Oncogenesis (Mar 2021)

EHF suppresses cancer progression by inhibiting ETS1-mediated ZEB expression

  • Kaname Sakamoto,
  • Kaori Endo,
  • Kei Sakamoto,
  • Kou Kayamori,
  • Shogo Ehata,
  • Jiro Ichikawa,
  • Takashi Ando,
  • Ryosuke Nakamura,
  • Yujiro Kimura,
  • Kunio Yoshizawa,
  • Keisuke Masuyama,
  • Tomoyuki Kawataki,
  • Kunio Miyake,
  • Hiroki Ishii,
  • Tomonori Kawasaki,
  • Keiji Miyazawa,
  • Masao Saitoh

DOI
https://doi.org/10.1038/s41389-021-00313-2
Journal volume & issue
Vol. 10, no. 3
pp. 1 – 15

Abstract

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Abstract ETS homologous factor (EHF) belongs to the epithelium-specific subfamily of the E26 transformation-specific (ETS) transcription factor family. Currently, little is known about EHF’s function in cancer. We previously reported that ETS1 induces expression of the ZEB family proteins ZEB1/δEF1 and ZEB2/SIP1, which are key regulators of the epithelial–mesenchymal transition (EMT), by activating the ZEB1 promoters. We have found that EHF gene produces two transcript variants, namely a long form variant that includes exon 1 (EHF-LF) and a short form variant that excludes exon 1 (EHF-SF). Only EHF-SF abrogates ETS1-mediated activation of the ZEB1 promoter by promoting degradation of ETS1 proteins, thereby inhibiting the EMT phenotypes of cancer cells. Most importantly, we identified a novel point mutation within the conserved ETS domain of EHF, and found that EHF mutations abolish its original function while causing the EHF protein to act as a potential dominant negative, thereby enhancing metastasis in vivo. Therefore, we suggest that EHF acts as an anti-EMT factor by inhibiting the expression of ZEBs, and that EHF mutations exacerbate cancer progression.