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The transcription factor ATF3 switches cell death from apoptosis to necroptosis in hepatic steatosis in male mice

Author

Listed:
  • Yuka Inaba

    (Kanazawa University
    Kanazawa University)

  • Emi Hashiuchi

    (Kanazawa University)

  • Hitoshi Watanabe

    (Kanazawa University)

  • Kumi Kimura

    (Kanazawa University)

  • Yu Oshima

    (Kanazawa University)

  • Kohsuke Tsuchiya

    (Kanazawa University)

  • Shin Murai

    (Toho University School of Medicine)

  • Chiaki Takahashi

    (Kanazawa University)

  • Michihiro Matsumoto

    (National Center for Global Health and Medicine)

  • Shigetaka Kitajima

    (Tokyo Medical and Dental University)

  • Yasuhiko Yamamoto

    (Kanazawa University)

  • Masao Honda

    (Kanazawa University
    Kanazawa University)

  • Shun-ichiro Asahara

    (Kobe University Graduate School of Medicine)

  • Kim Ravnskjaer

    (University of Southern Denmark
    University of Southern Denmark)

  • Shin-ichi Horike

    (Kanazawa University)

  • Shuichi Kaneko

    (Kanazawa University)

  • Masato Kasuga

    (Asahi Life Foundation)

  • Hiroyasu Nakano

    (Toho University School of Medicine)

  • Kenichi Harada

    (Kanazawa University)

  • Hiroshi Inoue

    (Kanazawa University
    Kanazawa University)

Abstract

Hepatocellular death increases with hepatic steatosis aggravation, although its regulation remains unclear. Here we show that hepatic steatosis aggravation shifts the hepatocellular death mode from apoptosis to necroptosis, causing increased hepatocellular death. Our results reveal that the transcription factor ATF3 acts as a master regulator in this shift by inducing expression of RIPK3, a regulator of necroptosis. In severe hepatic steatosis, after partial hepatectomy, hepatic ATF3-deficient or -overexpressing mice display decreased or increased RIPK3 expression and necroptosis, respectively. In cultured hepatocytes, ATF3 changes TNFα-dependent cell death mode from apoptosis to necroptosis, as revealed by live-cell imaging. In non-alcoholic steatohepatitis (NASH) mice, hepatic ATF3 deficiency suppresses RIPK3 expression and hepatocellular death. In human NASH, hepatocellular damage is correlated with the frequency of hepatocytes expressing ATF3 or RIPK3, which overlap frequently. ATF3-dependent RIPK3 induction, causing a modal shift of hepatocellular death, can be a therapeutic target for steatosis-induced liver damage, including NASH.

Suggested Citation

  • Yuka Inaba & Emi Hashiuchi & Hitoshi Watanabe & Kumi Kimura & Yu Oshima & Kohsuke Tsuchiya & Shin Murai & Chiaki Takahashi & Michihiro Matsumoto & Shigetaka Kitajima & Yasuhiko Yamamoto & Masao Honda , 2023. "The transcription factor ATF3 switches cell death from apoptosis to necroptosis in hepatic steatosis in male mice," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-35804-w
    DOI: 10.1038/s41467-023-35804-w
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    References listed on IDEAS

    as
    1. Jiao Wu & Zhuan Feng & Liang Chen & Yong Li & Huijie Bian & Jiejie Geng & Zhao-Hui Zheng & Xianghui Fu & Zhuo Pei & Yifei Qin & Liu Yang & Yilin Zhao & Ke Wang & Ruo Chen & Qian He & Gang Nan & Xuejun, 2022. "TNF antagonist sensitizes synovial fibroblasts to ferroptotic cell death in collagen-induced arthritis mouse models," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    2. Hitoshi Watanabe & Yuka Inaba & Kumi Kimura & Michihiro Matsumoto & Shuichi Kaneko & Masato Kasuga & Hiroshi Inoue, 2018. "Sirt2 facilitates hepatic glucose uptake by deacetylating glucokinase regulatory protein," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
    3. Shin Murai & Yoshifumi Yamaguchi & Yoshitaka Shirasaki & Mai Yamagishi & Ryodai Shindo & Joanne M. Hildebrand & Ryosuke Miura & Osamu Nakabayashi & Mamoru Totsuka & Taichiro Tomida & Satomi Adachi-Aka, 2018. "A FRET biosensor for necroptosis uncovers two different modes of the release of DAMPs," Nature Communications, Nature, vol. 9(1), pages 1-17, December.
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