Abstract
Although mRNA technologies have reinvigorated cancer vaccine development, the identification of strong antigens with consistent tumor cell expression and generation of durable antigen-specific CD8+ T cell memory remain key challenges. We identified the Merkel cell carcinoma (MCC) large T antigen (LTA) as an optimal vaccine target, essential for tumor cell survival and immunogenic in a cancer with high unmet clinical need. We developed an mRNA vaccine to MCC-LTA in murine studies and patient samples. We showed that antigen loss develops rapidly and causes resistance in mouse models when immunogenic, but non-essential antigens are targeted. To improve T cell response durability, we co-encoded LTA and IL-7, co-localizing proliferative and memory signals spatially and temporally with antigen exposure. IL-7-containing mRNA vaccines improved antigen-specific T cell expansion, memory differentiation, and tumor control. We propose that the principles of antigen essentiality and memory signal co-encoding may be adapted to improve the efficacy of mRNA therapeutics.