Abstract
Cancers frequently co-opt lineage-specific transcription factors (TFs) utilized in normal development to sustain proliferation. However, the effects of these TFs on tumor development depend considerably on where in the genome they bind. A new paper by Taylor and colleagues expands on previously developed diamidine compounds that obstruct the DNA binding sites of the pioneer TF PU.1 (SPI1) in acute myeloid leukemia (AML). Immobilization and sequencing of genomic DNA targeted by these compounds revealed that these inhibitors alter the genomic binding patterns of PU.1. The authors report that their strategy constrains the genomic binding preferences of PU.1, leading to redistribution of PU.1 to promoters and other gene-proximal regions with elevated G/C content. Here we discuss recent developments for targeting PU.1 in hematologic malignancies. We also explore the shared functional roles of PU.1 and SWI/SNF ATP-dependent chromatin remodeling complexes, which work together to sustain the enhancer landscape needed for tumor cell proliferation but also have key roles in non-tumor settings.
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