Project description:To see DNA methylation-repressed genes, we did RNA-seq in 5-aza treated cells and control cells. And we also did P65 ChIP-seq to see P65-dependent expressions.

Project description:Cytokines such as TNF-alpha and IL-1beta are known for their contribution to inflammatory processes in liver . In contrast, the cytokine IL-17 has not yet been assigned a role in liver diseases. IL-17 can cooperate with TNF-alpha to induce a synergistic response on several target genes in different cell lines, but no data exist for primary hepatocytes. To enhance our knowledge on the impact of IL-17 alone and combined with TNF-alpha in primary murine hepatocytes a comprehensive microarray study was designed. IL-1beta was included as this cytokine is suggested to act in a similar manner as the combination of TNF-alpha and IL-17, especially with respect to its role in mRNA stabilization. Results: The present microarray analysis demonstrates that primary murine hepatocytes responded to IL-17 stimulation by upregulation of chemokines and genes, which are functionally responsible to increase and sustain inflammation. Cxcl2, Nfkbiz and Zc3h12a were strongly induced, whereas the majority of the genes were only very moderately upregulated. Promoter analysis revealed involvement of NF-kappaB in the activation of many genes. Combined stimulation of TNF-alpha/IL-17 resulted in enhanced induction of gene expression, but significantly synergistic effects could be applied only to a few genes, such as Nfkbiz, Cxcl2, Zc3h12 and Steap4. Comparison of the gene expression profile obtained after stimulation of TNF-alpha/IL-17 versus IL-1 proposed a IL-1beta-like effect of the latter cytokine combination. Moreover, evidence was provided that modulation of mRNA stability may be a major mechanism by which IL-17 regulates gene expression in primary hepatocytes. This assumption was exemplarily proven for Nfkbiz mRNA for the first time in hepatocytes. Our studies also suggest that RNA stability can partially be correlated to the existence of AU rich elements, but further mechanisms like the RNase-activity of the upregulated Zc3h12a have to be considered. Conclusions: Our microarray analysis gives new insights in IL-17 induced gene expression in primary hepatocytes highlighting the crosstalk with the NF-kappaB signalling pathway. Gene expression profile suggests IL-17 a role in sustaining liver inflammatory processes most likely by RNA stabilization. Altogether, our results provide evidence that IL-17 alone and in concert with TNF-alpha may play a role in inflammatory liver diseases. Primary murine hepatocytes of three animals stimulated for 1 or 4h by TNF-alpha, IL-1beta, IL-17 or TNF-alpha followed by IL-17 were used for microarray analysis.

Project description:Endothelial-mesenchymal-transition (EndMT) is an important source of cancer-associated fibroblasts (CAFs), which are known to facilitate tumor progression. We have previously shown that EndMT is present in pancreatic tumors and that deficiency of the Tie1 receptor induces EndMT in human endothelial cells. Pancreatic tumors are characterized by the presence of tumor necrosis factor-α (TNF-α). We now show that TNF-α strongly induces human endothelial cells to undergo EndMT. In order to know the secretory feature of cells which undergo EndMT by TNF-α, we conducted a comparative analysis of HMVEC secretome treated or not for 24h and 48h with TNF-α. Secretome study shows that cells treated with TNF-α have an important fibroblast-like secretory capacity, and a proinflamatory signature. Moreover, Ingenuity Pathway Analysis (IPA) shows that pathways implicated in migration, inflammation and fibrosis are predicted to be activated and that necrosis and apoptosis pathways are inhibited. Accordingly cell survival, viability and cycle progression are activated. We show that TNF-α- treated cells secrete proteins related to 16 protumoral pathways, confirming their fibroblastic characteristic. Finally, among the predicted upstream regulators activated, IPA analysis shows that, TNFSF12 and its receptor are present at hight levels in PDAC patients. Altogether these results show the fibroblastic characteristic of treated cells and demonstrate that TNF-α induces CAFs.

Project description:G-protein coupled receptors (GPCRs) have diverse roles in physiological processes, including immunity. Gs-coupled GPCRs increase while Gi-coupled ones decrease intracellular cAMP. Previous studies suggest that, in epithelial cells, Gs-coupled GPCRs enhance whereas Gi-coupled GPCRs suppress pro-inflammatory immune responses. In order to examine the issue, we chose beta2 adrenergic receptor and GPR40 as representatives of Gs- and Gi- coupled GPCRs, respectively, and examined their effects on TNF-alpha and IFN-gamma-(TNF-alpha + IFN-gamma) induced gene expression by HaCaT. We used microarrays to detail the global changes of gene expression induced by a beta2 adrenergic receptor agonist terbutaline or GPR40 agonist GW9508 pre-treatment in TNF-alpha + IFN-gamma - stimulated HaCaT cells. HaCaT cells were pre-treated with terbutaline or GW9508, TNF-alpha + IFN-gamma were then added, and cultured for another 24 h. Cells were then used for RNA extraction and hybridization on Affymetrix microarrays. We sought to clarify changes in gene expression after 1) TNF-alpha + IFN-gamma, 2) TNF-alpha + IFN-gamma + terbutaline, and 3) TNF-alpha + IFN-gamma + GW9508 treatment. To this end, we set 4 groups of samples; 1) unstimulated group, 2) TNF-alpha + IFN-gamma-stimulated group, 3) TNF-alpha + IFN-gamma + terbutaline-stimulated group, and 4) TNF-alpha + IFN-gamma + GW9508-stimulated group. In each group, HaCaT cells were stimulated in triplicate wells (n=3).

