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Sleeping Beauty transposon mutagenesis identified genes and pathways involved in inflammation-associated colon tumor development

Author

Listed:
  • Kana Shimomura

    (National Cancer Center Research Institute)

  • Naoko Hattori

    (National Cancer Center Research Institute
    Hoshi University)

  • Naoko Iida

    (National Cancer Center Research Institute)

  • Yukari Muranaka

    (National Cancer Center Research Institute)

  • Kotomi Sato

    (National Cancer Center Research Institute)

  • Yuichi Shiraishi

    (National Cancer Center Research Institute)

  • Yasuhito Arai

    (National Cancer Center Research Institute)

  • Natsuko Hama

    (National Cancer Center Research Institute)

  • Tatsuhiro Shibata

    (National Cancer Center Research Institute)

  • Daichi Narushima

    (National Cancer Center Research Institute)

  • Mamoru Kato

    (National Cancer Center Research Institute)

  • Hiroyuki Takamaru

    (National Cancer Center Hospital)

  • Koji Okamoto

    (Teikyo University)

  • Haruna Takeda

    (National Cancer Center Research Institute)

Abstract

Chronic inflammation promotes development and progression of colorectal cancer (CRC). To comprehensively understand the molecular mechanisms underlying the development and progression of inflamed CRC, we perform in vivo screening and identify 142 genes that are frequently mutated in inflammation-associated colon tumors. These genes include senescence and TGFβ-activin signaling genes. We find that TNFα can induce stemness and activate senescence signaling by enhancing cell plasticity in colonic epithelial cells, which could act as a selective pressure to mutate senescence-related genes in inflammation-associated colonic tumors. Furthermore, we show the efficacy of the Cdk4/6 inhibitor in vivo for inflammation-associated colonic tumors. Finally, we functionally validate that Arhgap5 and Mecom are tumor suppressor genes, providing possible therapeutic targets for CRC. Thus, we demonstrate the importance of the inactivation of senescence pathways in CRC development and progression in an inflammatory microenvironment, which can help progress toward precision medicine.

Suggested Citation

  • Kana Shimomura & Naoko Hattori & Naoko Iida & Yukari Muranaka & Kotomi Sato & Yuichi Shiraishi & Yasuhito Arai & Natsuko Hama & Tatsuhiro Shibata & Daichi Narushima & Mamoru Kato & Hiroyuki Takamaru &, 2023. "Sleeping Beauty transposon mutagenesis identified genes and pathways involved in inflammation-associated colon tumor development," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42228-z
    DOI: 10.1038/s41467-023-42228-z
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    References listed on IDEAS

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    1. Helena Santos-Rosa & Robert Schneider & Andrew J. Bannister & Julia Sherriff & Bradley E. Bernstein & N. C. Tolga Emre & Stuart L. Schreiber & Jane Mellor & Tony Kouzarides, 2002. "Active genes are tri-methylated at K4 of histone H3," Nature, Nature, vol. 419(6905), pages 407-411, September.
    2. Nobuyuki Kakiuchi & Kenichi Yoshida & Motoi Uchino & Takako Kihara & Kotaro Akaki & Yoshikage Inoue & Kenji Kawada & Satoshi Nagayama & Akira Yokoyama & Shuji Yamamoto & Minoru Matsuura & Takahiro Hor, 2020. "Frequent mutations that converge on the NFKBIZ pathway in ulcerative colitis," Nature, Nature, vol. 577(7789), pages 260-265, January.
    3. Adam J. Dupuy & Keiko Akagi & David A. Largaespada & Neal G. Copeland & Nancy A. Jenkins, 2005. "Mammalian mutagenesis using a highly mobile somatic Sleeping Beauty transposon system," Nature, Nature, vol. 436(7048), pages 221-226, July.
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