Local Delivery of OncoVEX Generates Systemic Antitumor Immune Responses Enhanced by Cytotoxic T-Lymphocyte-Associated Protein Blockade.

Talimogene laherparepvec, a new oncolytic immunotherapy, has been recently approved for the treatment of melanoma. Using a murine version of the virus, we characterized local and systemic antitumor immune responses driving efficacy in murine syngeneic models. The activity of talimogene laherparepvec was characterized against melanoma cell lines using an viability assay. Efficacy of OncoVEX (talimogene laherparepvec with the mouse granulocyte-macrophage colony-stimulating factor transgene) alone or in combination with checkpoint blockade was characterized in A20 and CT-26 contralateral murine tumor models. CD8 depletion, adoptive T-cell transfers, and Enzyme-Linked ImmunoSpot assays were used to study the mechanism of action (MOA) of systemic immune responses. Treatment with OncoVEX cured all injected A20 tumors and half of contralateral tumors. Viral presence was limited to injected tumors and was not responsible for systemic efficacy. A significant increase in T cells (CD3/CD8) was observed in injected and contralateral tumors at 168 hours. analyses showed these cytotoxic T lymphocytes were tumor-specific. Increased neutrophils, monocytes, and chemokines were observed in injected tumors only. Importantly, depletion of CD8 T cells abolished all systemic efficacy and significantly decreased local efficacy. In addition, immune cell transfer from OncoVEX-cured mice significantly protected from tumor challenge. Finally, combination of OncoVEX and checkpoint blockade resulted in increased tumor-specific CD8 anti-AH1 T cells and systemic efficacy. The data support a dual MOA for OncoVEX that involves direct oncolysis of injected tumors and activation of a CD8-dependent systemic response that clears injected and contralateral tumors when combined with checkpoint inhibition. .