Abstract
Relapse remains challenging in the treatment of metastatic cancers. More than 50% of human cancers harbor mutant p53 (mp53) as a cancer-specific target. We present the spontaneously metastasizing tumor model Ag104A to advance mp53-specific T cell receptor engineered T cell therapy (TCR-therapy). We identified in Ag104A an autochthonous p53(D256E) mutation as neoantigen recognized by a TCR isolated from CD8(+) T cells (CD8TCR). Cloning of the Ag104A cancer revealed mp53 expression in >99% of cancer cells. Targeting mp53 by CD8TCR-therapy was initially therapeutic, but tumors escaped as cancer cells with reduced or lack of antigen expression. Therefore, we determined whether escape could be prevented by combining the mp53-specific CD8TCR with a CD4(+) T cell-derived TCR (CD4TCR) recognizing a mutant antigen presented on the stroma of the cancer. No relapse occurred when the mp53-specific CD8TCR was combined with the stroma-recognizing CD4TCR. The combination therapy also prevented the development of macrometastases from cancer cells that had already spread to the lung at the time of TCR-therapy. Macrometastases were only observed after monotherapy. Thus, in a spontaneously metastatic model, tumor relapse and development of macrometastases can be prevented by combining a CD8TCR targeting an autochthonous p53-mutation with a mutation-specific CD4TCR recognizing tumor stroma.