Leukemia development initiated by deletion of RBP-J: mouse strain, deletion efficiency, and cell of origin

Abstract

Conditional deletion of RBP-J, the major transcriptional effector of Notch signaling, specifically within renin-expressing cells leads to the development of B cell leukemia. However, the influence of contributing factors such as mouse strain, cell of origin, and cre recombinase copy number are unknown. In this study, we compared RBP-J deletion efficiency using 1 versus 2 copies of cre recombinase. Further, we compared the incidence and timing of leukemia development in two unique strains of mice, C57BL/6 and 129/Sv, as well as at different B cell developmental stages. We found that animals expressing 2 copies of cre recombinase developed B cell leukemia at an earlier age and with more fulminant disease. In addition, we found a difference in leukemia incidence between C57BL/6 and 129/SV mouse strains. Whereas deletion of RBP-J in renin-expressing cells of C57BL/6 mice leads to the development of B cell leukemia, 129/SV mice develop dermatitis with a reactive, myeloproliferative phenotype. The difference in phenotypes is explained in part by the differential expression of extra-renal renin; C57BL/6 mice have more renin-expressing cells within hematopoietic tissues. Finally, we found that deletion of RBP-J in Mb1- or CD19-expressing B lymphocytes does not result in leukemia development. Together, these studies establish that renin progenitors are vulnerable cells for neoplastic transformation and emphasize the importance of genetic background on the development of inflammatory and malignant conditions.