Abstract
Runt-related transcription (RUNX) factors play a key role in T cell development. At the T-lineage commitment checkpoint, RUNX1 undergoes dynamic partner switching, resulting in its redeployment. Here, we investigated the functional differences in RUNX factors between the lymphoid progenitor (LP)- and Notch-stimulated earliest T progenitor stages (Phase 1). We identified CCCTC-binding factor (CTCF) as an LP-specific RUNX1-interacting partner, with LP-specific RUNX1-binding genomic sites significantly enriched for CTCF consensus motifs and co-occupied by CTCF. On Notch stimulation, Notch1 intracellular domain directly interacts with RUNX1 and recruits the RUNX1/Mediator/p300 transcriptional activation complex to Notch-regulated T-signature gene loci. CRISPR/Cas9-mediated stage-specific deletion of RUNX factors and their binding partners revealed that the RUNX1/CTCF complex in LP negatively regulates T-signature gene expression, whereas the RUNX1/Mediator/p300 complex in Phase 1 promotes it. Our findings highlight the crucial role of Notch-mediated functional conversion of RUNX factors, including protein complex reorganization and genomic redeployment in initiating T-lineage program.