Abstract
Personalized treatment has become a realistic option for tumor patients, accelerated by significantly reduced sequencing costs of tumor genomes and advances in vaccine formulations. The druggability of cancer neo-antigens caused by individual mutations is centered in this effort. We here use an adeno-associated virus (AAV)-based virus-like particle (VLP) platform to compose a neo-antigen-specific protein vaccine that is effective in a murine prevention and treatment setting. Furthermore, we show that CD4+ T cell responses that are provided by the AAV capsid are crucial for effective murine melanoma treatment. To uncover the optimal composition of a peptide vaccine we de-linked major histocompatibility complex (MHC) class II helper peptides from the capsid and formulated an efficient neo-antigen-specific vaccine, which showed the independence of CD4+ T cell response from tumor sequences. The findings are supported by clinical data of neo-antigen-vaccinated tumor patients. Our results punctuate on the significance of MHC class II epitopes for CD8+ T cell responses and suggest a future use of AAVLPs as neo-epitope vaccines in personalized cancer treatments.
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Neukirch, L., Uhrig-Schmidt, S., von Werthern, K., Tuch, A., Kraske, J. A., Lyu, Y., … Schmidt, P. (2025). Neo-antigen tumor vaccination depends on CD4-licensing conveyed by adeno-associated virus like particles. Molecular Therapy, 33(10), 5003–5016. https://doi.org/10.1016/j.ymthe.2025.07.014
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