Deletion of genes encoding PU.1 and Spi-B leads to B cell acute lymphoblastic leukemia associated with driver mutations in Janus Kinases
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Abstract
Precursor B-cell acute lymphoblastic leukemia (B-ALL) is associated with recurrent mutations that occur in cancer-initiating cells. There is a need to understand how spontaneous driver mutations influence clonal evolution in leukemia. The ETS-transcription factors PU.1 and Spi-B (encoded by Spi1 and Spib ) execute a critical role in B cell development and serve as complementary tumour suppressors by opposing the proliferative events mediated by IL-7R signaling. Here, we used a mouse model to conditionally delete Spi1 and Spib genes in developing B cells. These mice developed B-ALL with a median time to euthanasia of 18 weeks. We performed RNA and whole-exome sequencing (WES) on leukemias isolated from Mb1-CreΔPB mice and identified single-nucleotide variants (SNVs) in Jak1 , Jak3 and Ikzf3 genes, resulting in amino acid changes and in the gain of early stop-codons. JAK3 mutations resulted in amino acid substitutions located in the pseudo-kinase (R653H, V670A) and in the kinase (T844M) domains. Introduction of these mutations into wild-type pro-B cells conferred survival and proliferation advantages. We conclude that mutations in Janus kinases represent secondary drivers of leukemogenesis in the absence of Spi-B and PU.1 transcription factors. This mouse model represents an useful tool to study clonal evolution and tumour heterogeneity in B-ALL.
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