Transient stimulation expands superior antitumor T cells for adoptive therapy
Yuki Kagoya, Munehide Nakatsugawa, Toshiki Ochi, Yuchen Cen, Tingxi Guo, Mark Anczurowski, Kayoko Saso, Marcus O. Butler, Naoto Hirano
Yuki Kagoya, Munehide Nakatsugawa, Toshiki Ochi, Yuchen Cen, Tingxi Guo, Mark Anczurowski, Kayoko Saso, Marcus O. Butler, Naoto Hirano
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Research Article Immunology

Transient stimulation expands superior antitumor T cells for adoptive therapy

Abstract

Adoptive cell therapy is a potentially curative therapeutic approach for patients with cancer. In this treatment modality, antitumor T cells are exponentially expanded in vitro prior to infusion. Importantly, the results of recent clinical trials suggest that the quality of expanded T cells critically affects their therapeutic efficacy. Although anti-CD3 mAb-based stimulation is widely used to expand T cells in vitro, a protocol to generate T cell grafts for optimal adoptive therapy has yet to be established. In this study, we investigated the differences between T cell stimulation mediated by anti–CD3/CD28 mAb–coated beads and cell-based artificial antigen-presenting cells (aAPCs) expressing CD3/CD28 counter-receptors. We found that transient stimulation with cell-based aAPCs, but not prolonged stimulation with beads, resulted in the superior expansion of CD8+ T cells. Transiently stimulated CD8+ T cells maintained a stem cell–like memory phenotype and were capable of secreting multiple cytokines significantly more efficiently than chronically stimulated T cells. Importantly, the chimeric antigen receptor–engineered antitumor CD8+ T cells expanded via transient stimulation demonstrated superior persistence and antitumor responses in adoptive immunotherapy mouse models. These results suggest that restrained stimulation is critical for generating T cell grafts for optimal adoptive immunotherapy for cancer.

Authors

Yuki Kagoya, Munehide Nakatsugawa, Toshiki Ochi, Yuchen Cen, Tingxi Guo, Mark Anczurowski, Kayoko Saso, Marcus O. Butler, Naoto Hirano

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Figure 2

Transient stimulation provides superior proliferative signals for CD8+ T cells.

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Transient stimulation provides superior proliferative signals for CD8+ T...
(A) Frequency of live artificial antigen-presenting cells that express a membrane-bound form of anti-CD3 mAb (clone OKT3) and the costimulatory molecules CD80 and CD83 (aAPC/mOKT3) at 24, 48, 72, and 96 hours after coculture with T cells at an effector/target ratio of 5:1 (n = 4). (B) Mean fluorescence intensity (MFI) of CD69 in CD4+ and CD8+ T cells at the indicated time points following stimulation with anti–CD3/CD28 beads or aAPC/mOKT3 (n = 4, paired t test). (C) CD3+ T cells were stimulated with anti–CD3/CD28 beads. The beads were removed or kept in culture the following day. The MFI of CD3 normalized to the day-0 value at the indicated time points is shown (n = 4, paired t test). (DF) CD3+ T cells were stimulated with anti–CD3/CD28 beads or aAPC/mOKT3. The beads were removed on day 1 or kept in the culture media. The MFI of CD69 on day 6 (D) and carboxyfluorescein succinimidyl ester (CFSE) on day 5 (E), and frequency of dead cells on day 5 (F) in CD8+ T cells were analyzed by flow cytometry (n = 4, paired ANOVA). (G) CD3+ T cells were stimulated as indicated in the graph. Fold expansion of CD4+ and CD8+ T cells was calculated 14 days following stimulation (n = 7, paired ANOVA). (H) CD3+ T cells were stimulated with anti–CD3/CD28 beads. The beads were removed on day 1, 3, or 5 or kept in culture, and the proliferation of CD4+ and CD8+ T cells was analyzed 14 days following stimulation (n = 7, paired ANOVA). *P < 0.05, **P < 0.01.