Enhancer–promoter interactions become more instructive in the transition from cell-fate specification to tissue differentiation

Abstract

AbstractTo regulate expression, enhancers must come in proximity to their target gene. However, the relationship between the timing of enhancer–promoter (E–P) proximity and activity remains unclear, with examples of uncoupled, anticorrelated and correlated interactions. To assess this, we selected 600 characterized enhancers or promoters with tissue-specific activity in Drosophila embryos and performed Capture-C in FACS-purified myogenic or neurogenic cells during specification and tissue differentiation. This enabled direct comparison between E–P proximity and activity transitioning from OFF-to-ON and ON-to-OFF states across developmental conditions. This showed remarkably similar E–P topologies between specified muscle and neuronal cells, which are uncoupled from activity. During tissue differentiation, many new distal interactions emerge where changes in E–P proximity reflect changes in activity. The mode of E–P regulation therefore appears to change as embryogenesis proceeds, from largely permissive topologies during cell-fate specification to more instructive regulation during terminal tissue differentiation, when E–P proximity is coupled to activation.