ABSTRACT: Improving the poor prognosis of infant leukemias remains an unmet clinical need. This disease is a prototypical fusion oncoprotein-driven pediatric cancer, with MLL (KMT2A)-fusions present in most cases. Direct targeting of these driving oncoproteins represents a unique therapeutic opportunity. This rationale led us to initiate a drug screening with the aim of discovering drugs that can block MLL-fusion oncoproteins. A screen for inhibition of MLL-fusion proteins was developed that overcomes the traditional limitations of targeting transcription factors. This luciferase reporter-based screen, together with a secondary western blot screen, was used to prioritize compounds. We characterized the lead compound, Disulfiram, based on its efficient ablation of MLL fusion proteins. The consequences of drug-induced MLL-fusion inhibition was confirmed by cell proliferation, colony formation, apoptosis assays, RT-qPCR, in vivo assays, RNA-seq and CHIP-qPCR and CHIP-seq analysis. All statistical tests were two-sided. Drug-induced inhibition of MLL-fusion proteins by Disulfiram resulted in a specific block of colony formation in MLL-rearranged cells in vitro, induced differentiation and impeded leukemia progression in vivo. Mechanistically, Disulfiram abrogates MLL-fusion protein binding to DNA, resulting in epigenetic changes and down-regulation of leukemic programs setup by the MLL-fusion protein. Disulfiram can directly inhibit MLL-fusion proteins and demonstrates antitumor activity both in vitro and in vivo, providing, to our knowledge, the first evidence for a therapy that directly target the initiating oncogenic MLL-fusion protein.