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The Gcn4 transcription factor reduces protein synthesis capacity and extends yeast lifespan

Author

Listed:
  • Nitish Mittal

    (University of Basel)

  • Joao C. Guimaraes

    (University of Basel)

  • Thomas Gross

    (University of Basel)

  • Alexander Schmidt

    (University of Basel)

  • Arnau Vina-Vilaseca

    (University of Basel)

  • Danny D. Nedialkova

    (Max Planck Institute for Molecular Biomedicine)

  • Florian Aeschimann

    (Friedrich Miescher Institute for Biomedical Research)

  • Sebastian A. Leidel

    (Max Planck Institute for Molecular Biomedicine
    University of Muenster
    University of Muenster)

  • Anne Spang

    (University of Basel)

  • Mihaela Zavolan

    (University of Basel)

Abstract

In Saccharomyces cerevisiae, deletion of large ribosomal subunit protein-encoding genes increases the replicative lifespan in a Gcn4-dependent manner. However, how Gcn4, a key transcriptional activator of amino acid biosynthesis genes, increases lifespan, is unknown. Here we show that Gcn4 acts as a repressor of protein synthesis. By analyzing the messenger RNA and protein abundance, ribosome occupancy and protein synthesis rate in various yeast strains, we demonstrate that Gcn4 is sufficient to reduce protein synthesis and increase yeast lifespan. Chromatin immunoprecipitation reveals Gcn4 binding not only at genes that are activated, but also at genes, some encoding ribosomal proteins, that are repressed upon Gcn4 overexpression. The promoters of repressed genes contain Rap1 binding motifs. Our data suggest that Gcn4 is a central regulator of protein synthesis under multiple perturbations, including ribosomal protein gene deletions, calorie restriction, and rapamycin treatment, and provide an explanation for its role in longevity and stress response.

Suggested Citation

  • Nitish Mittal & Joao C. Guimaraes & Thomas Gross & Alexander Schmidt & Arnau Vina-Vilaseca & Danny D. Nedialkova & Florian Aeschimann & Sebastian A. Leidel & Anne Spang & Mihaela Zavolan, 2017. "The Gcn4 transcription factor reduces protein synthesis capacity and extends yeast lifespan," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00539-y
    DOI: 10.1038/s41467-017-00539-y
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    Cited by:

    1. 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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