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Genome-wide profiles of CtBP link metabolism with genome stability and epithelial reprogramming in breast cancer

Author

Listed:
  • Li-Jun Di

    (Genetics Branch, National Cancer Institute)

  • Jung S. Byun

    (Genetics Branch, National Cancer Institute)

  • Madeline M. Wong

    (Genetics Branch, National Cancer Institute)

  • Clay Wakano

    (Genetics Branch, National Cancer Institute)

  • Tara Taylor

    (Genetics Branch, National Cancer Institute)

  • Sven Bilke

    (Genetics Branch, National Cancer Institute)

  • Songjoon Baek

    (Laboratory of Receptor Biology and Gene Expression, National Cancer Institute)

  • Kent Hunter

    (Laboratory of Cancer Biology and Genetics, National Cancer Institute)

  • Howard Yang

    (Laboratory of Population Genetics, National Cancer Institute)

  • Maxwell Lee

    (Laboratory of Population Genetics, National Cancer Institute)

  • Cecilia Zvosec

    (University of Chicago)

  • Galina Khramtsova

    (University of Chicago)

  • Fan Cheng

    (Lineberger Comprehensive Cancer Care Center, University of North Carolina)

  • Charles M. Perou

    (Lineberger Comprehensive Cancer Care Center, University of North Carolina)

  • C. Ryan Miller

    (Lineberger Comprehensive Cancer Care Center, University of North Carolina)

  • Rachel Raab

    (Leo W. Jenkins Cancer Center, East Carolina University)

  • Olufunmilayo I. Olopade

    (University of Chicago)

  • Kevin Gardner

    (Genetics Branch, National Cancer Institute)

Abstract

The C-terminal binding protein (CtBP) is a NADH-dependent transcriptional repressor that links carbohydrate metabolism to epigenetic regulation by recruiting diverse histone-modifying complexes to chromatin. Here global profiling of CtBP in breast cancer cells reveals that it drives epithelial-to-mesenchymal transition, stem cell pathways and genome instability. CtBP expression induces mesenchymal and stem cell-like features, whereas CtBP depletion or caloric restriction reverses gene repression and increases DNA repair. Multiple members of the CtBP-targeted gene network are selectively downregulated in aggressive breast cancer subtypes. Differential expression of CtBP-targeted genes predicts poor clinical outcome in breast cancer patients, and elevated levels of CtBP in patient tumours predict shorter median survival. Finally, both CtBP promoter targeting and gene repression can be reversed by small molecule inhibition. These findings define broad roles for CtBP in breast cancer biology and suggest novel chromatin-based strategies for pharmacologic and metabolic intervention in cancer.

Suggested Citation

  • Li-Jun Di & Jung S. Byun & Madeline M. Wong & Clay Wakano & Tara Taylor & Sven Bilke & Songjoon Baek & Kent Hunter & Howard Yang & Maxwell Lee & Cecilia Zvosec & Galina Khramtsova & Fan Cheng & Charle, 2013. "Genome-wide profiles of CtBP link metabolism with genome stability and epithelial reprogramming in breast cancer," Nature Communications, Nature, vol. 4(1), pages 1-11, June.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2438
    DOI: 10.1038/ncomms2438
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