Litcius/Paper detail

Decay of driver mutations shapes the landscape of intestinal transformation

Filipe C. Lourenço, Iannish Sadien, Kim Wong, Sam Adler, Ashley Sawle, Leonor Schubert Santana, Lee Hazelwood, Giada Giavara, Anna M. Nicholson, Matthew Eldridge, Noori Maka, Gerard Lynch, Stephen T. McSorley, Joanne Edwards, Richard Kemp, David J. Adams, Douglas J. Winton

2025Nature5 citationsDOIOpen Access PDF

Abstract

Abstract Colorectal cancer (CRC) has traditionally been thought to develop through stepwise mutation of the APC tumour suppressor and other driver genes, coupled with expansion of positively selected clones. However, recent publications show that many premalignant lesions comprise multiple clones expressing different mutant APC proteins 1–4 . Here, by mediating transformation on different mouse backgrounds containing mutations in Kras or other common CRC driver genes, we establish that the presence of diverse priming events in the normal mouse intestinal epithelium can change the transformation and clonal-selection landscape, permitting the fixation of strong driver mutations in Apc and Ctnnb1 that are otherwise lost due to negative selection. These findings, combined with our demonstration of mutational patterns consistent with similar priming events in human CRC, suggest that the order in which driver mutations occur in intestinal epithelium can determine whether clones are positively or negatively selected and can shape subsequent tumour development.

Topics & Concepts

Intestinal epitheliumKRASBiologyTransformation (genetics)MutantMutationMalignant transformationGeneticsSuppressorPhenotypePriming (agriculture)Cancer researchEpitheliumCell biologyColorectal cancerNeoplastic transformationGeneIntestinal mucosaComputational biologyGenetic factors in colorectal cancerCancer Cells and MetastasisCancer Genomics and Diagnostics