Project description:normal breast cell line MCF10A were treated with TSA or vehicle (DMSO) for 4 hours

Project description:Chromatin immunoprecipitation analysis of RNAP density and associated histone mark H3K36me3 at introns and exons.

Project description:This study compares gene expression change upon expression of Yes-associated protein (YAP) wild-type or mutants in order to establish the importance of TEAD binding and WW domains in the gene-induction function of YAP. The results indicate that gene-induction is seriously comprised in YAP-S94A (TEAD binding domain mutant) expressing cells. And mutantion of WW domains (YAP-W1W2) also affect a fraction of YAP induced genes. Therefore both TEAD binding domain and WW domains are required for the full function of YAP in gene-induction. Experiment Overall Design: Four samples are included: 1. pQCXIH vector control; 2 YAP-WT expression; 3. YAP-S94A expression; 4. YAP-W1W2 expression. Gene expression profiles of YAP wild-type or mutants expressing cells were compared to that of vector control. Experiments were done in MCF10A mammary epithelial cells.

Project description:Illumina Human610 Quad arrays were used to genotype breast cell lines.

Project description:In order to better understand signaling events following receptor dimerization involving HER2, we have generated an experimental system in which ErbB dimerization can be controlled. We used gene expression microarrays to identify genes and pathways that are differentially activated by HER2 homodimers and HER2 containing heterodimers. MCF10A-HER2-FKBP-HA cells were treated with AP1510, TGFalpha or heregulin for 48 hrs prior to RNA harvest for array analysis.

Project description:Adenovirus infection leads to increased glycolytic metabolism in host cells. Expression of a single gene product encoded within the E4 early transcription region, E4ORF1, is sufficient to promote increased glycolytic flux in cultured epithelial cells. E4ORF1 reprograms cellular glucose metabolism by augmenting MYC-dependent transcription of metabolic genes. To gain insight into the mechanism by which E4ORF1 promotes increased glycolytic flux, we conducted a global microarray analysis of changes in RNA expression in MCF10A cells induced to accutely express ORF1 versus an empty vector.

Project description:We performed NGS-based transcript profiling (RNA-seq) to profile transcripts that are expressed in MCF10A cells. 12,332 genes with FPKM>1 were considered as expressed in MCF10A cells. mRNA profiles of MCF10A cells were generated by deep sequencing using Illumina Hiseq 2000.

Project description:RNA-seq was performed for transcriptional analysis of MCF10A cells, an epithelial mammary cell line. MCF10A cells were cultured in 3D acinus forming conditions (in Matrigel). Timepoints analysed were 24h, 34h, 36h, 38h and 48h into acinus formation. Control cells were monoloayer.

Project description:PHF8 exerts distinct functions in different types of cancer. However, the mechanisms underlying its specific functions in each case remain obscure. To establish whether overexpression of PHF8 regulates the TGF-β induced the epithelial-mesenchymal transition (EMT), we treated MCF10A-Mock (control) and MCF10A-PHF8wt (overexpressing wild-type PHF8) cells with TGF-β1 for 0, 24, 48 and 72 hours and performed RNA-seq in biological duplicates. Our data indicated that EMT gene signatures were significantly enriched in MCF10A-PHF8 cells with TGF-β1 treatment at all time points, strongly indicating that PHF8 overexpression induces a sustained EMT signaling program. mRNA profiles of MCF10A-Mock (control) and MCF10A-PHF8 with TGF-β1 treatment for 0, 24, 48 and 72 hours were generated by RNA-seq, in duplicate, using HiSeq2500 instrument.

Project description:C-MYC (henceforth MYC) is one of the most frequently overexpressed oncogenes in human cancer and even modestly deregulated MYC expression can initiate ectopic proliferation in many post-mitotic, terminally differentiated cell types in vivo. Metazoan organisms have consequently evolved a number of mechanisms to counteract MYC's oncogenic potential, of which apoptosis is arguably the best understood. However, the mechanisms through which MYC induces apoptosis remains controversial, with some studies implicating p19ARF-mediated stabilization of p53, followed by induction of pro-apoptotic BH3 family member NOXA and PUMA, while others argue for more direct regulation of BH3 proteins, especially BIM. The debate likely stems from the use of different experimental systems, modes of perturbation, and quite possibly different levels of MYC expression. Here, we use a single experimental system to systematically evaluate the roles of p19ARF and BIM during MYC-induced apoptosis, in vitro, in vivo, and in combination with a widely used tumoricidal chemotherapeutic, Doxorubicin. We find a common specific requirement for BIM during MYC-induced apoptosis in multiple settings, which does not extend to the p53-responsive BH3 family member PUMA, and find no evidence of a role for p19ARF during MYC-induced apoptosis in the tissues examined. MYC-ER ChIP-Seq with HC20 anti-ER antibody in MCF10A cells performed on an Illumina IIx Genome Analyzer.