Levelling out differences in aerobic glycolysis neutralizes the competitive advantage of oncogenic PIK3CA mutant progenitors in the esophagus

Abstract

SummaryNormal human tissues progressively accumulate cells carrying mutations. Activating mutations in PIK3CA generate large clones in the aging human esophagus, but the underlying cellular mechanisms are unclear. Here, we tracked mutant PIK3CA esophageal progenitor cells in transgenic mice by lineage tracing. Expression of an activating heterozygous Pik3caH1047R mutation in single progenitor cells tilts cell fate towards proliferation, generating mutant clones that outcompete their wild type neighbors. The mutation leads to increased aerobic glycolysis through the activation of Hif1α transcriptional targets compared with wild type cells. We found that interventions that level out the difference in activation of the PI3K/HIF1α/aerobic glycolysis axis between wild type and mutant cells attenuate the competitive advantage of Pik3caH1047R mutant cells in vitro and in vivo. Our results suggest that clinically feasible interventions that even out signaling imbalances between wild type and mutant cells may limit the expansion of oncogenic mutants in normal epithelia.