Abstract
Abstract Cancer whole-genome sequencing has revealed characteristic mutational signatures associated with defective DNA repair that underpin human genetic diseases. To define the direct mutagenic effects of DNA repair deficiency at the genome-wide level, we investigate mutational signatures generated by CRISPR-Cas9-based knockouts of 42 genes involved in DNA repair/replication using a human-induced pluripotent stem cell line. Knockouts (Δ) of nine DNA repair genes reveal substitution/indel mutational signatures. Notably, dissection of signatures of defective mismatch repair (MMR) uncovers gene-specific characteristics including distinguishing features of ΔMLH1, ΔMSH2, and ΔMSH6 from ΔPMS2. This gene-specificity is also exhibited by hIPSCs derived from patients with autosomal recessive Constitutional Mismatch Repair Deficiency (CMMRD) that carry biallelic germline mutations of MMR genes. Furthermore, gene-specificity manifests in whole genome sequenced primary human cancers. Additionally, detailed analyses reveal putative sources of endogenous DNA damage that contribute to MMR signatures, including guanine oxidation, errors of DNA polymerases and reversed template slippage or double slippage. Finally, we find that using all mutational signatures of MMR-deficiency as identified in this study results in improved sensitivity and specificity in classifying MMR-deficient tumors, critical for accurate patient stratification for therapeutic intervention. Citation Format: Xueqing Zou, Gene Koh, Scott Nanda, Andrea Degasperi, Katie Urgo, Wendy Bushell, Chukwuma Agu, Vanesa Perez-Alonso, Daniel Rueda, Julia Foreman, Rebecca Harris, Josef Jiricny, Bill Skarnes, Serena Nik-Zainal. Direct mutational consequences of CRISPR-cas9 gene-edited DNA repair genes [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4887.
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