Endogenous T cells prevent tumor immune escape following adoptive T cell therapy
Scott R. Walsh, … , Brian D. Lichty, Yonghong Wan
Scott R. Walsh, … , Brian D. Lichty, Yonghong Wan
Published November 4, 2019
Citation Information: J Clin Invest. 2019;129(12):5400-5410. https://doi.org/10.1172/JCI126199.
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Research Article

Endogenous T cells prevent tumor immune escape following adoptive T cell therapy

Abstract

While the outcome of adoptive T cell therapy (ACT) is typically correlated with the functionality of the inoculated T cells, the role of the endogenous T cells is unknown. The success of checkpoint blockade therapy has demonstrated the potentially curative value of preexisting tumor-primed T cells in cancer treatment. Given the results from checkpoint blockade therapy, we hypothesized that endogenous T cells contribute to long-term survival following ACT. Here, we describe a therapeutic approach combining ACT with an oncolytic vaccine that allows simultaneous analysis of antitumor immunity mediated by transferred and endogenous T cells. We found that, in addition to promoting the expansion and tumor infiltration of the transferred T cells, oncolytic vaccines boosted tumor-primed host T cells. We determined that transferred T cells contributed to rapid destruction of large tumor masses while endogenous T cells concurrently prevented the emergence of antigen-loss variants. Moreover, while transferred T cells disappeared shortly after tumor regression, endogenous T cells secured long-term memory with a broad repertoire of antigen specificity. Our findings suggest that this combination strategy may exploit the full potential of ACT and tumor-primed host T cells to eliminate the primary tumor, prevent immune escape, and provide long-term protective memory.

Authors

Scott R. Walsh, Boris Simovic, Lan Chen, Donald Bastin, Andrew Nguyen, Kyle Stephenson, Talveer S. Mandur, Jonathan L. Bramson, Brian D. Lichty, Yonghong Wan

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Figure 3

Expansion and persistence of ErkM-reactive CD8+ T cells are influenced by tumor during combination therapy.

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Expansion and persistence of ErkM-reactive CD8+ T cells are influenced b...
(A) Venous blood was collected on the designated dpt. Virus component of combination therapy and frequency of ErkM-specific CD8+ T cell responses were evaluated. (B) Proportion of adoptively transferred versus endogenous cells within the total pool of ErkM-specific CD8+ T cells in circulation was determined by antibodies specific for Thy1.1 (transferred) and Thy1.2 (endogenous) in gated IFN-γ+ cells at the time points indicated. (C) CD8+ T cells collected from blood, spleen, and bone marrow of mice 60 days after CMS5 tumor regression induced by combination therapy were assessed for ErkM specificity. Black dots represent total frequency of ErkM-specific CD8+ T cells, and superimposed gray boxes represent frequency of transferred ErkM-specific CD8+ T cells. (D) Magnitude of ErkM-specific CD8+ T cell responses and (E) frequency of Thy1.1+ T cells in the total pool of ErkM-specific CD8+ T cells in the circulation of TB and TF mice as assessed at time points indicated. (F) Representative flow cytometry profiles of tumor-infiltrating CD8+ T cells costained for Thy1.1 and annexin V on days 4 and 6 after vaccination are shown. Data are representative of results of 3 (A and B) or 2 (CF) independent experiments with n = 5 per group. Data were analyzed using 1-way ANOVA (A), 2-tailed t test (C), or repeated measures 2-way ANOVA with Holm-Šidák correction for multiple comparisons (B, D, and E). *P < 0.05; ***P < 0.001; ****P < 0.0001.