TCR-dependent transformation of mature memory phenotype T cells in mice
Xi Wang, Miriam B.F. Werneck, Boris G. Wilson, Hye-Jung Kim, Michael J. Kluk, Christopher S. Thom, Jonathan W. Wischhusen, Julia A. Evans, Jonathan L. Jesneck, Phuong Nguyen, Courtney G. Sansam, Harvey Cantor, Charles W.M. Roberts
Xi Wang, Miriam B.F. Werneck, Boris G. Wilson, Hye-Jung Kim, Michael J. Kluk, Christopher S. Thom, Jonathan W. Wischhusen, Julia A. Evans, Jonathan L. Jesneck, Phuong Nguyen, Courtney G. Sansam, Harvey Cantor, Charles W.M. Roberts
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Research Article Hematology

TCR-dependent transformation of mature memory phenotype T cells in mice

Abstract

A fundamental goal in cancer research is the identification of the cell types and signaling pathways capable of initiating and sustaining tumor growth, as this has the potential to reveal therapeutic targets. Stem and progenitor cells have been implicated in the genesis of select lymphoid malignancies. However, the identity of the cells in which mature lymphoid neoplasms are initiated remains unclear. Here, we investigate the origin of peripheral T cell lymphomas using mice in which Snf5, a chromatin remodelling–complex subunit with tumor suppressor activity, could be conditionally inactivated in developing T cells. In this model of mature peripheral T cell lymphomas, the cell of origin was a mature CD44hiCD122loCD8+ T cell that resembled a subset of memory cells that has capacity for self-renewal and robust expansion, features shared with stem cells. Further analysis showed that Snf5 loss led to activation of a Myc-driven signaling network and stem cell transcriptional program. Finally, lymphomagenesis and lymphoma proliferation depended upon TCR signaling, establishing what we believe to be a new paradigm for lymphoid malignancy growth. These findings suggest that the self-renewal and robust proliferative capacities of memory T cells are associated with vulnerability to oncogenic transformation. Our findings further suggest that agents that impinge upon TCR signaling may represent an effective therapeutic modality for this class of lethal human cancers.

Authors

Xi Wang, Miriam B.F. Werneck, Boris G. Wilson, Hye-Jung Kim, Michael J. Kluk, Christopher S. Thom, Jonathan W. Wischhusen, Julia A. Evans, Jonathan L. Jesneck, Phuong Nguyen, Courtney G. Sansam, Harvey Cantor, Charles W.M. Roberts

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Figure 7

Blockade of TCR signaling leads to growth arrest of Snf5-deficient lymphoma cells.

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Blockade of TCR signaling leads to growth arrest of Snf5-deficient lymph...
(A) CD8-enriched cells from Lck-Cre Snf5+/+ mice (indicated as Snf5 WT CD8 T) or tumor-bearing Lck-Cre Snf5fl/fl mice (indicated as Snf5–/– lymphoma) were stimulated for 60 hours in vitro in increasing numbers in the presence of syngeneic APCs. Proliferation was measured by 3H-Thymidine incorporation. (B) The Snf5-deficient lymphoma cell line was cultured for 2 days or 5 days in vitro in the presence of 1 μg/ml anti-CD8α or isotype control. Proliferation was measured by 3H-Thymine incorporation. (C) The Snf5-deficient lymphoma cell line or a control cell line was cultured for 5 days in vitro in the presence or absence of 5 μg/ml CsA. Proliferation was measured by 3H-Thymine incorporation. (D) The Snf5–/– lymphoma cell line was cultured for 5 days in vitro in the presence of 1 μg/ml anti-CD8α and 5 μg/ml CsA. Proliferation was measured by 3H-Thymine incorporation. (E) Tumor-free survival of sublethally irradiated B6 or MHC class I–deficient Kb–/–Db–/– mice after intravenous transfer of 106 CD8-enriched cells from tumor-bearing Lck-Cre Snf5fl/fl mice.