Therapy with multi-epitope virus-like particles of B19 parvovirus reduce tumor growth and lung metastasis in an aggressive breast cancer mouse model

Abstract

Triple-negative breast cancer is a major health problem that lacks molecular targets for therapy. Neoepitopes represent a viable option to induce antitumor immune responses, but they have limitations, such as low immunogenicity and tolerance induction. Parvovirus B19 virus-like particles may be used to deliver neoepitopes to prime cellular immunity. We designed and evaluated the therapeutic effect of VP2 B19-virus-like particles, with multi-neoepitopes, in a 4T1 breast cancer model. Balb/c mice received four therapeutic immunizations with multi-neoepitopes-virus-like, wild type-virus-like, vehicle, or virus-like plus Cry1Ac adjuvant particles, intraperitoneally and peritumorally. Tumor growth, lung macro-metastasis, and specific immune responses were evaluated. Therapeutic administration of multi-epitopes virus-like particles significantly delayed tumor growth and decreased the lung macro-metastasis number, in comparison to treatment with wild type-virus-like particles, which surprisingly also elicited antitumoral effects that were improved with the adjuvant. Only treatments with multi-epitope virus-like particles induced specific proliferative responses of CD8 and CD4 T lymphocytes and Granzyme-B production in lymphatic nodes local to the tumor. Treatment with recombinant multiple neoepitopes-virus-like particles induced specific cellular responses, inhibited tumor growth and macro-metastasis, thus B19-virus-like particles may function as an effective delivery system for neoepitopes for personalized immunotherapy.