The in Vitro and In Vivo Oncogenic Activity of Homodimeric Mutant of Interleukin-7 Receptor a Chain (IL7Rα) Highlights the Significance of the IL7Rα/Jak1 Pathway in T-Cell Acute Lymphoblastic Leukemia

Next, we investigated oncogenic activity of hIL7RA-INS in primary hematopoietic progenitor cells. To this aim, lin⁻ E.14 Balb/c fetal liver (FL) cells were retrovirally transduced with hIL7RA-INS in parallel with hIL7RA-wild type (WT), and then tested for their cytokine dependence in vitro. As expected, only hIL7RA-INS-transduced lin⁻FL cells showed abrogation of cytokine dependence. hIL7RA-transduced lin⁻FL cells were also transplanted into lethally irradiated syngeneic mice. Within 7–9 weeks after transplantation of lin⁻FL cells transduced with hIL7RA-INS, but not with hIL7RA-WT, recipient mice developed well-tolerated myelo- and lymphoproliferative disorders, characterized by marked leukocytosis, systemic lymphadenopathy and splenomegaly (Fig.1B). Notably, concomitant increase in hIL7RA⁺gamma-delta TCR⁺ T cells and decrease in B cells were observed in peripheral blood (Fig.1C). Histological examination of bone marrow, spleen and liver specimens from diseased mice revealed moderate to severe myeloid hyperplasia, disrupted splenic architecture by disseminated mature myeloid cells and infiltration of both myeloid and mononuclear cells into hepatic parenchyma, respectively. In addition, recipient mice for hIL7RA-INS-transduced lin⁻FL cells frequently manifested ruffled fur as well as mononuclear cell infiltration into salivary gland and pericardium, suggesting an autoimmune-like disorder. However, during median follow-up of 11 weeks, these recipient mice did not develop either overt leukemia or lymphoma, indicating that additional transforming events are required for evolution to aggressive hematological malignancies. These in vivo findings highlighted the possibility that aberrant signals via IL7RA in hematopoietic stem/progenitor cells might preferentially stimulate myelopoiesis over lymphopoiesis, and also confirmed the essential role of IL7RA in gamma-delta TCR⁺ T cell development, previously shown by IL7RA-knockout mice. Taken together, we speculated that dysregulated IL7RA signaling axis might be involved in the onset of T-ALL, especially with gamma-delta TCR⁺ phenotype. Finally, the present study, together with the recent report (JEM 208:901, 2011), emphasizes the significance of the sequential Notch-IL7RA pathways in the pathogenesis of T-ALL as well as the dominant role of the IL7RA/Jak1 axis in IL7 proliferative signal.