Selective Dependency of MLL-Rearranged Leukemia on Immunoproteasome Function

Several cellular pathways control the fine balance between self-renewal and differentiation to maintain leukemia-initiating cell (LIC) function. To identify cellular dependencies with relevance for oncogenic fusion proteins, we performed global proteome profiling. Acute myeloid leukemia (AML) was induced by retroviral expression of either MLL-AF9 (MA9) or AML1-ETO9a (AE) in murine hematopoietic stem and progenitor cells (HSPCs) (Lineage-Sca1+Kit+, LSK) which were subsequently transplanted into irradiated syngeneic recipients. After onset of leukemia, LIC-enriched (GFP+ Kithigh) cells isolated from 4 different primary recipients (per oncogene) were analyzed by in-depth quantitative proteomic analysis using high-resolution mass spectrometry (MS). More than 3,000 proteins were quantified with 868 proteins being differentially expressed between MA9 and AE LIC-enriched populations. In MLL-rearranged (MLLr) cells, gene set enrichment analysis (GSEA) revealed significant enrichment of cellular functions related to protein degradation and proteasome function. As this enrichment is present in MLLr-leukemia but not AE-driven LICs, may indicate an oncogene specific vulnerability. Expression of proteasome subunits is highly heterogeneous between different cell types and therefore may also be influenced by the underlying differentiation stage or oncogenic fusion. In published AML gene-expression datasets, immunoproteasome (IP) subunits PSMB8/LMP7 (p=0.0003***), PSMB9/LMP2 (p=0.0007***) and PSMB10/MECL1 (p Disclosures Heidel: Celgene: Consultancy; Novartis: Consultancy, Research Funding; CTI: Consultancy.