Abstract

Estrogen receptor (ER) is a crucial molecule symbol of breast cancer. Molecular interactions between ER complexes and DNA regulate the expression of genes responsible for cancer cell phenotypes. However, the positions and mechanisms of the ER binding with downstream gene targets are far from being fully understood. ChIP-Seq is an important assay for the genome-wide study of protein-DNA interactions. In this paper, we explored the genome-wide chromatin localization of ER-DNA binding regions by analyzing ChIP-Seq data from MCF-7 breast cancer cell line. By integrating three peak detection algorithms and two datasets, we localized 933 ER binding sites, 92% among which were located far away from promoters, suggesting long-range control by ER. Moreover, 489 genes in the vicinity of ER binding sites were identified as estrogen response elements by comparison with expression data. In addition, 836 single nucleotide polymorphisms (SNPs) in or near 157 ER-regulated genes were found in the vicinity of ER binding sites. Furthermore, we annotated the function of the nearest-neighbor genes of these binding sites using Gene Ontology (GO), KEGG, and GeneGo pathway databases. The results revealed novel ER-regulated genes pathways for further experimental validation. ER was found to affect every developed stage of breast cancer by regulating genes related to the development, progression, and metastasis. This study provides a deeper understanding of the regulatory mechanisms of ER and its associated genes.

Highlights

  • Breast cancer is a complex disease with high occurrence

  • We annotated the function of the nearest-neighbor genes of these binding sites using Gene Ontology (GO), KEGG, and GeneGo pathway databases

  • The breast cancer associated ChIP-Seq datasets were extracted from Gene Expression Omnibus (GEO): GSE19013 [6] and GSE14664 [7]

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Summary

Introduction

Breast cancer is a complex disease with high occurrence. It involves a wide range of pathological entities with diverse clinical courses. Estrogen receptor (ER), a hormonal transcription factor, plays a critical role in the development of breast cancer. Combined with estrogen, it regulates the expression of multiple genes. To identify direct target genes of ER, it is necessary to map the ER binding sites across the genome. It enables researchers to fully understand many biological processes and disease states, including transcriptional regulation of ES cells, tissue samples, and cancer cells. Monte Carlo Poisson dynamic Poisson Negative binomial Control sample √ √ √ √ √.

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