Project description:Our findings establish a key role for LRH-1 in the regulation of ERa target genes in breast cancer cells and identify a mechanism in which co-operative binding of LRH-1 and ERa at estrogen response elements controls the expression of estrogen responsive g Examination of ERα, with or without LRH-1 knockdown, and HA-LRH-1 in MCF-7 cells

Project description:We report the in vivo androgen receptor (AR) binding sites in caput epididymis of intact SPARKI and wild-type mice using ChIP-sequencing. SPARKI (specificity affecting androgen receptor knock-in) mouse line has the second zinc finger of AR replaced by that of glucocorticoid receptors. In vivo analysis of SPARKI and wild-type AR genome-wide binding sites identified cis-element with less stringent sequence requirements that specify selective AR-binding sites. The ChIP experiments have been performed using antibody specific to AR and IgG non-specific antibody as a negative control. Examination of AR binding sites in epididymis of wild-type and SPARKI mice using ChIP-seq. Two biological replicates from intact wild-type and SPARKI mice and two control IgG samples were sequenced and used in peak calling. To increase the depth of the analysis, replicate ChIP-seq samples were merged and the concatanated samples were used in peak calling.

Project description:Estrogen Receptor a (ERa) bindning to DNA was profiled by ChIP-seq in MCF-7 and T47D cells transduced with either control sgRNA, or sgRNA targeting a specific enhancer region (enhancer588). ERa in MCF-7 and T47D control or enhancer588-targeted cells

Project description:TRIM24 PHD-Bromo domains exhibit preferential binding to unmethylated H3K4 and acetylated H3K27. TRIM24 is a co-activator of estrogen receptor (ER). The results suggest that specific ER-binding sites are depleted of H3K4me2 with estrogen treatment. TRIM24 binds these sites preferentially and facilitates ER-regulated gene expression, cell survival and proliferation. ChIP performed on MCF7 cells +/- estrogen with antibodies against ER, TRIM24 and H3K4me2. ChIP assays of ER, co-activator TRIM24 and H3K4me2 were performed with two concentrations of antibody, without and 6h with estrogen treatment of MCF7 cells. Antibody-enriched samples were sequenced two times, and compared to an IgG negative control and Input. Enriched DNA sequenced by Illumina Solexa.

Project description:The current concept of epigenetic repression is based on one repressor unit corresponding to one silent gene. This notion, however, cannot adequately explain concurrent silencing of multiple loci observed in large chromosome regions. The long-range epigenetic silencing (LRES) can be a frequent occurrence throughout the human genome. To comprehensively characterize the influence of estrogen signaling on LRES, we analyzed transcriptome, methylome, and estrogen receptor alpha (ESR1)-binding datasets from normal breast epithelia and breast cancer cells. This ?omics? approach uncovered 11 large repressive zones (range: 0.35~5.98 megabases), including a 14-gene cluster located on 16p11.2. In normal cells, estrogen signaling induced transient formation of multiple DNA loops in the 16p11.2 region by bringing 14 distant loci to focal ESR1-docking sites for coordinate repression. However, the plasticity of this free DNA movement was reduced in breast cancer cells. Together with the acquisition of DNA methylation and repressive chromatin modifications at the 16p11.2 loci, an inflexible DNA scaffold may be a novel determinant used by breast cancer cells to reinforce estrogen-mediated repression. ChIP-seq: E2-preexposed or DMSO-preexposed mammosphere-derived epithelial cells (MDECs); MCF-7 cells with 4hr of DMSO or E2 stimulation. MeDIP-chip: Methylated DNA from MCF7 cells was immunoprecipitated by the antibody against 5-methyl cytidine. The immunoprecipitated methylated DNA fragments were processed by the NimbleGen Methylation Microarray Service. Methylation analysis was performed on the NimbleGen Two-Array HG18 Promoter Set. mRNA profiling by array: Four sets of total RNA samples from the mammary gland of each 50-day-old rat with prepubertal exposure of BPA. Each sample set includes one BPA-exposed and one sesame oil-exposed rat RNA.

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

Project description:Estrogen Receptor (ER) is a hormonal transcription factor that plays important roles in breast cancer. It functions primarily through binding to the regulatory regions of target genes containing the consensus ERE motifs. In order to identify ER target genes and re-define the ERE motifs we performed ChIP-Seq analysis of ER in MCF7 breast cancer cell line. Applying a novel computational algorithm named Hybrid Motif Sampler (HMS), specifically designed for TFBS motif discovery in ChIP-Seq data, we were able to detect an improved ERE motif and reveal intra-motif dependency especially in neighboring base pairs. MCF7 cells were grown in starving medium (RPMI with 5% FCS) for 3 days prior to the treatment with 10 nM β-estradiol or vehicle control for 45 minutes. ChIP was done using an anti-ER antibody in both the ethl-treated and the E2-treated cells. ChIP-Seq sample prep and sequencing were done following the manufacture's protocol using the Genome Analyzer (Illumina). The read files were analyzed using ethl-treated as control for E2-treated, leading to one final peak file.

Project description:Cellular oxidative and electrophilic stress triggers a protective response in mammals regulated by NRF2 (nuclear factor (erythroid-derived) 2-like; NFE2L2) binding to DNA-regulatory sequences near stress responsive genes. Studies using Nrf2-deficient mice suggest that hundreds of genes may be regulated by NRF2. To identify human NRF2-regulated genes, we conducted ChIP-sequencing experiments in lymphoid cells treated with the dietary isothiocyanate, sulforaphane (SFN) and carried out follow-up biological experiments on candidates. We found 242 high-confidence, NRF2-bound genomic regions and 96% of these regions contained NRF2-regulatory sequence motifs. The majority of binding sites were near potential novel members of the NRF2 pathway. Validation of selected candidate genes using parallel ChIP techniques and in NRF2-silenced cell lines indicated that the expression of about two thirds of the candidates are likely to be directly NRF2-dependent including retinoid X receptor alpha (RXRA). NRF2 regulation of RXRAhas implications for response to retinoid treatments and adipogenesis. In mouse 3T3-L1 cells SFN treatment affected Rxra expression early in adipogenesis and knockdown of Nrf2 delayed Rxra expression, both leading to impaired adipogenesis. ChIP-Seq analysis of NRF2 binding sites in human lymphoblastoid cells treated with sulforaphane or vehicle

Project description:Nodal signaling, mediated through SMAD transcription factors, is necessary for pluripotency maintenance and endoderm commitment. We have identified a new motif, termed SMAD Complex Associated (SCA) that is bound by SMAD2/3/4 and FOXH1 in human embryonic stem cells (hESCs) and derived endoderm. We demonstrate that two bHLH proteins - HEB and E2A - bind the SCA motif at regions overlapping SMAD2/3 and FOXH1. Further, we show that HEB and E2A associate with SMAD2/3 and FOXH1, suggesting they form a complex at critical target regions. This association is biologically important, as E2A is critical for mesendoderm specification, gastrulation, and Nodal signal transduction in Xenopus tropicalis embryos. Taken together, E2A is a novel Nodal signaling cofactor that associates with SMAD2/3 and FOXH1 and is necessary for mesendoderm differentiation. ChIP-seq of Smad2/3 and Input in X.tropicalis, stage 10.5 embryo.

Project description:We report the histone retention loci alteration in human sperm cell genome after density selection comparison the histone binding site alteration with high-throughput sequencing technique.