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IRF4 deficiency vulnerates B-cell progeny for leukemogenesis via somatically acquired Jak3 mutations conferring IL-7 hypersensitivity.

Dennis Das GuptaChristoph PaulNadine SamelMaria BieringerDaniel StaudenrausFederico MariniHartmann RaiferLisa MenkeLea HansalBärbel CamaraEdith RothPatrick DaumMichael WanzelMarco MernbergerAndrea NistUta-Maria BauerFrederik HelmprobstMalte BuchholzKatrin RothLorenz BastianAlina M HartmannClaudia Dorothea BaldusKoichi IkutaAndreas NeubauerAndreas BurchertHans-Martin JäckMatthias KleinTobias BoppThorsten StieweAxel PagenstecherMichael Lohoff
Published in: Cell death and differentiation (2022)
The processes leading from disturbed B-cell development to adult B-cell progenitor acute lymphoblastic leukemia (BCP-ALL) remain poorly understood. Here, we describe Irf4<sup>-/-</sup> mice as prone to developing BCP-ALL with age. Irf4<sup>-/-</sup> preB-I cells exhibited impaired differentiation but enhanced proliferation in response to IL-7, along with reduced retention in the IL-7 providing bone marrow niche due to decreased CXCL12 responsiveness. Thus selected, preB-I cells acquired Jak3 mutations, probably following irregular AID activity, resulting in malignant transformation. We demonstrate heightened IL-7 sensitivity due to Jak3 mutants, devise a model to explain it, and describe structural and functional similarities to Jak2 mutations often occurring in human Ph-like ALL. Finally, targeting JAK signaling with Ruxolitinib in vivo prolonged survival of mice bearing established Irf4<sup>-/-</sup> leukemia. Intriguingly, organ infiltration including leukemic meningeosis was selectively reduced without affecting blood blast counts. In this work, we present spontaneous leukemogenesis following IRF4 deficiency with potential implications for high-risk BCP-ALL in adult humans.
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