LAUSR

The regulation of gene expression is a result of a complex interplay between chromatin remodeling, transcription factors (TFs) and signaling molecules. Cell differentiation is accompanied by chromatin remodeling of specific loci to permanently silence genes that are not essential for the differentiated cell activity. The molecular cues that recruit the chromatin remodeling machinery are not well characterized. IRF8 is an immune-cell specific TF and its expression is augmented by Interferon-γ (IFNγ). Therefore, it serves as a model gene to elucidate the molecular mechanisms governing its silencing in non-immune cells. A high-throughput shRNA library screen in IRF8 expression-restrictive cells enabled the identification of MafK as modulator of IRF8 silencing, affecting chromatin architecture. ChIP-Seq analysis revealed three MafK binding-regions (-25kb, -20kb and IRF8 6th intron) within the IRF8 locus. These MafK binding-sites are sufficient to repress a reporter-gene when cloned in genome-integrated lentiviral reporter constructs in only expression-restrictive cells. Conversely, plasmid-based constructs do not demonstrate such repressive effect. These results highlight the role of these MafK binding-sites in mediating repressed chromatin assembly. Finally, a more thorough genomic analysis was performed, using CRISPR-Cas9 to delete MafK-int6 binding-region in IRF8 expression-restrictive cells. Deleted clones exhibited an accessible chromatin conformation within the IRF8 locus that was accompanied by a significant increase in basal expression of IRF8 that was further induced by IFNγ. Taken together, we identified and characterized several MafK binding elements within the IRF8 locus that mediate repressive chromatin conformation resulting in the silencing of IRF8 expression in a cell-type specific manner.