ABSTRACT: Trithorax and polycomb group proteins antagonistically regulate the transcription of many genes, and cancer can result from the disruption of this regulation. Deregulation of trithorax function occurs through chromosomal translocations involving the trithorax gene MLL, leading to the expression of MLL fusion proteins and acute leukemia. It is poorly understood how MLL fusion proteins block differentiation, a hallmark of leukemogenesis. We analyzed the effect of acute depletion of menin, a close partner of MLL that is critical for MLL and MLL-AF9 recruitment to target genes, on MLL-AF9 leukemia cell differentiation using an in vivo model. We performed cDNA microarray analysis of menin-regulated genes from primary leukemia cells to determine menin-regulated pathways involved in suppressing MLL-AF9 leukemia cell differentiation. We found that menin binds the promoter of the polycomb gene Ezh2, and promotes its expression. EZH2 interacts with the differentiation-promoting transcription factor C/EBP? and represses C/EBP? target genes. Menin depletion reduces MLL binding to the Ezh2 locus, EZH2 expression, and EZH2 binding and repressive H3K27 methylation at C/EBP? target genes, thereby inducing the expression of pro-differentiation C/EBP? targets. In conclusion, our results show that in contrast to its classical role antagonizing trithorax function, the polycomb group protein EZH2 collaborates with trithorax-associated menin to block MLL-AF9 leukemia cell differentiation, uncovering a novel mechanism for suppression of C/EBP? and leukemia cell differentiation, through menin-mediated upregulation of EZH2.