Abstract 3298: Propagation competence of a self-antigen-targeting arenavirus vector based cancer therapy determines antitumor efficacy in mouse melanoma

Abstract

Abstract Breaking self-tolerance and inducing a robust immune response targeting tumor cell derived self-antigens by therapeutic vaccines has remained challenging. We have generated a replicating viral vector based on the arenavirus lymphocytic choriomeningitis virus expressing the melanoma tissue-specific self-antigen Trp2 (artLCMV-Trp2) and show that a single immunization of mice bearing established melanoma with this vector can break tolerance against this self antigen and induces high levels of tumor-infiltrating TRP2+ CD8+ T cells. These T cells express the effector cytokines IFNγ and TNFα, lack markers of T cell exhaustion, and their appearance coincides with marked inhibition of tumor growth and significant survival benefit. artLCMV-TRP2 induced a strong type I interferon response that resulted in transient type I-dependent Treg inhibition that was necessary for the generation of optimal antitumoral T cell responses. Moreover, artLCMV-TRP2 vaccination proved able to induce complete tumor remission when combined with infusion of exogenous TRP2-specific T cells into mice. In conclusion, replication competence is a key property of artLCMV-TRP2 that enabled effective anti-cancer immunity and therapeutic effect. Citation Format: Mette-Triin Purde, Fabienne Hartmann, Jovana Cupovic, Sarah Schmidt, David Bomze, Felix Stemeseder, Alexander Lercher, Lenka Besse, Fiamma Berner, Thomas Tüting, Andreas Bergthaler, Andrea Schietinger, Stefan Kochanek, Burkhard Ludewig, Klaus K. Orlinger, Tobias Bald, Sandra S. Ring, Lukas Flatz. Propagation competence of a self-antigen-targeting arenavirus vector based cancer therapy determines antitumor efficacy in mouse melanoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3298.