Abstract
Cancer onset and progression involves the accumulation of multiple oncogenic hits, which are thought to dominate or bypass the physiologic regulatory mechanisms in tissue development and homeostasis. We demonstrate in T-cell acute lymphoblastic leukemia (T-ALL) that, irrespective of the complex oncogenic abnormalities underlying tumor progression, experimentally induced, persistent T-cell receptor (TCR) signaling has antileukemic properties and enforces a molecular program resembling thymic negative selection, a major developmental event in normal T-cell development. Using mouse models of T-ALL, we show that induction of TCR signaling by high-affinity self-peptide/MHC or treatment with monoclonal antibodies to the CD3ε chain (anti-CD3) causes massive leukemic cell death. Importantly, anti-CD3 treatment hampered leukemogenesis in mice transplanted with either mouse- or patient-derived T-ALLs. These data provide a strong rationale for targeted therapy based on anti-CD3 treatment of patients with TCR-expressing T-ALL and demonstrate that endogenous developmental checkpoint pathways are amenable to therapeutic intervention in cancer cells. T-ALLs are aggressive malignant lymphoid proliferations of T-cell precursors characterized by high relapse rates and poor prognosis, calling for the search for novel therapeutic options. Here, we report that the lineage-specific TCR/CD3 developmental checkpoint controlling cell death in normal T-cell progenitors remains switchable to induce massive tumor cell apoptosis in T-ALL and is amenable to preclinical therapeutic intervention. Cancer Discov; 6(9); 972-85. ©2016 AACR.See related commentary by Lemonnier and Mak, p. 946This article is highlighted in the In This Issue feature, p. 932.
Highlights
Developmental checkpoints in stem/progenitor cells are critical to their determination, commitment, and differentiation into distinct lineages
These data demonstrate that T-cell receptor (TCR) activation by the cognate peptide– MHC complex results in T-cell acute lymphoblastic leukemia (T-ALL) cell death
T-ALL outcome has improved with current therapies, survival rates remain only around 50% and 70% at 5 years in adult and pediatric T-ALL, respectively [18, 19]
Summary
Developmental checkpoints in stem/progenitor cells are critical to their determination, commitment, and differentiation into distinct lineages. Productive TCRγ and TCRδ rearrangements will determine the assembly of a TCRγδ, a complete productive TCRβ gene rearrangement will first allow surface expression of a pre-TCR complex formed by the assembly of the TCRβ chain with a pre-Tα (pTα) invariant chain. Pre-TCR surface expression is a critical checkpoint for developing αβ T-cell precursors to expand and mature into CD4/CD8 double-positive (DP) cortical thymocytes and for the initiation of Vα–Jα rearrangements. These rearrangements continue until a TCRα chain is formed that can associate with the already formed TCRβ chain to assemble a complete mature TCRαβ at the cell surface [2, 3]. Low-affinity recognition of self-peptide/major histocompatibility complexes (self-pMHC) presented by thymic epithelial cells to the TCR of CD4+CD8+ DP cortical thymocytes transduces positive selection signals and commitment to
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