RESUMEN
Acute lymphoblastic leukemia (ALL) is an aggressive leukemia which can be derived from either T-cell or B-cell precursors. With current treatments, the survival rate is high, but the treatments are highly toxic with severe side effects. Individual mutations in IL7Rssand RAS pathways have been previously shown to be prevalent in ALL and especially in relapsed patients. The relationship of IL-7R77and RAS was investigated by transducing immature mouse thymocytes with the combination of these mutants. The resultant ALL cells were analyzed to identify the regulators and the oncoproteins that are upregulated or downregulated by the combination of IL7Rα with NRAS. Leukemia cells showed a significant increase in IL7Rw-mediated BCL2 expression, and an increase in MYC protein levels, was mainly induced by NRAS signaling. MYC was both necessary and sufficient to replace mutant NRAS and drugs targeting the MYC pathway showed a therapeutic benefit in IL-7R7/NRAS T-ALL. We suggest that MYC protein stability can be regulated by PLK-1 kinase, which was increased mainly by the NRAS signal. These studies identify novel pathways of oncogenesis and new targets for intervention that could lead to better therapeutic development.