Defects in 8-oxo-guanine repair pathway cause high frequency of C > A substitutions in neuroblastoma

Marlinde L. van den Boogaard(Princess Máxima Center), Rurika Oka(Oncode Institute), Anne Hakkert(Amsterdam UMC Location University of Amsterdam), Linda Schild(Amsterdam UMC Location University of Amsterdam), Marli E. Ebus(Amsterdam UMC Location University of Amsterdam), Michael R. van Gerven(Princess Máxima Center), Danny A. Zwijnenburg(Amsterdam UMC Location University of Amsterdam), Piet Molenaar(Amsterdam UMC Location University of Amsterdam), Lieke Hoyng(Amsterdam UMC Location University of Amsterdam), M. Emmy M. Dolman(Amsterdam UMC Location University of Amsterdam), Anke H. W. Essing(Princess Máxima Center), Bianca Koopmans(Amsterdam UMC Location University of Amsterdam), Thomas Helleday(Science for Life Laboratory), Jarno Drost(Oncode Institute), Ruben van Boxtel(Oncode Institute), Rogier Versteeg(Amsterdam UMC Location University of Amsterdam), Jan Köster(Amsterdam UMC Location University of Amsterdam), Jan J. Molenaar(Amsterdam UMC Location University of Amsterdam)
Proceedings of the National Academy of Sciences
September 3, 2021
10.1073/pnas.2007898118
Cited by 32Open Access
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Abstract

Significance The collection of large amounts of whole-genome sequencing data allowed for identification of mutational signatures, which are characteristic combinations of substitutions in the context of neighboring bases. The clinical significance of these mutational signatures is still largely unknown. In neuroblastoma, we showed that high levels of cytosine > adenine (C > A) substitutions are associated with poor survival. We identified that these high levels of C > A substitutions result from defects in 8-oxo-guanine repair, specifically from copy number loss of the DNA glycosylases MUTYH and OGG1 . The high frequency of C > A substitutions in neuroblastoma contributes to the increased adaptive capacity of these tumors. Thereby, we link basic molecular genetic mutation patterns to clinically significant tumor evolution processes.

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