesis by cycloheximide resulted in superinduction of IL-8 mRNAs by LR. Dexamethasone, all-trans-retinoic acid, and TGF-beta 1 failed to counteract the effect of LR on IL-8 gene expression. Transient cell transfections with an IL-8 promoter/CAT reporter gene construct showed a dose-dependent enhancement of the promoter activity by LR, suggesting transcriptional regulation. Gel shift assays with oligonucleotides containing the consensus NF-kappa B binding sequences of the IL-8 and Ig kappa light chain genes showed enhanced binding activity in nuclear extracts from cells incubated with LR. Transient transfection experiments using a NF-kappa B/SV2 promoter-CAT reporter gene construct showed enhanced CAT activity by LR. Taken together, these data suggest that LR may up-regulate IL-8 gene expression by activation of the binding of NF-kappa B to the corresponding cis-acting element in the IL-8 promoter. Our results demonstrate that LR, together with IL-1 and TNF-alpha, could participate in the recruitment of neutrophils to the sites of inflammation by induction of IL-8 production in fibroblasts.
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PMID:Leukoregulin, a T cell-derived cytokine, induces IL-8 gene expression and secretion in human skin fibroblasts. Demonstration and secretion in human skin fibroblasts. Demonstration of enhanced NF-kappa B binding and NF-kappa B-driven promoter activity. 140 24

The cytokine tumor necrosis factor alpha (TNF-alpha) alone does not induce class II major histocompatibility complex (MHC) expression in most primary cells but can regulate ongoing class II expression in either a positive or negative fashion. The mechanism(s) by which TNF-alpha enhances interferon gamma (IFN-gamma)-induced class II expression was examined in a primary cell type, the astrocyte, by transient transfection of the HLA-DRA promoter linked to a chloramphenicol acetyltransferase reporter gene (DRA-CAT). We show that TNF-alpha, while having no effect on its own, can synergize with IFN-gamma to increase the level of promoter activity of a DRA-CAT construct. Three known sequences--W, X, and Y--are required for TNF-alpha enhancement of IFN-gamma-induced promoter activity. The corollary effect of TNF-alpha on DNA-binding proteins specific for these elements was examined. A previous report described a DNA-binding protein, IFN-gamma-enhanced factor X (IFNEX), which is upregulated by IFN-gamma in astrocytes and is specific for the X box of the DRA promoter. In this study, we found that TNF-alpha alone did not induce any nuclear proteins; however, combined treatment of astrocytes with both IFN-gamma and TNF-alpha induced a DNA-protein complex of slower electrophoretic mobility than IFNEX. The TNF-alpha-induced complex (TIC-X) has specificity for the X element of the DRA promoter. These results suggest a mechanism by which TNF-alpha enhances IFN-gamma-induced class II MHC expression via the formation of TIC-X.
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PMID:Tumor necrosis factor alpha response elements in the HLA-DRA promoter: identification of a tumor necrosis factor alpha-induced DNA-protein complex in astrocytes. 145 41

Interleukin 1 (IL-1) is a pluripotent cytokine involved in mediating a variety of physiological processes, including induction of cell proliferation upon wound healing. Treatment of quiescent FS-4 human dermal fibroblast cells with IL-1 activates c-myc gene transcription, and nuclear localization of NF-kappa B. Previously, we have noted that the murine c-myc gene contains two functional NF-kappa B sites located at -1101 to -1081 bp (upstream regulatory element [URE]) and +440 to +459 bp (internal regulatory element [IRE]) relative to the P1 promoter. Here we have demonstrated that IL-1 treatment induced binding of NF-kappa B-like proteins (p50/p65) to these c-myc elements. Heterologous promoter-CAT constructs driven by multiple copies of either the URE or IRE were IL-1 inducible when transfected into FS-4 cells. In contrast, constructs harboring elements with two G to C residue conversions, such that they were no longer able to bind NF-kappa B, were not responsive to IL-1. Mutation of these two base pairs at both NF-kappa B sites within a c-myc promoter/exon I-CAT construct, resulted in loss of inducibility with IL-1 upon transfection into quiescent FS-4 cells. Thus, IL-1 significantly induces c-myc expression through positive regulation by NF-kappa B, suggesting a role for this family of factors in activation of proliferation associated with wound healing.
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PMID:NF-kappa B-like factors mediate interleukin 1 induction of c-myc gene transcription in fibroblasts. 151 42

