Loss of NOL10 leads to impaired disease progression of NUP98::DDX10 leukemia

NUP98 rearrangements associated with acute myeloid leukemia and myelodysplastic syndromes generate NUP98-fusion proteins. One such fusion protein, NUP98::DDX10, contains the putative RNA helicase DDX10. The molecular mechanism by which NUP98::DDX10 induces leukemia is not well understood. Here, we show that 24 amino acids within the DDX10 moiety of NUP98::DDX10 are crucial for cell immortalization and leukemogenesis. NOL10, nucleolar protein 10, interacts with the 24 amino acids, and NOL10 is a critical dependency of NUP98::DDX10 leukemia development. Studies in a mouse model of NUP98::DDX10 leukemia showed that loss of Nol10 impaired disease progression and improved survival. We also identified a novel function of NOL10 in that it acts cooperatively with NUP98::DDX10 to regulate serine biosynthesis pathways and stabilize ATF4 mRNA. Collectively, these findings suggest that NOL10 is a critical regulator of NUP98::DDX10 leukemia, and that targeting NOL10 (or the serine synthesis pathway regulated by NOL10) may be an effective therapeutic approach. We established murine NUP98::DDX10 leukemia model. To investigate the role of Nol10 in the leukemia cells expressing NUP98::DDX10, The leukemia cells purified from the bone marrow of the leukemia model were trasduced with shRNA against Nol10 to knockdown the expression of Nol10