Abstract
Estrogen receptor α (ERα) is the major driving transcription factor in the mammary gland development as well as breast cancer initiation and progression. However, the genomic landscape of ERα binding sites in the normal mouse mammary gland has not been completely elucidated. Here, we mapped genome-wide ERα binding events by chromatin immunoprecipitation followed by high-throughput sequencing (ChIP-seq) in the mouse mammary gland in response to estradiol. We identified 6237 high confidence ERα binding sites in two biological replicates and showed that many of these were located at distal enhancer regions. Furthermore, we discovered 3686 unique genes in the mouse genome that recruit ER in response to estradiol. Interrogation of ER-DNA binding sites in ER-positive luminal epithelial cells showed that the ERE, PAX2, SF1, and AP1 motifs were highly enriched at distal enhancer regions. In addition, comprehensive transcriptome analysis by RNA-seq revealed that 493 genes are differentially regulated by acute treatment with estradiol in the mouse mammary gland in vivo. Through integration of RNA-seq and ERα ChIP-seq data, we uncovered a novel ERα targetome in mouse mammary epithelial cells. Taken together, our study has identified the genomic landscape of ERα binding events in mouse mammary epithelial cells. Furthermore, our study also highlights the cis-regulatory elements and cofactors that are involved in estrogen signaling and may contribute to ductal elongation in the normal mouse mammary gland.
Highlights
Estrogen is a key hormone for mammary epithelial proliferation during the mammary gland development, as well as during breast cancer initiation and progression [1,2,3,4]
We mapped Estrogen receptor α (ERα) binding events using chromatin immunoprecipitation followed by deep sequencing on mammary glands collected from ovariectomized mice that had been treated with estradiol for 2 hours
We report for the first time a comprehensive analysis of ERα binding events which elucidates the molecular mechanism of ERα action in the normal mouse mammary gland in vivo in response to acute estradiol treatment
Summary
Estrogen is a key hormone for mammary epithelial proliferation during the mammary gland development, as well as during breast cancer initiation and progression [1,2,3,4]. This approach has helped to identify the cis-regulatory elements and cofactors that are involved in mediating ER binding and ER target gene transcription in breast cancer cells These studies have shown that the vast majority of ER binding sites are located at distal enhancer regions [21,22,23]. We used genome-wide transcriptome profiling (RNA-seq) to uncover the global transcriptome response to estradiol This combined system approaches allowed us to identify the ER targetome in the mammary gland and this ER targetome consists of a subset of ER-regulated target genes whose acute regulation by estradiol is associated with direct binding to ER in luminal epithelial cells. Our study provides a unique resource for the mechanisms underlying estrogen regulated gene expression in the mouse mammary gland
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