Abstract 1387: High-dimensional analysis of T cell responses to mutant neoantigens and nonmutant antigens in mouse models of melanoma

Abstract

Abstract Effective cancer immunotherapy, such as immune checkpoint therapy (ICT) [e.g., anti-CTLA-4 and anti-PD-1/PD-L1], is dependent on T cell recognition of tumor antigens presented on major histocompatibility complex (MHC) and leads to durable responses in certain cancer patients. Recent advances have facilitated identification of tumor mutant neoantigens and led to efforts to develop effective personalized neoantigen cancer vaccines. However, little is known about how expression of multiple neoantigens with variable peptide-MHC (pMHC) binding or TCR affinity/avidity affects T cell responses to both discrete neoantigens and shared non-mutant antigens, and if the localization of T cells with distinctive pMHC specificity differs within the tumor. To address this, we genetically introduced multiple combinations of MHC-I and MHC-II neoantigens in the poorly immunogenic Brafv600e Pten-/- Cdkn2a-/- YUMM1.7 (Y1.7) mouse melanoma line that contains a paucity of neoantigens. We expressed neoantigens previously found in a mouse sarcoma line of the same MHC haplotype as Y1.7. The MHC-I neoantigens used were formed by G1254V mutation in Laminin alpha subunit-4 (Lama4) and A506T mutation in the Asparagine-linked glycosylation 8 (Alg8) and the MHC-II neoantigen was formed by A710T mutation in Integrin beta-1 (Itgb1). We generated Y1.7 lines expressing minigenes for mLama4, mAlg8, or mLama4 + mAlg8 MHC-I neoantigens. All three lines also expressed the mItgb1 MHC-II neoantigen. Whereas ICT-treated mice bearing the parental Y1.7 melanoma line showed rapid tumor growth, modified Y1.7 lines expressing mLama4 and/or mAlg8 plus mItgb1 were rendered sensitive to ICT. Tumors expressing mLama4 and/or mAlg8 contained mLama4- and/or mAlg8-specific CD8+ T cells, respectively. Preliminary analysis revealed expression of either MHC-I neoantigen alters the frequency of CD8+ T cells specific for non-mutant endogenous antigens in Y1.7. Interestingly, therapeutic synthetic long-peptide (SLP) vaccines incorporating mLama4 and/or mAlg8 neoantigens plus poly I:C induced tumor rejection comparable to ICT. Moreover, SLP vaccines amplified intratumoral mLama4- and mAlg8-specific CD8+ T cells, as well as in tumor-draining lymph nodes, where these neoantigen-specific CD8+ T cells were found to express IFN-γ. During either vaccination or ICT, CD8+ T cell response to mLama4 was higher than that to mAlg8 when both neoantigens were co-expressed. Altogether, these melanoma models will enable us to determine whether expression of one or more MHC-I neoantigens influences CD8+ T cell responses to both distinct neoantigens and non-mutant antigens (e.g., gp100, Trp2) during ICT and SLP vaccination. Furthermore, high-dimensional analyses approaches including scRNA-seq. and CODEX imaging are ongoing and will facilitate development of improved immunotherapies and may help uncover novel biomarkers of response. Citation Format: Sunita Keshari, Charmelle D. Williams, Elizabeth D. Sanchez, Alexander S. Shavkunov, Matthew M. Gubin. High-dimensional analysis of T cell responses to mutant neoantigens and nonmutant antigens in mouse models of 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 1387.