Loss of thymocyte competition underlies the tumor suppressive functions of the E2a transcription factor in T-ALL

Geoffrey Parriott, Emma Hegermiller, Rosemary E. Morman, Cameron Frank, Caner Saygin, Wendy Stock, Elizabeth T. Bartom, Barbara L. Kee*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

T lymphocyte acute lymphoblastic leukemia (T-ALL) is frequently associated with increased expression of the E protein transcription factor inhibitors TAL1 and LYL1. In mouse models, ectopic expression of TAL1 or LYL1 in T cell progenitors, or inactivation of E2A, is sufficient to predispose mice to develop T-ALL. How E2A suppresses thymocyte transformation is currently unknown. Here, we show that early deletion of E2a, prior to the DN3 stage, was required for robust leukemogenesis and was associated with alterations in thymus cellularity, T cell differentiation, and gene expression in immature CD4+CD8+ thymocytes. Introduction of wild-type thymocytes into mice with early deletion of E2a prevented leukemogenesis, or delayed disease onset, and impacted the expression of multiple genes associated with transformation and genome instability. Our data indicate that E2A suppresses leukemogenesis by promoting T cell development and enforcing inter-thymocyte competition, a mechanism that is emerging as a safeguard against thymocyte transformation. These studies have implications for understanding how multiple essential regulators of T cell development suppress T-ALL and support the hypothesis that thymocyte competition suppresses leukemogenesis.

Original languageEnglish (US)
Pages (from-to)491-501
Number of pages11
JournalLeukemia
Volume38
Issue number3
DOIs
StatePublished - Mar 2024

Funding

We thank members of the Kee laboratory, S. Dias, and A. Melnick for helpful discussions and S. Liang for technical assistance. We thank the University of Chicago Genomics Facility (RRID: SCR_019196) and Cytometry and Antibody Technology Facility (RRID: SCR_017760). This work was funded by the National Institutes of Health grants R21 AI119894, R01 AI107213, the Janet Rowley Fund from the University of Chicago Comprehensive Cancer Center, and a Team Science award from the Biological Science Division of the University of Chicago to BLK. GP was supported by T32 AI007090. The University of Chicago Genomics Facility and Cytometry and Antibody Technology Facility receive financial support from the Cancer Center Support Grant (P30 CA014599), and the Animal Resource Center.

ASJC Scopus subject areas

  • Hematology
  • Oncology
  • Cancer Research

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