Nucleotide depletion promotes cell fate transitions by inducing DNA replication stress

Abstract

ABSTRACTControl of cellular identity involves coordination of developmental programs with environmental factors such as nutrient availability, suggesting that modulating aspects of metabolism could enable therapeutically relevant changes in cell fate. We show that nucleotide depletion facilitates gene expression changes towards a new cell fate by perturbing DNA replication in models of acute myeloid leukemia, a cancer characterized by a differentiation blockade. This transition starts in S phase and is independent of replication stress signaling and DNA damage signaling pathways. Moreover, it occurs despite sustained oncogene-driven expression of the progenitor program and is accompanied by limited changes in chromatin accessibility. Altering lineage-determining transcription factor expression redirects cell fate progression towards an alternate fate upon replication stress, suggesting that perturbing DNA replication allows cells to mobilize primed maturation programs. Our work, along with other findings in diverse systems, suggests a conserved mechanism by which metabolic changes can orchestrate cell fate transitions.