A therapeutic cancer vaccine delivers antigens and adjuvants to lymphoid tissues using genetically modified T cells
Joshua R. Veatch, … , Scott E. James, Stanley R. Riddell
Joshua R. Veatch, … , Scott E. James, Stanley R. Riddell
Published August 16, 2021
Citation Information: J Clin Invest. 2021;131(16):e144195. https://doi.org/10.1172/JCI144195.
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Research Article Immunology

A therapeutic cancer vaccine delivers antigens and adjuvants to lymphoid tissues using genetically modified T cells

Abstract

Therapeutic vaccines that augment T cell responses to tumor antigens have been limited by poor potency in clinical trials. In contrast, the transfer of T cells modified with foreign transgenes frequently induces potent endogenous T cell responses to epitopes in the transgene product, and these responses are undesirable, because they lead to rejection of the transferred T cells. We sought to harness gene-modified T cells as a vaccine platform and developed cancer vaccines composed of autologous T cells modified with tumor antigens and additional adjuvant signals (Tvax). T cells expressing model antigens and a broad range of tumor neoantigens induced robust and durable T cell responses through cross-presentation of antigens by host DCs. Providing Tvax with signals such as CD80, CD137L, IFN-β, IL-12, GM-CSF, and FLT3L enhanced T cell priming. Coexpression of IL-12 and GM-CSF induced the strongest CD4+ and CD8+ T cell responses through complimentary effects on the recruitment and activation of DCs, mediated by autocrine IL-12 receptor signaling in the Tvax. Therapeutic vaccination with Tvax and adjuvants showed antitumor activity in subcutaneous and metastatic preclinical mouse models. Human T cells modified with neoantigens readily activated specific T cells derived from patients, providing a path for clinical translation of this therapeutic platform in cancer.

Authors

Joshua R. Veatch, Naina Singhi, Shivani Srivastava, Julia L. Szeto, Brenda Jesernig, Sylvia M. Stull, Matthew Fitzgibbon, Megha Sarvothama, Sushma Yechan-Gunja, Scott E. James, Stanley R. Riddell

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Figure 1

Tvax primes and boosts CD8+ T cell responses.

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Tvax primes and boosts CD8+ T cell responses. (A) Schematic of syngeneic...
(A) Schematic of syngeneic Tvax preparation and administration. (B and C) Frequency of OVA-specific CD8+ T cells in mice that received syngeneic Tvax. Cells were gated on CD8+ lymphocytes and stained with H-2Kb-SIINFEKL tetramers using 2 different fluorophores. Mice were injected on day 0 with Tvax cells transduced with retroviral constructs encoding tCD19 fused to an OVA CD8 epitope and an LLO190 CD4 epitope (TvaxOVA-LLO190). Control mice received mock-transduced T cells. OVA-specific T cells were detected after vaccination by staining with a tetramer and are expressed as a percentage of total CD8+ lymphocytes in the blood (n = 10 mice/group). (D) Staining for CD44 and CD62L and the OVA tetramer on CD8+ lymphocytes in peripheral blood 7 days after vaccination. (E) Frequency of CD4+IFN-γ+ T cells in spleens of vaccinated mice and control mice following restimulation with the LLO190 peptide 13 days after vaccination. (F) Expression of the H-2Kb-SIINFEKL epitope on Tvax cells expressing either the OVA CD8+ epitope alone or both the OVA CD8+ and LLO190 CD4+ epitopes, as determined by staining with the H-2Kb-SIINFEKL antibody. (G) OVA tetramer+ T cells in the blood of mice (n = 10) injected with TvaxOVA or TvaxOVA-LLO190. *P < 0.003 for differences between groups, by Mann-Whitney U test.