Pioneer factor Pax7 initiates two-step cell-cycle-dependent chromatin opening

Pioneer transcription factors direct cell differentiation by deploying new enhancer repertoires through their unique ability to target and initiate remodelling of closed chromatin. The initial steps of their action remain undefined, although pioneers have been shown to interact with nucleosomal target DNA and with some chromatin-remodeling complexes. We now define the sequence of events that enables the pioneer Pax7 with its unique abilities. Chromatin condensation exerted by linker histone H1 is the first constraint on Pax7 recruitment, and this establishes the initial speed of chromatin remodeling. The first step of pioneer action involves recruitment of the KDM1A (LSD1) H3K9me2 demethylase for removal of this repressive mark, as well as recruitment of the MLL complex for deposition of the activating H3K4me1 mark. Further progression of pioneer action requires passage through cell division, and this involves dissociation of pioneer targets from perinuclear lamin B. Only then are the SWI-SNF remodeling complex and the coactivator p300 recruited, leading to nucleosome displacement and enhancer activation. Thus, the unique features of pioneer actions are those occurring in the lamin-associated compartment of the nucleus. This model is consistent with previous work that showed a dependence on cell division for establishment of new cell fates. Here the authors delineate how pioneer factor Pax7 promotes chromatin relaxation, by initially mediating the deposition of activating marks and at times the removal of repressive chromatin modifications, subsequently enabling the recruitment of chromatin remodelers to displace nucleosomes and activate enhancers.