Project description:100 pM of recombinant TGF-β1 protein was used to stimulate the TEAD4-expressing HCCLM3 stable cells or the vector-expressing control cells for different time periods (0 / 4 / 12 h). Then cells were harvested for total RNA extraction and RNA-Seq analysis. Genes whose transcriptional responsiveness to TGF-β1 was attenuated by TEAD4 were underscored.

Project description:TEAD4

Project description:In order to identify the genes that are regulated by TGF-beta in glioma, we serum starved two glioma cell lines, U373MG and U87MG, for 16h and we treated them with vehicle,100pM TGF-beta, 2uM inhibitor of the TGF-beta Receptor I(TbRI)(LY2109761), or both 100pM TGF-beta plus 2uM TbRI for 3h. Then, cell were collected and total RNA was extracted.

Project description:Advanced ovarian cancer is the most lethal gynecologic malignancy in the United States. Ovarian cancer cells are known to have diminished response to TGF-beta, but it remains unclear whether TGF-beta can modulate ovarian cancer cell growth in an indirect manner through cancer-associated fibroblasts (CAFs). Using transcriptome profiling analyses on TGF-beta-treated ovarian fibroblasts, we identified a TGF-beta-responsive gene signature in ovarian fibroblasts. Identifying TGF-beta-regulated genes in the ovarian microenvironment helps in understanding the role of TGF-beta in ovarian cancer progression. The human telomerase-immortalized ovarian fibroblast line NOF151 was treated with 5ng/mL of either TGF-beta-1 or TGF-beta-2. Total RNA was isolated from control samples and TGF-beta-treated fibroblasts samples at 48 hours post-treatment, followed by cDNA synthesis, IVT and biotin labeling. Samples were then hybridized onto Affymetrix Human Genome U133 Plus 2.0 microarrays. For each treatment group, three independent samples were prepared for the microarray experiment.

Project description:TGF-beta treated airway epithelium

Project description:TGF-β and Hippo signaling are two critical pathways engaged in cancer progression by regulating both oncogenes and tumor suppressors, yet how the two pathways coordinately exert their functions in the development of hepatocellular carcinoma (HCC) remains elusive. In this study, we firstly conducted an integrated analysis of public liver cancer databases and our experimental TGF-β target genes, identifying CYR61 as a pivotal gene relating to HCC development. Evidence revealed that CYR61 is a direct target gene of TGF-β in liver cancer cells. In addition, TGF-β-stimulated Smad2/3 and the Hippo pathway downstream effectors YAP and TEAD4 can form a protein complex on the promoter of CYR61, thereby activating the promoter activity and stimulating CYR61 gene transcription in a collaborative manner. Functionally, depletion of CYR61 enhanced TGF-β- or YAP activation-mediated growth and migration of liver cancer cells. Consistently, ectopic expression of CYR61 was capable of impeding TGF-β- or YAP-induced malignant transformation of HCC cells in vitro, and attenuating HCC xenograft growth in nude mice. Finally, Downregulation of CYR61 expression in HCC tissues than that in normal liver tissues is well associated with a bad clinical outcome in patients. Together, these results add new evidence for the interplay between TGF-β and Hippo signaling and unveil an important tumor suppressor function of CYR61 in liver cancer.

Project description:Global expression profile of human osteoblast treated with recombinant TGF-beta compared to human osteoblast treated with growth media alone Dye-swap design with 6 biological replicates. Three arrays performed with TGF-beta treated samples on channel 1 and media-alone treated on channel 2; three arrays performed with TGF-beta treated samples on channel 2 and media-alone on channel 1.

Project description:Recent studies demonstrate that Ca2+ signaling has an important role in EMT. Use of Ca2+ blockers such as 2APB can inhibit cell migration induced by TGF-β. Interestingly, we see an unexpected increase in Snail expression upon Ca2+ blocker treatment of both MCF10A and NMuMG cells; this increase is not observed with 2APB treatment alone. Therefore, we believe that 2APB plays a synergistic role with TGF-β in Snail induction. We propose to investigate the gene networks that change following 2APB +TGF-β treatment.

Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We quantified the association of TGF-beta-activated fibroblasts with disease progression. To this end, we used as surrogates the gene expression programme upregulated by addition of TGF-beta to normal colon mucosa-derived fibroblasts (CCD-Co-18) in culture. CCD-Co-18 were seeded at 60% confluence and treated with TGF-β1. Gene expression profiles were measured in duplicate using HG-U133 plus 2.0. We used RMA background correction, quantile normalization and RMA summarization (Gautier et al., 2004). A TGF-β response signature was obtained by selecting genes with limma P-value < 0.05 and at least two fold up-regulation in TGF-β treated fibroblasts.

Project description:Analyze TGF-beta pathway transcriptional regulation in breast cancer stem cells with different responses upon TGF-beta pathway activation. Total RNA from four breast cell lines grown as mammospheres treated with recombinant TGF-beta or a TGF-beta receptor I inhibitor was used in the analysis.