Cell Reports (Nov 2021)

Inherent genomic properties underlie the epigenomic heterogeneity of human induced pluripotent stem cells

  • Shihori Yokobayashi,
  • Yukihiro Yabuta,
  • Masato Nakagawa,
  • Keisuke Okita,
  • Bo Hu,
  • Yusuke Murase,
  • Tomonori Nakamura,
  • Guillaume Bourque,
  • Jacek Majewski,
  • Takuya Yamamoto,
  • Mitinori Saitou

Journal volume & issue
Vol. 37, no. 5
p. 109909

Abstract

Read online

Summary: Human induced pluripotent stem cells (hiPSCs) show variable differentiation potential due to their epigenomic heterogeneity, whose extent/attributes remain unclear, except for well-studied elements/chromosomes such as imprints and the X chromosomes. Here, we show that seven hiPSC lines with variable germline potential exhibit substantial epigenomic heterogeneity, despite their uniform transcriptomes. Nearly a quarter of autosomal regions bear potentially differential chromatin modifications, with promoters/CpG islands for H3K27me3/H2AK119ub1 and evolutionarily young retrotransposons for H3K4me3. We identify 145 large autosomal blocks (≥100 kb) with differential H3K9me3 enrichment, many of which are lamina-associated domains (LADs) in somatic but not in embryonic stem cells. A majority of these epigenomic heterogeneities are independent of genetic variations. We identify an X chromosome state with chromosome-wide H3K9me3 that stably prevents X chromosome erosion. Importantly, the germline potential of female hiPSCs correlates with X chromosome inactivation. We propose that inherent genomic properties, including CpG density, transposons, and LADs, engender epigenomic heterogeneity in hiPSCs.

Keywords