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A role for Tau protein in maintaining ribosomal DNA stability and cytidine deaminase-deficient cell survival

Author

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  • Elias Bou Samra

    (PSL Research University, UMR 3348
    Centre Universitaire
    Université Paris Sud, Université Paris-Saclay, Centre Universitaire, UMR 3348)

  • Géraldine Buhagiar-Labarchède

    (PSL Research University, UMR 3348
    Centre Universitaire
    Université Paris Sud, Université Paris-Saclay, Centre Universitaire, UMR 3348)

  • Christelle Machon

    (Centre Hospitalier Lyon-Sud
    Université de Lyon, Université Lyon 1)

  • Jérôme Guitton

    (Centre Hospitalier Lyon-Sud
    Université de Lyon, Université Lyon 1)

  • Rosine Onclercq-Delic

    (PSL Research University, UMR 3348
    Centre Universitaire
    Université Paris Sud, Université Paris-Saclay, Centre Universitaire, UMR 3348)

  • Michael R. Green

    (University of Massachusetts Medical School)

  • Olivier Alibert

    (CEA-DRF-iRCM-LEFG-Genopole)

  • Claude Gazin

    (CEA-DRF-iRCM-LEFG-Genopole)

  • Xavier Veaute

    (CEA-DRF-iRCM-CIGEx)

  • Mounira Amor-Guéret

    (PSL Research University, UMR 3348
    Centre Universitaire
    Université Paris Sud, Université Paris-Saclay, Centre Universitaire, UMR 3348)

Abstract

Cells from Bloom’s syndrome patients display genome instability due to a defective BLM and the downregulation of cytidine deaminase. Here, we use a genome-wide RNAi-synthetic lethal screen and transcriptomic profiling to identify genes enabling BLM-deficient and/or cytidine deaminase-deficient cells to tolerate constitutive DNA damage and replication stress. We found a synthetic lethal interaction between cytidine deaminase and microtubule-associated protein Tau deficiencies. Tau is overexpressed in cytidine deaminase-deficient cells, and its depletion worsens genome instability, compromising cell survival. Tau is recruited, along with upstream-binding factor, to ribosomal DNA loci. Tau downregulation decreases upstream binding factor recruitment, ribosomal RNA synthesis, ribonucleotide levels, and affects ribosomal DNA stability, leading to the formation of a new subclass of human ribosomal ultrafine anaphase bridges. We describe here Tau functions in maintaining survival of cytidine deaminase-deficient cells, and ribosomal DNA transcription and stability. Moreover, our findings for cancer tissues presenting concomitant cytidine deaminase underexpression and Tau upregulation open up new possibilities for anti-cancer treatment.

Suggested Citation

  • Elias Bou Samra & Géraldine Buhagiar-Labarchède & Christelle Machon & Jérôme Guitton & Rosine Onclercq-Delic & Michael R. Green & Olivier Alibert & Claude Gazin & Xavier Veaute & Mounira Amor-Guéret, 2017. "A role for Tau protein in maintaining ribosomal DNA stability and cytidine deaminase-deficient cell survival," Nature Communications, Nature, vol. 8(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00633-1
    DOI: 10.1038/s41467-017-00633-1
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