Acute leukaemias express high levels of MYB which are required for the initiation and maintenance of the disease. Inhibition of MYB expression or activity has been shown to suppress MLL-fusion oncoprotein-induced acute myeloid leukaemias (AML), which are among the most aggressive forms of AML, and indeed MYB transcription has been reported to be regulated by the MLL-AF9 oncoprotein. This highlights the importance of understanding the mechanism of MYB transcriptional regulation in these leukaemias. Here we have demonstrated that the MLL-AF9 fusion protein regulates MYB transcription directly at the promoter region, in part by recruiting the transcriptional regulator kinase CDK9, and CDK9 inhibition effectively suppresses MYB expression as well as cell proliferation. However, MYB regulation by MLL-AF9 does not require H3K79 methylation mediated by the methyltransferase DOT1L, which has also been shown to be a key mediator of MLL-AF9 leukemogenicity. The identification of specific, essential and druggable transcriptional regulators may enable effective targeting of MYB expression, which in turn could potentially lead to new therapeutic approaches for acute myeloid leukaemia with MLL-AF9.