PTENandARID1Ahaploinsufficiency equip colonic epithelium for oncogenic transformation

Abstract

AbstractNormal aged tissues are thought to exist as a patchwork of mutant clones. However, the relevance of driver mutations in normal tissue in terms of cancer initiation has not been well described. Here, we sought a quantitative understanding of how different cancer drivers achieve an age-related mutational footprint in the human colonic epithelium and to relate the clonal behaviours they generate to cancer risk. Metanalysis of contemporary multiregional sampling studies of colorectal tumours revealed many of the weak or moderate cancer drivers are trunk mutations present in the last common ancestor from which cancers arise. To study the processes by which such driver mutations could contribute to cancer predisposition, immunohistochemistry was used to detect PTEN, SMAD4 and ARID1A deficient clones in normal colon FFPE surgical resection samples (N=182 patients). Age-related changes in clone size and frequency identified positive biases in clone dynamics that acted to increase the mutational footprint for ARID1A and PTEN but not SMAD4.In vitroengineered monoallelic loss ofPTENandARID1Aimplicated specific altered downstream pathways and acquired pro-oncogenic cellular fates corresponding to haploinsufficiency for these genes.In situanalysis confirmed enhanced proliferation in both PTEN and ARID1A deficient clones and creation of an immune exclusive microenvironment associated with ARID1A deficiency. The behaviours resulting from haploinsufficiency ofPTENandARID1Aexemplify how priming of the tissue through somatic mosaicism could contribute alternative combinations of genetic events leading to transformation.