Definition of a Small Core Transcriptional Circuit Regulated by AML1-ETO

Transcription factors regulate gene networks controlling normal hematopoiesis and are frequently deregulated in acute myeloid leukemia (AML). Critical to our understanding of the mechanism of cellular transformation by oncogenic transcription factors is the ability to define their direct gene targets. While this seems to be a straight forward task, gene network cascades can change within minutes to hours, making it difficult to distinguish direct from secondary or compensatory transcriptional changes by traditional methodologies. We describe an approach utilizing CRISPR-based genome editing to insert a degron tag into the endogenous AML1-ETO locus of Kasumi-1 cells, as well as overexpression of a degradable AML1-ETO protein in CD34+ human cord blood cells, which is a an AML1-ETO-dependent pre-leukemia model. Upon addition of a small molecule proteolysis targeting chimera (PROTAC), the AML1-ETO protein was rapidly degraded in both systems. Furthermore, by combining rapid degradation with nascent transcript analysis (PRO-seq), RNA-seq and Cut&Run, we have defined the core AML1-ETO regulatory network, which consists of fewer than 100 direct gene targets. The ability of AML1-ETO to regulate this relatively small gene pool is critical for maintaining cells in a self-renewing state, and AML1-ETO degradation set off a cascade of transcriptional events resulting in myeloid differentiation. ### Competing Interest Statement The authors have declared no competing interest.