Epigenetic Priming of Enhancers Predicts Developmental Competence of hESC-Derived Endodermal Lineage Intermediates.

The potential to generate functional pancreatic beta cells or liver cells from human embryonic stem cells provides a promising avenue for cell replacement therapies for treatment of diabetes and chronic liver disease, respectively. Despite progress, beta cells and liver cells produced from stem cells still lack many of the characteristics of normal human beta or liver cells. Pancreas and liver arise from a common precursor cell and organ specific-inductive signals must act upon these precursor cells to activate either pancreas- or liver-specific genes. However, the molecular mechanisms controlling pancreas versus liver fate decisions are not understood. Here, we employed a human embryonic stem cell (hESC) differentiation system toward pancreas and liver to examine if cell fate decisions could be determined by the state of enhancers: regulatory DNA sequences that, when bound by transcription factors, enhance gene transcription. We show that pancreas- and liver-specific enhancers of these precursor cells are in a “poised” state for activation. When precursor cells are exposed to inductive factors, this leads to rapid changes in the chromatin structure of these enhancers. These changes render the cell competent to appropriately respond to inductive signals by allowing accessibility of the DNA to lineage-specifying transcription factors and activation of either pancreas- or liver-specific genes. The findings discussed in this work have implications for cell reprogramming strategies to produce beta cells and liver cells from other cell sources.