Project description:Here we have analyzed the role of interferon regulatory factor-2 binding protein-2 (IRF2BP2) in glucocorticoid and tumor necrosis factor alpha (TNF) signaling. We used ChIP-seq to analyze chromatin binding of IRF2BP2 in glucocorticoid (dexamethasone, dex) and vehicle treated HEK293 cells expressing GR (HEK293-GR). Furthermore, we used RNA-seq to analyze how silencing of IRF2BP2 modulates transcriptional responses to dex treatment in HEK293-GR cells, and dex, TNF and co-treatment (dex and TNF, DT) in A549 cells.

Project description:Several different immune-activated cell types with particular cytokine patterns are identified such as keratinocytes, T helper cells, cytotoxic T cells, dendritic cells, macrophages, fibroblasts, and endothelial cells. The expression of well-known pathogenic factors such as TNF-α, IL-8 (CXCL8), L-23 and IL-17 is confirmed in different inflammatory cells. Furthermore, IL-14 (TXLNA; alpha-taxilin), IL-18 and IL-32 are identified as less well-known, and putative new pathogenic factors. Prominent expression of IL-18 is found in keratinocytes, macrophages and Langerhans cells, prominent IL-32 is found in T helper and regulatory T cells, IL-14 is mainly expressed by keratinocytes, fibroblasts and macrophages. Validation of gene expression is performed by ISH of human skin samples. In a murine model of psoriasis, IL-14 and IL-18 are significantly higher expressed in psoriasis-like skin lesions than in normal skin. In an analysis of serum samples from psoriasis patients, IL-18 shows higher expression in psoriasis patients compared to controls, and serum levels in psoriasis responded to treatment with IL-17 inhibitors.

Project description:We sought to provide a comprehensive evaluation of the effects of TNF-α and IL-17 on the keratinocyte gene profile in order to identify genes that might be co-regulated by these cytokines. We then sought to determine how genes that were synergistically activated by both cytokines relate to the psoriasis transcriptome. Here, we identified 160 unique genes that were synergistically up-regulated by IL-17 and TNF-α and 188 unique genes where the two cytokines had at least an additive effect. Among highly up-regulated genes were those involved in neutrophil and lymphocyte chemotaxis, inflammation, and epidermal differentiation. Synergistically up-regulated genes included some of the highest expressed genes in lesional psoriatic skin with an impressive correlation between IL-17/TNF-α induced genes and the psoriasis gene signature. In conclusion, keratinocytes may be key drivers of pathogenetic inflammatory circuits in psoriasis through integrating responses to TNF-α and IL-17. This may explain high efficacy of targeting psoriasis with either anti-TNF-α or agents that block Th17 T-cells/IL-17 and has important implications for the development of new therapeutic agents. Comparison of keratinocyte responses to IL-17, TNF-α (1 ng mL-1 and 10 ng mL-1), and the combination of both cytokines in psoriasis.

Project description:We have previously reported that the dengue virus (DENV) type 3 P12/08 strain caused a lethal systemic infection, severe vascular leakage at terminal stage in IFN-α/β and γ receptors knockout mice (IFN-α/β/γRKO mice), and blockade of TNF-α signaling drastically protected mice. However, the detailed pathological mechanism remains unknown. Therefore, we performed transcriptome analysis of liver and intestinal specimens, which showed most clearly exhibited vascular leakage, chronologically collected from infected- IFN-α/β/γRKO mice with/without anti-TNF-α Ab treatment.

Project description:Cytokines such as TNF-alpha and IL-1beta are known for their contribution to inflammatory processes in liver . In contrast, the cytokine IL-17 has not yet been assigned a role in liver diseases. IL-17 can cooperate with TNF-alpha to induce a synergistic response on several target genes in different cell lines, but no data exist for primary hepatocytes. To enhance our knowledge on the impact of IL-17 alone and combined with TNF-alpha in primary murine hepatocytes a comprehensive microarray study was designed. IL-1beta was included as this cytokine is suggested to act in a similar manner as the combination of TNF-alpha and IL-17, especially with respect to its role in mRNA stabilization. Results: The present microarray analysis demonstrates that primary murine hepatocytes responded to IL-17 stimulation by upregulation of chemokines and genes, which are functionally responsible to increase and sustain inflammation. Cxcl2, Nfkbiz and Zc3h12a were strongly induced, whereas the majority of the genes were only very moderately upregulated. Promoter analysis revealed involvement of NF-kappaB in the activation of many genes. Combined stimulation of TNF-alpha/IL-17 resulted in enhanced induction of gene expression, but significantly synergistic effects could be applied only to a few genes, such as Nfkbiz, Cxcl2, Zc3h12 and Steap4. Comparison of the gene expression profile obtained after stimulation of TNF-alpha/IL-17 versus IL-1 proposed a IL-1beta-like effect of the latter cytokine combination. Moreover, evidence was provided that modulation of mRNA stability may be a major mechanism by which IL-17 regulates gene expression in primary hepatocytes. This assumption was exemplarily proven for Nfkbiz mRNA for the first time in hepatocytes. Our studies also suggest that RNA stability can partially be correlated to the existence of AU rich elements, but further mechanisms like the RNase-activity of the upregulated Zc3h12a have to be considered. Conclusions: Our microarray analysis gives new insights in IL-17 induced gene expression in primary hepatocytes highlighting the crosstalk with the NF-kappaB signalling pathway. Gene expression profile suggests IL-17 a role in sustaining liver inflammatory processes most likely by RNA stabilization. Altogether, our results provide evidence that IL-17 alone and in concert with TNF-alpha may play a role in inflammatory liver diseases.

Project description:The series was designed to obtain gene expression patterns of TNF-alpha stimulated CaCo-2 cells. Keywords: TNF-alpha stimulation This series represents a group of 18 samples in 2 groups: 10 samples derived from not stimulated CaCo-2 cells, 8 samples from CaCo-2 cells stimulated with TNF-alpha in final concentration of 5 ng/ml for 60 min.