Project description:Transducin-like enhancer protein 1 mediates estrogen receptor binding and transcriptional activity in breast cancer cells TLE1 silenced breast cancer MCF-7 cell lines or control siRNA in the presence of Estrogen or a vehicle. MCF-7 cells were hormone-depleted for 3 d and treated with 100 nM estrogen (or vehicle) for 6 h. There were six biological replicates for each of the four different groups.
Project description:Estrogen receptor (ER) binds to distal enhancers within the genome and requires additional factors, such as the Forkhead protein FoxA1, for mediating chromatin interactions. We now show that the human Groucho protein, Transducin-like enhancer protein 1 (TLE1), positively assists some ER-chromatin interactions, a role that is distinct from its general role as a transcriptional repressor. We show that specific silencing of TLE1 inhibits the ability of ER to bind to a subset of ER binding sites within the genome, a phenomenon that results in perturbations in phospho-RNA Pol II recruitment. Furthermore, TLE1 is essential for effective ER-mediated cell division. We have discovered a distinct role for TLE1, as a necessary transcriptional component of the ER complex, where it facilitates ER-chromatin interactions.
Project description:The estrogen receptor is the master transcriptional regulator of breast cancer phenotype and the archetype of a molecular therapeutic target. We mapped all estrogen receptor and RNA polymerase II binding sites on a genome-wide scale, identifying the authentic cis binding sites and target genes, in breast cancer cells. Combining this unique resource with gene expression data demonstrates distinct temporal mechanisms of estrogen-mediated gene regulation,particularly in the case of estrogen-suppressed genes. Furthermore, this resource has allowed the identification of cis-regulatory sites in previously unexplored regions of the genome and the cooperating transcription factors underlying estrogen signaling in breast cancer. Keywords: estrogen effect, time course
Project description:MCF-7 breast cancer cells were treated with estradiol and then chromatin immunoprecipitation assays were performed to isolate estrogen receptor and associated genomic DNA binding sites. ChIP DNA fragments were end-labeled with biotinylated nucleotides and then labeled with Cy3-avidin and hybridized to human promoter arrays to detect estrogen receptor binding sites.
Project description:Identification of Estrogen Receptor alpha (ERa) binding sites by ChIP-seq in MCF-7 breast cancer cells following an estrogen treatment. This study describes molecular effects of estradiol treatment and subsequent regulation by ER for a single gene/locus. A public ER chipseq (available in SRA as ERR011973), in addition to our own data, guided us to regulatory regions were ER was binding that were then analyzed in detail using "manual" ChIP. MCF-7 cells were treated for 1 h either 10 nm estradiol (E2) or vehicle (ethanol) and subjected to ChIP using antibodies against ERa or IgG.
Project description:Identification of Estrogen Receptor alpha (ERa) binding sites by ChIP-seq in MCF-7 breast cancer cells following an estrogen treatment. This study describes molecular effects of estradiol treatment and subsequent regulation by ER for a single gene/locus. A public ER chipseq (available in SRA as ERR011973), in addition to our own data, guided us to regulatory regions were ER was binding that were then analyzed in detail using "manual" ChIP.
Project description:MCF-7 breast cancer cells were treated with estradiol and then chromatin immunoprecipitation assays were performed to isolate estrogen receptor and associated genomic DNA binding sites. Keywords: ChIP-on-chip samples
Project description:Estrogen Receptor is a key transcriptional regulator in mammary gland development and breast cancer. In this study, we have mapped the Estrogen Receptor chromatin binding patterns in healthy mouse mammary gland A minimum of 6 pairs of mouse mammary gland pads from mice at 5-6 weeks of age were excised and Estrogen Receptor ChIp-seq was performed.
Project description:The Estrogen Receptor alpha (ERα), is a member of the nuclear receptor superfamily of trancriptional regulators that mediates estrogen signaling in hormone-responsive tumors controlling key cellular functions by assembling in large functional multiprotein complexes. Interaction proteomics coupled to mass spectrometry (MS) was applied to deeply characterize the nuclear interactors partners whom association with the receptor is mediated by RNAs