ABSTRACT
Hematopoietic lineage commitment is regulated by cytokines and master transcription factors, but it remains unclear how a progenitor cell chooses a lineage in the face of conflicting cues. Through transcript counting in megakaryocyte–erythroid progenitors undergoing erythropoiesis, we show that the expression levels of the pro-erythropoiesis transcription factor EKLF (also known as KLF1) and receptor EpoR are inversely correlated with their pro-megakaryopoiesis counterparts, FLI-1 and TpoR (also known as MPL). Notably, as progenitors commit to the erythrocyte lineage, EpoR is upregulated and TpoR is strongly downregulated, thus boosting the potency of the pro-erythropoiesis cue erythropoietin and effectively eliminating the activity of the pro-megakaryopoiesis cue thrombopoietin. Based on these findings, we propose a new model for exclusive decision making that explicitly incorporates signals from extrinsic cues, and we experimentally confirm a model prediction of temporal changes in transcript noise levels in committing progenitors. Our study suggests that lineage-specific receptor levels can modulate potencies of cues to achieve robust commitment decisions.
Author contributions
N.A.S. and C.A.S. conceived the research; N.A.S. performed the experiments and simulations; M.J.L. and A.R. provided expertise and resources for single-molecule mRNA FISH experiments; N.A.S. and C.A.S. analyzed the data; N.A.S. and C.A.S. wrote the manuscript.
Funding
This work was supported by the American Heart Association with a Predoctoral Fellowship to N.A.S. and a Scientist Development Grant [grant number 0835132N to C.A.S.]; and by the National Institutes of Health (NIH) [grant number 1R01GM113985 to C.A.S.]. A.R. acknowledges support from an NIH Director's New Innovator Award [grant number 1DP2OD008514] and a Burroughs Wellcome Fund Career Award at the Scientific Interface. Deposited in PMC for release after 12 months.
