Dissection of the MEF2D-IRF8 transcriptional circuit dependency in acute myeloid leukemia
Bianca Pingul(Cancer Research Institute), Hua Huang(University of Pennsylvania), Qingzhou Chen(Cancer Research Institute), Fatemeh Alikarami(Children's Hospital of Philadelphia), Zhen Zhang(University of Pennsylvania), Jun Qi(Harvard University), Kathrin M. Bernt(Children's Hospital of Philadelphia), Shelley L. Berger(University of Pennsylvania), Zhendong Cao(Cancer Research Institute), Junwei Shi(Cancer Research Institute)
Cited by 8Open Access
Abstract
. MEF2D and IRF8 form an autoregulatory loop via direct binding to mutual enhancer elements. One important function of this circuit in AML is to sustain PU.1/MEIS1 co-regulated transcriptional outputs via stabilizing PU.1's chromatin occupancy. We illustrated that AML could acquire dependency on this circuit through various oncogenic mechanisms that results in the activation of their enhancers. In addition to forming a circuit, MEF2D and IRF8 can also separately regulate gene expression, and dual perturbation of these two TFs leads to a more robust inhibition of AML proliferation. Collectively, our results revealed a TF circuit essential for AML survival.
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