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Regulatory network decoded from epigenomes of surface ectoderm-derived cell types

Author

Listed:
  • Rebecca F. Lowdon

    (Center for Genome Sciences and Systems Biology, Washington University in St Louis)

  • Bo Zhang

    (Center for Genome Sciences and Systems Biology, Washington University in St Louis)

  • Misha Bilenky

    (Canada’s Michael Smith Genome Sciences Centre, BC Cancer Agency)

  • Thea Mauro

    (University of California, San Francisco)

  • Daofeng Li

    (Center for Genome Sciences and Systems Biology, Washington University in St Louis)

  • Philippe Gascard

    (Center for Translational Research in the Molecular Genetics of Cancer, University of California, San Francisco)

  • Mahvash Sigaroudinia

    (Center for Translational Research in the Molecular Genetics of Cancer, University of California, San Francisco)

  • Peggy J. Farnham

    (Norris Comprehensive Cancer Center, University of Southern California)

  • Boris C. Bastian

    (University of California, San Francisco)

  • Thea D. Tlsty

    (Center for Translational Research in the Molecular Genetics of Cancer, University of California, San Francisco)

  • Marco A. Marra

    (Canada’s Michael Smith Genome Sciences Centre, BC Cancer Agency
    University of British Columbia)

  • Martin Hirst

    (Canada’s Michael Smith Genome Sciences Centre, BC Cancer Agency
    Centre for High-Throughput Biology, University of British Columbia)

  • Joseph F. Costello

    (Helen Diller Family Comprehensive Cancer Center, University of California, San Francisco)

  • Ting Wang

    (Center for Genome Sciences and Systems Biology, Washington University in St Louis)

  • Jeffrey B. Cheng

    (University of California, San Francisco)

Abstract

Developmental history shapes the epigenome and biological function of differentiated cells. Epigenomic patterns have been broadly attributed to the three embryonic germ layers. Here we investigate how developmental origin influences epigenomes. We compare key epigenomes of cell types derived from surface ectoderm (SE), including keratinocytes and breast luminal and myoepithelial cells, against neural crest-derived melanocytes and mesoderm-derived dermal fibroblasts, to identify SE differentially methylated regions (SE-DMRs). DNA methylomes of neonatal keratinocytes share many more DMRs with adult breast luminal and myoepithelial cells than with melanocytes and fibroblasts from the same neonatal skin. This suggests that SE origin contributes to DNA methylation patterning, while shared skin tissue environment has limited effect on epidermal keratinocytes. Hypomethylated SE-DMRs are in proximity to genes with SE relevant functions. They are also enriched for enhancer- and promoter-associated histone modifications in SE-derived cells, and for binding motifs of transcription factors important in keratinocyte and mammary gland biology. Thus, epigenomic analysis of cell types with common developmental origin reveals an epigenetic signature that underlies a shared gene regulatory network.

Suggested Citation

  • Rebecca F. Lowdon & Bo Zhang & Misha Bilenky & Thea Mauro & Daofeng Li & Philippe Gascard & Mahvash Sigaroudinia & Peggy J. Farnham & Boris C. Bastian & Thea D. Tlsty & Marco A. Marra & Martin Hirst &, 2014. "Regulatory network decoded from epigenomes of surface ectoderm-derived cell types," Nature Communications, Nature, vol. 5(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6442
    DOI: 10.1038/ncomms6442
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