Abstract 1586: Oncolytic virus HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 promotes systemic anti-tumor responses and cooperates with immuno-modulatory agents in multiple mouse syngeneic tumor models

Abstract

Abstract Oncolytic virotherapy is an emerging treatment modality that may hold promise as a therapeutic option for cancer patients who do not respond to checkpoint inhibitors. Oncolytic viruses preferentially replicate in tumor cells, offer the ability to express transgenes and have been shown to modify the local and distant tumor microenvironments from immunosuppressive to immunostimulatory. We generated HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12, an oncolytic virus based on a modified herpes simplex virus type 1 (HSV-1) designed to selectively replicate in tumors and produce murine FMS-like tyrosine kinase 3 ligand (mFLT3L) to enhance dendritic cell expansion and T cell priming, and murine interleukin-12 (mIL12) to potentiate type I helper and cytotoxic T cell responses. We confirmed the expression and bioactivity of mFLT3L and mIL12 in vitro and evaluated the efficacy of HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 alone and in combination with anti-PD-1 or anti-4-1BB treatment in multiple syngeneic mouse tumor models. Bilateral tumor models were used and only one tumor was treated via intratumoral injection with HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12. Anti-tumor responses were evaluated in the injected tumor (local response), the uninjected tumor (abscopal) and via splenic immune profiling (systemic). HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 treatment alone led to tumor growth inhibition in both treated and contralateral tumors, and a significant increase in overall survival in the A20, Neuro2a and MC38 models. HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 in combination with anti-PD-1 blocking antibody further improved tumor growth inhibition in both treated and contralateral tumors in the MC38 syngeneic model, and significantly increased median overall survival compared to either agent as a monotherapy. In addition, HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 in combination with an agonistic antibody targeting 4-1BB significantly increased overall survival compared to either agent as a monotherapy in the MC38 model. To understand antigen-specific anti-tumor T cell responses, MC38 tumor antigen epitopes were identified by combining exome sequencing and MHC/HLA-binding prediction algorithms. Antigen-specific T cell responses were measured in an IFN-γ ELISPOT assay using splenocytes from treated mice. HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 induced and/or enhanced systemic T cell responses directed against both tumor neoantigens and tumor-associated antigens. Together, these data reveal that treatment with HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 can cause direct tumor lysis and induce an adaptive, systemic T cell-mediated anti-tumor immune response that can be further enhanced by concurrent PD-1 blockade or 4-1BB agonism in multiple syngeneic mouse tumor models. Citation Format: Keegan Cooke, Walter H. Meisen, Petia Mitchell, Juan Estrada, Jinghui Zhan, Jessica Orf, Peng Li, Christina de Zafra, Jing Qing, Jason DeVoss. Oncolytic virus HSV-1/ICP34.5-/ICP47-/mFLT3L/mIL12 promotes systemic anti-tumor responses and cooperates with immuno-modulatory agents in multiple mouse syngeneic tumor models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1586.