Abstract
The importance of MCL-1 in leukemogenesis has prompted development of MCL-1 antagonists e.g., S63845, MIK665. However, their effectiveness in acute myeloid leukemia (AML) is limited by compensatory MCL-1 accumulation via the ubiquitin proteasome system. Here, we investigated mechanisms by which kinase inhibitors with Src inhibitory activity e.g., bosutinib (SKI-606) might circumvent this phenomenon. MCL-1 antagonist/SKI-606 co-administration synergistically induced apoptosis in diverse AML cell lines. Consistently, Src or MCL-1 knockdown with shRNA markedly sensitized cells to MCL-1 inhibitors or SKI-606 respectively, while ectopic MCL-1 expression significantly diminished apoptosis. Mechanistically, MCL-1 antagonist exposure induced MCL-1 up-regulation, an event blocked by Src inhibitors or Src shRNA knock-down. MCL-1 down-regulation was associated with diminished transcription and increased K48-linked degradative ubiquitination. Enhanced cell death depended functionally upon down-regulation of phosphorylated STAT3 (Tyr705/Ser727) and cytoprotective downstream targets c-Myc and BCL-xL, as well as BAX/BAK activation, and NOXA induction. Importantly, the Src/MCL-1 inhibitor regimen robustly killed primary AML cells, including primitive progenitors, but spared normal hematopoietic CD34(+) cells and human cardiomyocytes. Notably, the regimen significantly improved survival in an MV4-11 cell xenograft model, while reducing tumor burden in two patient-derived xenograft (PDX) AML models and increased survival in a third. These findings argue that Src inhibitors such as SKI-606 potentiate MCL-1 antagonist anti-leukemic activity in vitro and in vivo by blocking MCL-1 antagonist-mediated cytoprotective MCL-1 accumulation by promoting degradative ubiquitination, disrupting STAT-3-mediated transcription, and inducing NOXA-mediated MCL-1 degradation. They also suggest that this strategy may improve MCL-1 antagonist efficacy in AML and potentially other malignancies.