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Contributing factors to the oxidation-induced mutational landscape in human cells

Author

Listed:
  • Cameron Cordero

    (University of Vermont
    University of Vermont
    Washington State University)

  • Kavi P. M. Mehta

    (Vanderbilt University School of Medicine
    University of Wisconsin)

  • Tyler M. Weaver

    (University of Kansas Medical Center
    University of Kansas Medical Center
    University of Kansas Cancer Center)

  • Justin A. Ling

    (University of Kansas Medical Center
    University of Kansas Medical Center)

  • Bret D. Freudenthal

    (University of Kansas Medical Center
    University of Kansas Medical Center
    University of Kansas Cancer Center)

  • David Cortez

    (Vanderbilt University School of Medicine)

  • Steven A. Roberts

    (University of Vermont
    University of Vermont
    Washington State University
    Washington State University)

Abstract

8-oxoguanine (8-oxoG) is a common oxidative DNA lesion that causes G > T substitutions. Determinants of local and regional differences in 8-oxoG-induced mutability across genomes are currently unknown. Here, we show DNA oxidation induces G > T substitutions and insertion/deletion (INDEL) mutations in human cells and cancers. Potassium bromate (KBrO3)-induced 8-oxoGs occur with similar sequence preferences as their derived substitutions, indicating that the reactivity of specific oxidants dictates mutation sequence specificity. While 8-oxoG occurs uniformly across chromatin, 8-oxoG-induced mutations are elevated in compact genomic regions, within nucleosomes, and at inward facing guanines within strongly positioned nucleosomes. Cryo-electron microscopy structures of OGG1-nucleosome complexes indicate that these effects originate from OGG1’s ability to flip outward positioned 8-oxoG lesions into the catalytic pocket while inward facing lesions are occluded by the histone octamer. Mutation spectra from human cells with DNA repair deficiencies reveals contributions of a DNA repair network limiting 8-oxoG mutagenesis, where OGG1- and MUTYH-mediated base excision repair is supplemented by the replication-associated factors Pol η and HMCES. Transcriptional asymmetry of KBrO3-induced mutations in OGG1- and Pol η-deficient cells also demonstrates transcription-coupled repair can prevent 8-oxoG-induced mutation. Thus, oxidant chemistry, chromatin structures, and DNA repair processes combine to dictate the oxidative mutational landscape in human genomes.

Suggested Citation

  • Cameron Cordero & Kavi P. M. Mehta & Tyler M. Weaver & Justin A. Ling & Bret D. Freudenthal & David Cortez & Steven A. Roberts, 2024. "Contributing factors to the oxidation-induced mutational landscape in human cells," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-55497-z
    DOI: 10.1038/s41467-024-55497-z
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