Abstract
Adoptive T-cell transfer (ACT) is successfully applied as a cancer treatment that is based on the activation and effector functions of tumor-specific T cells. Here, we present results from a mouse model in which ACT is combined with a long peptide-based vaccine comprising gp100 T-cell epitopes. Transferred CD8(+) T cells expanded up to 1,000-fold after peptide vaccination, leading to a 3-fold increase in white blood cell count and a very high frequency in the generation of antigen-specific memory T cells, the generation of which tended to correlate with effective antitumor responses. An enormous pool of effector T cells spread widely to different tissues, including the skin and the immune-privileged eye, where they mediate tumor eradication. Importantly, these striking T-cell dynamics occurred in immunocompetent mice without prior hematologic conditioning. Continued activation of the specific T-cell pool by vaccination led to strong T-cell-mediated cytokine storm and lethality due to multi-organ failure. However, this immunopathology could be prevented by controlling the rapid biodistribution of the peptide or by using a weakly agonistic peptide. Together, these results identify a peptide vaccination strategy that can potently accentuate effective ACT in non-lymphodepleted hosts.
Highlights
Adoptive cell transfer (ACT) with tumor-specific T cells is successfully applied in patients with post-transplant lymphoproliferative disease, leukemia, and melanoma [1,2,3]
Immunization with a 20-amino-acid long peptide comprising the human version of the gp10025–33 CTL epitope activated melanocyte-specific T cells from the endogenous T-cell repertoire but failed to control the outgrowth of B16 melanomas [14]
We analyzed the effects of peptide vaccination after adoptive transfer of gp10025–33–specific T-cell receptor (TCR)-transgenic pmel T cells
Summary
Adoptive cell transfer (ACT) with tumor-specific T cells is successfully applied in patients with post-transplant lymphoproliferative disease, leukemia, and melanoma [1,2,3]. Long peptides comprising the melanoma gp10025–33 epitope were applied to activate adoptively transferred T cells in vivo. At day 5, when the melanoma was established, treatment with pmel T cells and peptide vaccination was started.
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