PLoS ONE (Jan 2017)

Transfer of in vitro-expanded naïve T cells after lymphodepletion enhances antitumor immunity through the induction of polyclonal antitumor effector T cells.

  • Tomohiro Tanaka,
  • Satoshi Watanabe,
  • Miho Takahashi,
  • Ko Sato,
  • Yu Saida,
  • Junko Baba,
  • Masashi Arita,
  • Miyuki Sato,
  • Aya Ohtsubo,
  • Satoshi Shoji,
  • Koichiro Nozaki,
  • Kosuke Ichikawa,
  • Rie Kondo,
  • Nobumasa Aoki,
  • Yasuyoshi Ohshima,
  • Takuro Sakagami,
  • Tetsuya Abe,
  • Hiroshi Moro,
  • Toshiyuki Koya,
  • Junta Tanaka,
  • Hiroshi Kagamu,
  • Hirohisa Yoshizawa,
  • Toshiaki Kikuchi

DOI
https://doi.org/10.1371/journal.pone.0183976
Journal volume & issue
Vol. 12, no. 8
p. e0183976

Abstract

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The adoptive transfer of effector T cells combined with lymphodepletion has demonstrated promising antitumor effects in mice and humans, although the availability of tumor-specific T cells is limited. We and others have also demonstrated that the transfer of polyclonal naïve T cells induces tumor-specific effector T cells and enhances antitumor immunity after lymphodepletion. Because tumors have been demonstrated to induce immunosuppressive networks and regulate the function of T cells, obtaining a sufficient number of fully functional naïve T cells that are able to differentiate into tumor-specific effector T cells remains difficult. To establish culture methods to obtain a large number of polyclonal T cells that are capable of differentiating into tumor-specific effector T cells, naïve T cells were activated with anti-CD3 mAbs in vitro. These cells were stimulated with IL-2 and IL-7 for the CD8 subset or with IL-7 and IL-23 for the CD4 subset. Transfer of these hyperexpanded T cells after lymphodepletion showed significant antitumor efficacy, and tumor-specific effector T cells were primed from these expanded T cells in tumor-bearing hosts. Moreover, these ex vivo-expanded T cells maintained T cell receptor diversity and showed long-term persistence of memory against specific tumors. Further analyses revealed that combination therapy consisting of vaccination with dendritic cells that were co-cultured with irradiated whole tumor cells and the transfer of ex vivo-expanded T cells significantly enhanced antitumor immunity. These results indicate that the transfer of ex vivo-expanded polyclonal T cells can be combined with other immunotherapies and augment antitumor effects.