The cytokines interleukin-1 beta (IL-1 beta) and tumor necrosis factor-alpha (TNF-alpha) induce interleukin-6 (IL-6) gene expression in astrocytes. The molecular mechanism(s) by which these cytokines activate IL-6 expression was examined by transient transfection of the human IL-6 promoter linked to the reporter gene CAT (IL-6-CAT) in primary rat astrocytes. We show that both IL-1 beta and TNF-alpha exert their effects through the IL-6 promoter to increase CAT activity, indicating that the cytokines act at the transcriptional level. Use of deletion mutants revealed that the NF-kappa B-like binding site is required for cytokine induction of IL-6 promoter activity. The correlary effects of IL-1 beta and TNF-alpha on DNA-binding proteins specific for this element were examined. Treatment of astrocytes with either cytokine leads to a rapid activation (15 min) of a nuclear protein which specifically complexes with the NF-kappa B-like binding region in the IL-6 promoter. These results suggest that TNF-alpha and IL-1 beta activate IL-6 gene expression in astrocytes by a mechanism(s) involving activation of an NF-kappa B-like protein.
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PMID:Cytokine regulation of interleukin-6 gene expression in astrocytes involves activation of an NF-kappa B-like nuclear protein. 164 98

Studies indicate that simple hemorrhage produces a profound depression of cell-mediated immunity, thereby contributing to an enhanced susceptibility to septic challenge in the host. However, it remains unknown whether or not the macrophages' cytotoxic capacity is altered after hemorrhage. To study this, C3H/HeN mice were bled to and maintained at a blood pressure of 35 mm Hg for 60 min, and adequately resuscitated. Mice were then killed at 2 or 24 h after hemorrhage to obtain peritoneal macrophage, splenic macrophage, and Kupffer cells. Cytotoxicity was assessed by determining the capacity of these macrophages to lyse [3H]TdR labeled WEHI-164 clone 13 or P815 tumor target cells (WEHI-164, sensitive to both soluble and cell-associated TNF vs P815 cells, insensitive to soluble TNF). Peritoneal and splenic macrophages from hemorrhaged animals exhibited a significantly reduced cytotoxic capacity, whereas Kupffer cells' ability to kill the target cells was enhanced. Similarly, the Kupffer cells' capacity to release TNF and IL-1, as well as express cell-associated forms of this cytokine are significantly enhanced on macrophages isolated 2 h after hemorrhage, whereas peritoneal macrophages are not. Furthermore, antibodies directed at mouse TNF but not against murine IL-1 alpha or murine IL-6 were able to oblate the enhanced target cell lysis of unfixed, as well as paraformaldehyde fixed (metabolically inactive) Kupffer cells. Studies using inhibitors (GN-monomethyl-arginine, superoxide dismutase, catalase, and ibuprofen) of other TNF-inducible mechanisms of target cell killing indicated that only the inhibition of the release of reactive nitrogen consistently depressed the cytotoxic capacity of Kupffer cells from hemorrhaged mice. Thus, the increased Kupffer cell cytotoxicity from hemorrhaged mice is most likely mediated through the expression of cell-associated TNF and the release of reactive nitrogen.
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PMID:Hemorrhage induces enhanced Kupffer cell cytotoxicity while decreasing peritoneal or splenic macrophage capacity. Involvement of cell-associated tumor necrosis factor and reactive nitrogen. 175 90

DMN exposure has been shown to increase macrophage cytotoxic activity against tumor targets both in vitro and in vivo. Since the production and expression of the macrophage-derived cytokine tumor necrosis factor-alpha (TNF-alpha) is associated with such anti-tumor activity, studies were performed to determine whether changes in TNF-alpha gene transcription and biosynthesis resulted following DMN exposure. Thioglycollate-elicited macrophages obtained from DMN-exposed animals displayed enhanced levels of constitutively expressed TNF-alpha transcripts compared to vehicle controls. Northern blot analysis of the time course expression of TNF-alpha following endotoxin (1 microgram/ml) stimulation in vitro showed a significantly greater induction of TNF-alpha transcripts in macrophages from DMN-exposed than control animals, with peak levels detected between 30 and 120 min. Maximum endotoxin-induced TNF-alpha secretion occurred later than the accumulation of the transcripts, with greater secretion observed between 120 and 360 min. In contrast to endotoxin, stimulation with IFN-gamma (100 U/ml) produced no changes in the level of TNF-alpha transcripts. However, stimulation of macrophages with IFN-gamma did greatly enhance the surface expression of membrane-bound TNF-alpha in cells from the DMN-treated animals. Supernatants from media and endotoxin stimulated macrophage were tested for TNF-alpha activity against WEHI-164 cells. In media alone, a five-fold increase in TNF-alpha activity was observed at 6 h in supernatants from macrophage obtained from DMN-exposed animals compared to the vehicle group. Treatment of supernatants with either superoxide dismutase (SOD) or catalase to remove reactive oxygen products did not alter their lytic capacity. However, addition of a neutralizing murine-anti-TNF-alpha antibody reduced the lytic capacity of the supernatants by 90% in both treatment groups. Accumulation of IL-1 beta transcripts gradually increased over the 6 h with a concomitant increase in secreted IL-1 beta that was identical in both DMN and vehicle groups. These results demonstrate that DMN exposure: (1) enhances the expression of TNF-alpha in peripheral macrophages by transcriptional regulatory mechanism(s) and, (2) does not alter the expression or secretion of IL-1 beta.
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PMID:Transcriptional changes in macrophage TNF-alpha expression following dimethylnitrosamine exposure in vivo. 179 Nov 40


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