Nature Communications (Feb 2024)

Mitochondrial protein C15ORF48 is a stress-independent inducer of autophagy that regulates oxidative stress and autoimmunity

  • Yuki Takakura,
  • Moeka Machida,
  • Natsumi Terada,
  • Yuka Katsumi,
  • Seika Kawamura,
  • Kenta Horie,
  • Maki Miyauchi,
  • Tatsuya Ishikawa,
  • Nobuko Akiyama,
  • Takao Seki,
  • Takahisa Miyao,
  • Mio Hayama,
  • Rin Endo,
  • Hiroto Ishii,
  • Yuya Maruyama,
  • Naho Hagiwara,
  • Tetsuya J. Kobayashi,
  • Naoto Yamaguchi,
  • Hiroyuki Takano,
  • Taishin Akiyama,
  • Noritaka Yamaguchi

DOI
https://doi.org/10.1038/s41467-024-45206-1
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 19

Abstract

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Abstract Autophagy is primarily activated by cellular stress, such as starvation or mitochondrial damage. However, stress-independent autophagy is activated by unclear mechanisms in several cell types, such as thymic epithelial cells (TECs). Here we report that the mitochondrial protein, C15ORF48, is a critical inducer of stress-independent autophagy. Mechanistically, C15ORF48 reduces the mitochondrial membrane potential and lowers intracellular ATP levels, thereby activating AMP-activated protein kinase and its downstream Unc-51-like kinase 1. Interestingly, C15ORF48-dependent induction of autophagy upregulates intracellular glutathione levels, promoting cell survival by reducing oxidative stress. Mice deficient in C15orf48 show a reduction in stress-independent autophagy in TECs, but not in typical starvation-induced autophagy in skeletal muscles. Moreover, C15orf48 –/– mice develop autoimmunity, which is consistent with the fact that the stress-independent autophagy in TECs is crucial for the thymic self-tolerance. These results suggest that C15ORF48 induces stress-independent autophagy, thereby regulating oxidative stress and self-tolerance.