Mutational processes underlie cancer initiation and progression. Signatures of these processes in cancer genomes may explain cancer etiology and could hold diagnostic and prognostic value. We developed a strategy that can be used to explore the origin of cancer-associated mutational signatures. We used CRISPR-Cas9 technology to delete key DNA repair genes in human colon organoids, followed by delayed subcloning and whole-genome sequencing. We found that mutation accumulation in organoids deficient in the mismatch repair gene is driven by replication errors and accurately models the mutation profiles observed in mismatch repair-deficient colorectal cancers. Application of this strategy to the cancer predisposition gene, which encodes a base excision repair protein, revealed a mutational footprint (signature 30) previously observed in a breast cancer cohort. We show that signature 30 can arise from germline mutations.
Graphical Abstract Highlights d Biallelic germline NTHL1 mutations predispose to a multitumor syndrome d Biallelic germline NTHL1 mutation carriers are at risk for breast cancer d Tumors from NTHL1-deficient patients reveal a cross-cancer NTHL1-associated signature d Mutational signature analyses can assist to identify germline DNA repair defects
Attenuated adenomatous polyposis (AAP) is a heterogeneous syndrome in terms of clinical manifestations, heritability and etiology of the disease. Genetic heterogeneity and low penetrance alleles are probably the best explanation for this variability. Certainly, it is known that
APC
and
MUTYH
are high penetrance predisposition genes for adenomatous polyposis, but they only account for 5–10% of AAP. Other new predisposition genes, such as
POLE
,
POLD1
,
NTHL1
,
AXIN2
or
MSH
3, have been recently described and have been associated with AAP, but their relative contribution is still not well defined. In order to evaluate the genetic predisposition to AAP in a hospital based population, germline DNAs from 158 AAP subjects were screened for genetic variants in the coding regions and intron-exon boundaries of seven associated genes through a next-generation sequencing (NGS) custom gene panel. Splicing, segregation studies, somatic mutational screening and RNA quantitative expression assays were conducted for selected variants. In four of the probands the adenoma susceptibility could be explained by actionable mutations in
APC
or
MUTYH
, and one other patient was a double carrier of two truncating variants in both
POLE
and
NTHL1
. Furthermore, 16 additional patients harbored uncertain significance variants in the remaining tested genes. This report gives information about the contribution of the newly described adenomatous polyposis predisposition genes in a Spanish attenuated polyposis cohort. Our results highly support the convenience of NGS multigene panels for attenuated polyposis genetic screening and reveals
POLE
frameshift variants as a plausible susceptibility mechanism for AAP.
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