Browsing by Author "Li, LiQi"

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    Ldb1 is required for Lmo2 oncogene–induced thymocyte self-renewal and T-cell acute lymphoblastic leukemia
    (American Society of Hematology, 2020-06-18) Li, LiQi; Mitra, Apratim; Cui, Kairong; Zhao, Bin; Choi, Seeyoung; Lee, Jan Y.; Stamos, Daniel B.; El-Khoury, Dalal; Warzecha, Claude; Pfeifer, Karl; Hardwick, Joyce; Zhao, Keji; Venters, Bryan; Davé, Utpal P.; Love, Paul E.; Medicine, School of Medicine
    Prolonged or enhanced expression of the proto-oncogene Lmo2 is associated with a severe form of T-cell acute lymphoblastic leukemia (T-ALL), designated early T-cell precursor ALL, which is characterized by the aberrant self-renewal and subsequent oncogenic transformation of immature thymocytes. It has been suggested that Lmo2 exerts these effects by functioning as component of a multi-subunit transcription complex that includes the ubiquitous adapter Ldb1 along with b-HLH and/or GATA family transcription factors; however, direct experimental evidence for this mechanism is lacking. In this study, we investigated the importance of Ldb1 for Lmo2-induced T-ALL by conditional deletion of Ldb1 in thymocytes in an Lmo2 transgenic mouse model of T-ALL. Our results identify a critical requirement for Ldb1 in Lmo2-induced thymocyte self-renewal and thymocyte radiation resistance and for the transition of preleukemic thymocytes to overt T-ALL. Moreover, Ldb1 was also required for acquisition of the aberrant preleukemic ETP gene expression signature in immature Lmo2 transgenic thymocytes. Co-binding of Ldb1 and Lmo2 was detected at the promoters of key upregulated T-ALL driver genes (Hhex, Lyl1, and Nfe2) in preleukemic Lmo2 transgenic thymocytes, and binding of both Ldb1 and Lmo2 at these sites was reduced following Cre-mediated deletion of Ldb1. Together, these results identify a key role for Ldb1, a nonproto-oncogene, in T-ALL and support a model in which Lmo2-induced T-ALL results from failure to downregulate Ldb1/Lmo2-nucleated transcription complexes which normally function to enforce self-renewal in bone marrow hematopoietic progenitors.