BMC Bioinformatics (Sep 2008)

Integrative bioinformatics analysis of transcriptional regulatory programs in breast cancer cells

  • Aburatani Hiroyuki,
  • Tsutsumi Shuichi,
  • Imoto Seiya,
  • Smith Andrew D,
  • Niida Atsushi,
  • Zhang Michael Q,
  • Akiyama Tetsu

DOI
https://doi.org/10.1186/1471-2105-9-404
Journal volume & issue
Vol. 9, no. 1
p. 404

Abstract

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Abstract Background Microarray technology has unveiled transcriptomic differences among tumors of various phenotypes, and, especially, brought great progress in molecular understanding of phenotypic diversity of breast tumors. However, compared with the massive knowledge about the transcriptome, we have surprisingly little knowledge about regulatory mechanisms underling transcriptomic diversity. Results To gain insights into the transcriptional programs that drive tumor progression, we integrated regulatory sequence data and expression profiles of breast cancer into a Bayesian Network, and searched for cis-regulatory motifs statistically associated with given histological grades and prognosis. Our analysis found that motifs bound by ELK1, E2F, NRF1 and NFY are potential regulatory motifs that positively correlate with malignant progression of breast cancer. Conclusion The results suggest that these 4 motifs are principal regulatory motifs driving malignant progression of breast cancer. Our method offers a more concise description about transcriptome diversity among breast tumors with different clinical phenotypes.