Abstract
Epidemiological studies have revealed a radiation-related increase in the risk of developing acute lymphoblastic leukemia (ALL). Our recent study revealed early induction and increased risk of precursor B-cell (pB) lymphomas in mice after radiation exposure. However, the genomic landscape of radiation-induced B-cell lymphomas remains unclear. To identify the relevant genetic alterations in mice, whole-exome sequencing was performed on both early-onset and late-onset B-cell lymphomas that developed spontaneously or after gamma-irradiation. In addition to multiple driver mutations, the data revealed that interstitial deletion of chromosome 4, including Pax5, and missense mutations in Jak3 are unique genomic alterations in radiation-induced, early-onset B-cell lymphomas. RNA sequencing revealed a pB-cell-type gene-expression profile with no involvement of known fusion genes for human ALLs in the early-onset B-cell lymphomas. Activation of Jak3/Stat5 signaling in early-onset B-cell lymphomas was validated using western capillary electrophoresis. Those features were similar to those of Philadelphia chromosome-like ALL. Our data suggest a critical role for Pax5 loss-of-function mutations in initiating B-cell leukemogenesis coupled with activation of Jak3/Stat5 signaling as a basis for the rapid development of radiation-induced pB-ALL. These molecular signatures for radiation-induced cancers will inform both risk assessment and potential targeted therapies for pB-ALL.
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