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Quantitative proteomics identifies redox switches for global translation modulation by mitochondrially produced reactive oxygen species

Author

Listed:
  • Ulrike Topf

    (International Institute of Molecular and Cell Biology
    University of Warsaw)

  • Ida Suppanz

    (University of Freiburg
    University of Freiburg)

  • Lukasz Samluk

    (International Institute of Molecular and Cell Biology
    University of Warsaw)

  • Lidia Wrobel

    (International Institute of Molecular and Cell Biology)

  • Alexander Böser

    (University of Freiburg)

  • Paulina Sakowska

    (International Institute of Molecular and Cell Biology)

  • Bettina Knapp

    (University of Freiburg)

  • Martyna K. Pietrzyk

    (International Institute of Molecular and Cell Biology
    University of Warsaw)

  • Agnieszka Chacinska

    (International Institute of Molecular and Cell Biology
    University of Warsaw)

  • Bettina Warscheid

    (University of Freiburg
    University of Freiburg
    University of Freiburg)

Abstract

The generation of reactive oxygen species (ROS) is inevitably linked to life. However, the precise role of ROS in signalling and specific targets is largely unknown. We perform a global proteomic analysis to delineate the yeast redoxome to a depth of more than 4,300 unique cysteine residues in over 2,200 proteins. Mapping of redox-active thiols in proteins exposed to exogenous or endogenous mitochondria-derived oxidative stress reveals ROS-sensitive sites in several components of the translation apparatus. Mitochondria are the major source of cellular ROS. We demonstrate that increased levels of intracellular ROS caused by dysfunctional mitochondria serve as a signal to attenuate global protein synthesis. Hence, we propose a universal mechanism that controls protein synthesis by inducing reversible changes in the translation machinery upon modulating the redox status of proteins involved in translation. This crosstalk between mitochondria and protein synthesis may have an important contribution to pathologies caused by dysfunctional mitochondria.

Suggested Citation

  • Ulrike Topf & Ida Suppanz & Lukasz Samluk & Lidia Wrobel & Alexander Böser & Paulina Sakowska & Bettina Knapp & Martyna K. Pietrzyk & Agnieszka Chacinska & Bettina Warscheid, 2018. "Quantitative proteomics identifies redox switches for global translation modulation by mitochondrially produced reactive oxygen species," Nature Communications, Nature, vol. 9(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02694-8
    DOI: 10.1038/s41467-017-02694-8
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    Cited by:

    1. Minji Kim & Remigiusz A. Serwa & Lukasz Samluk & Ida Suppanz & Agata Kodroń & Tomasz M. Stępkowski & Praveenraj Elancheliyan & Biniyam Tsegaye & Silke Oeljeklaus & Michal Wasilewski & Bettina Warschei, 2023. "Immunoproteasome-specific subunit PSMB9 induction is required to regulate cellular proteostasis upon mitochondrial dysfunction," Nature Communications, Nature, vol. 14(1), pages 1-23, December.

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