Abstract
Highlights
Cell-penetrant peptidomimetic inhibitor selectively blocks oncogenic MYB:CBP/P300 activity in diverse leukemias but not normal blood cells
MYB assembles aberrant transcription factor complexes in AML required for programming leukemic gene expression
CBP/P300 sequestration contributes to MYB-dependent leukemogenic gene expression and chromatin organization
Summary Dysregulated gene expression is one of the most prevalent features in human cancers. Here, we show that most subtypes of acute myeloid leukemia (AML) depend on the aberrant assembly of the MYB transcriptional co-activator complex. By rapid and selective peptidomimetic interference with the binding of CBP/P300 to MYB, but not CREB or MLL, we find that the leukemic functions of MYB are mediated by CBP/P300-mediated co-activation of a distinct set of transcriptional factor complexes that are aberrantly assembled with MYB in AML cells. This therapeutic remodeling is accompanied by dynamic redistribution of CBP/P300 complexes to genes that control cellular differentiation and growth. We propose that convergently organized transcription factor complexes in AML cells control oncogenic gene expression programs. These findings establish a compelling strategy for pharmacologic reprogramming of oncogenic gene expression that supports its targeting for leukemias and possibly other human cancers caused by dysregulated gene control.
Competing Interest Statement
The authors have declared no competing interest.
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