Distinct chromatin scanning modes lead to targeting of compacted chromatin by pioneer factors FOXA1 and SOX2

Abstract

SUMMARYPioneer transcription factors, by interacting with nucleosomes, can scan silent, compact chromatin to target gene regulatory sequences, enabling cooperative binding events that modulate local chromatin structure and gene activity. However, pioneer factors do not target all of their cognate motifs and it is unclear whether different pioneers scan compact chromatin the same way. Surprisingly, combined approaches of genomics and single-molecule tracking show that to target DNase-resistant, low-histone turnover sites, pioneer factors can use opposite dynamics of chromatin scanning. FOXA1 uses low nucleoplasmic diffusion and stable chromatin interactions, whereas SOX2 uses high nucleoplasmic diffusion and transient interactions, respectively. Despite such differences, FOXA1 and SOX2 scan low-mobility, silent chromatin to similar extents, as mediated by protein domains outside of the respective DNA binding domains. By contrast, the non-pioneer HNF4A predominantly targets DNase-sensitive, nucleosome-depleted regions. We conclude that the targeting of compact chromatin sites by pioneer factors can be through distinct dynamic processes.