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Cysteinyl-tRNA synthetase governs cysteine polysulfidation and mitochondrial bioenergetics

Author

Listed:
  • Takaaki Akaike

    (Tohoku University Graduate School of Medicine)

  • Tomoaki Ida

    (Tohoku University Graduate School of Medicine)

  • Fan-Yan Wei

    (Kumamoto University)

  • Motohiro Nishida

    (National Institutes of Natural Sciences
    Kyushu University)

  • Yoshito Kumagai

    (University of Tsukuba)

  • Md. Morshedul Alam

    (Tohoku University)

  • Hideshi Ihara

    (Osaka Prefecture University)

  • Tomohiro Sawa

    (Kumamoto University)

  • Tetsuro Matsunaga

    (Tohoku University Graduate School of Medicine)

  • Shingo Kasamatsu

    (Tohoku University Graduate School of Medicine)

  • Akiyuki Nishimura

    (National Institutes of Natural Sciences)

  • Masanobu Morita

    (Tohoku University Graduate School of Medicine)

  • Kazuhito Tomizawa

    (Kumamoto University)

  • Akira Nishimura

    (Tohoku University Graduate School of Medicine)

  • Satoshi Watanabe

    (Tohoku University)

  • Kenji Inaba

    (Tohoku University)

  • Hiroshi Shima

    (Miyagi Cancer Center Research Institute)

  • Nobuhiro Tanuma

    (Miyagi Cancer Center Research Institute)

  • Minkyung Jung

    (Tohoku University Graduate School of Medicine)

  • Shigemoto Fujii

    (Tohoku University Graduate School of Medicine)

  • Yasuo Watanabe

    (Showa Pharmaceutical University)

  • Masaki Ohmuraya

    (Nishinomiya)

  • Péter Nagy

    (National Institute of Oncology)

  • Martin Feelisch

    (University of Southampton, Southampton General Hospital and Institute for Life Sciences)

  • Jon M. Fukuto

    (Sonoma State University)

  • Hozumi Motohashi

    (Tohoku University)

Abstract

Cysteine hydropersulfide (CysSSH) occurs in abundant quantities in various organisms, yet little is known about its biosynthesis and physiological functions. Extensive persulfide formation is apparent in cysteine-containing proteins in Escherichia coli and mammalian cells and is believed to result from post-translational processes involving hydrogen sulfide-related chemistry. Here we demonstrate effective CysSSH synthesis from the substrate l-cysteine, a reaction catalyzed by prokaryotic and mammalian cysteinyl-tRNA synthetases (CARSs). Targeted disruption of the genes encoding mitochondrial CARSs in mice and human cells shows that CARSs have a crucial role in endogenous CysSSH production and suggests that these enzymes serve as the principal cysteine persulfide synthases in vivo. CARSs also catalyze co-translational cysteine polysulfidation and are involved in the regulation of mitochondrial biogenesis and bioenergetics. Investigating CARS-dependent persulfide production may thus clarify aberrant redox signaling in physiological and pathophysiological conditions, and suggest therapeutic targets based on oxidative stress and mitochondrial dysfunction.

Suggested Citation

  • Takaaki Akaike & Tomoaki Ida & Fan-Yan Wei & Motohiro Nishida & Yoshito Kumagai & Md. Morshedul Alam & Hideshi Ihara & Tomohiro Sawa & Tetsuro Matsunaga & Shingo Kasamatsu & Akiyuki Nishimura & Masano, 2017. "Cysteinyl-tRNA synthetase governs cysteine polysulfidation and mitochondrial bioenergetics," Nature Communications, Nature, vol. 8(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01311-y
    DOI: 10.1038/s41467-017-01311-y
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    Cited by:

    1. Tetsuro Matsunaga & Hirohito Sano & Katsuya Takita & Masanobu Morita & Shun Yamanaka & Tomohiro Ichikawa & Tadahisa Numakura & Tomoaki Ida & Minkyung Jung & Seiryo Ogata & Sunghyeon Yoon & Naoya Fujin, 2023. "Supersulphides provide airway protection in viral and chronic lung diseases," Nature Communications, Nature, vol. 14(1), pages 1-25, December.
    2. Nathan P. Ward & Sang Jun Yoon & Tyce Flynn & Amanda M. Sherwood & Maddison A. Olley & Juliana Madej & Gina M. DeNicola, 2024. "Mitochondrial respiratory function is preserved under cysteine starvation via glutathione catabolism in NSCLC," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    3. Qi Cui & Meg Shieh & Tony W. Pan & Akiyuki Nishimura & Tetsuro Matsunaga & Shane S. Kelly & Shi Xu & Minkyung Jung & Seiryo Ogata & Masanobu Morita & Jun Yoshitake & Xiaoyan Chen & Jerome R. Robinson , 2024. "2H-Thiopyran-2-thione sulfine, a compound for converting H2S to HSOH/H2S2 and increasing intracellular sulfane sulfur levels," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    4. Cyril Statzer & Jin Meng & Richard Venz & Monet Bland & Stacey Robida-Stubbs & Krina Patel & Dunja Petrovic & Raffaella Emsley & Pengpeng Liu & Ianessa Morantte & Cole Haynes & William B. Mair & Alban, 2022. "ATF-4 and hydrogen sulfide signalling mediate longevity in response to inhibition of translation or mTORC1," Nature Communications, Nature, vol. 13(1), pages 1-15, December.

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