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Signatures of TOP1 transcription-associated mutagenesis in cancer and germline

Author

Listed:
  • Martin A. M. Reijns

    (The University of Edinburgh)

  • David A. Parry

    (The University of Edinburgh)

  • Thomas C. Williams

    (The University of Edinburgh
    The University of Edinburgh)

  • Ferran Nadeu

    (Institut d’Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS)
    Centro de Investigación Biomédica en Red de Cáncer (CIBERONC))

  • Rebecca L. Hindshaw

    (Institute of Cancer and Genomic Sciences, University of Birmingham)

  • Diana O. Rios Szwed

    (The University of Edinburgh)

  • Michael D. Nicholson

    (The University of Edinburgh)

  • Paula Carroll

    (The University of Edinburgh)

  • Shelagh Boyle

    (The University of Edinburgh)

  • Romina Royo

    (Barcelona Supercomputing Center (BSC))

  • Alex J. Cornish

    (The Institute of Cancer Research)

  • Hang Xiang

    (Institute of Clinical Molecular Biology, Christian-Albrechts-University and University Hospital Schleswig-Holstein)

  • Kate Ridout

    (University of Oxford)

  • Anna Schuh

    (University of Oxford)

  • Konrad Aden

    (Institute of Clinical Molecular Biology, Christian-Albrechts-University and University Hospital Schleswig-Holstein)

  • Claire Palles

    (Institute of Cancer and Genomic Sciences, University of Birmingham)

  • Elias Campo

    (Institut d’Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS)
    Centro de Investigación Biomédica en Red de Cáncer (CIBERONC)
    Hospital Clínic of Barcelona
    Universitat de Barcelona)

  • Tatjana Stankovic

    (Institute of Cancer and Genomic Sciences, University of Birmingham)

  • Martin S. Taylor

    (The University of Edinburgh)

  • Andrew P. Jackson

    (The University of Edinburgh)

Abstract

The mutational landscape is shaped by many processes. Genic regions are vulnerable to mutation but are preferentially protected by transcription-coupled repair1. In microorganisms, transcription has been demonstrated to be mutagenic2,3; however, the impact of transcription-associated mutagenesis remains to be established in higher eukaryotes4. Here we show that ID4—a cancer insertion–deletion (indel) mutation signature of unknown aetiology5 characterized by short (2 to 5 base pair) deletions —is due to a transcription-associated mutagenesis process. We demonstrate that defective ribonucleotide excision repair in mammals is associated with the ID4 signature, with mutations occurring at a TNT sequence motif, implicating topoisomerase 1 (TOP1) activity at sites of genome-embedded ribonucleotides as a mechanistic basis. Such TOP1-mediated deletions occur somatically in cancer, and the ID-TOP1 signature is also found in physiological settings, contributing to genic de novo indel mutations in the germline. Thus, although topoisomerases protect against genome instability by relieving topological stress6, their activity may also be an important source of mutations in the human genome.

Suggested Citation

  • Martin A. M. Reijns & David A. Parry & Thomas C. Williams & Ferran Nadeu & Rebecca L. Hindshaw & Diana O. Rios Szwed & Michael D. Nicholson & Paula Carroll & Shelagh Boyle & Romina Royo & Alex J. Corn, 2022. "Signatures of TOP1 transcription-associated mutagenesis in cancer and germline," Nature, Nature, vol. 602(7898), pages 623-631, February.
    • Handle: RePEc:nat:nature:v:602:y:2022:i:7898:d:10.1038_s41586-022-04403-y
    DOI: 10.1038/s41586-022-04403-y
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