The BET Inhibitor INCB054329 Primes AML Cells for Venetoclax-Induced Apoptosis

Bromodomain and extra-terminal (BET) inhibitors may be efficacious for treatment of acute myeloid leukemia because they attenuate the expression of critical oncogenes including MYCand BCL2. These BET inhibitors (BETi) disrupt the transcriptional elongation process by displacing BET family members BRD2,3, and 4 off of chromatin, and causing RNA polymerase promoter-proximal pausing. We used precision nuclear run-on transcription sequencing (PROseq) to directly measure the effects of INCB054329, a potent BETi, on RNA polymerase II pausing and elongation. We found dramatic reductions on the elongation of key oncogenes such as MYCand BCL2within 15 min of adding the drug. These effects became more significant over time, eventually affecting nearly two thousand genes. By four hours after drug addition, we found a loss of ribosomal gene expression and a loss of mitochondrial gene expression that is characteristic of genes regulated by MYC, suggesting that these were secondary to turning off MYCexpression. When we examined the potential of the BETi INCB054329 for therapeutic efficacy in AML using Alamar Blue assays, which measure cellular redox potential, we noted marked growth inhibition of AML cell lines. However, growth assays and measurements of apoptosis using Annexin V staining found that BETi induced minimal apoptosis and cells were largely cytostatic. BrdU incorporation assays showed that INCB054329 caused the cells to accumulate in the G0/G1phase of the cell cycle. Metabolic studies indicated that INCB054329 treatment for 48 hours caused disruption of mitochondrial respiration rate and severely reduced glycolytic capacity. Taken together, the growth inhibition, cell cycle arrest and reduced metabolic rate suggests that INCB054329 promoted quiescence in AML cells, but that this is reversible, consistent with the clinical experience of single-agent treatment of hematologic malignancies with BETi.