Title: POLE Mutation Spectra Are Shaped by the Mutant Allele Identity, Its Abundance, and Mismatch Repair Status.

Authors: Hodel, Karl P; Sun, Meijuan J S; Ungerleider, Nathan; Park, Vivian S; Williams, Leonard G; Bauer, David L; Immethun, Victoria E; Wang, Jieqiong; Suo, Zucai; Lu, Hua; McLachlan, James B; Pursell, Zachary F

Published In Mol Cell, (2020 Jun 18)

Abstract: Human tumors with exonuclease domain mutations in the gene encoding DNA polymerase ε (POLE) have incredibly high mutation burdens. These errors arise in four unique mutation signatures occurring in different relative amounts, the etiologies of which remain poorly understood. We used CRISPR-Cas9 to engineer human cell lines expressing POLE tumor variants, with and without mismatch repair (MMR). Whole-exome sequencing of these cells after defined numbers of population doublings permitted analysis of nascent mutation accumulation. Unlike an exonuclease active site mutant that we previously characterized, POLE cancer mutants readily drive signature mutagenesis in the presence of functional MMR. Comparison of cell line and human patient data suggests that the relative abundance of mutation signatures partitions POLE tumors into distinct subgroups dependent on the nature of the POLE allele, its expression level, and MMR status. These results suggest that different POLE mutants have previously unappreciated differences in replication fidelity and mutagenesis.

PubMed ID: 32497495

MeSH Terms: No MeSH terms associated with this publication