Abstract 1467: Bioengineering AAV6 vector-based vaccine for cancer treatment

Abstract

Abstract Introduction: Adeno-associated virus (AAV) is a small virus of the parvovirus family and is widely used in clinical-stage gene therapy because of its low toxicity and limited side effects. There are a number of naturally occurring serotypes with different tissue tropism and further engineering of the viral capsid can increase the vectors suitability for use as a cancer vaccine. We recently showed that AAV serotype 6 (AAV6) successfully delivers a transgene to dendritic cells (DC) in vitro. In the present study we analyze several rationally designed AAV6 mutants to more efficiently target DC and further increase an antigen-specific immune response. Methods: AAV6 mutants encoding ovalbumin, tyrosinase, or GFP were developed and produced in the lab by standard procedure. Vaccination was performed as a single intramuscular (i.m.) injection in C57BL/6 mice. The immune response was measured against both ovalbumin (Ova) as a model antigen and tyrosinase (Tyr) as an endogenous antigen. The Ova-specific CD8 T-cells were identified in peripheral blood and splenocytes by binding epitope-specific tetramers. Activity of antigen-specific CD8 cells was estimated by IFNy production measured by ELISpot, and by in vivo and in vitro killing assays. A humoral response was analyzed by the presence of antigen-specific antibodies in mouse serum measured by ELISA or by Western Blotting. Vaccination with GFP was used to show direct antigen expression in DC. Briefly, 3 days after i.m. injection DC from drained lymph nodes were isolated by FACS (CD11c+/MHC II+) and the presence of GFP expression was analyzed by wide-field fluorescence microscopy. Results: Several significant observations were made: (i) optimized AAV6 directly targets DC in vivo as evidenced by the presence of GFP positive DC in mouse drained lymph nodes after i.m. injection with AAV6-GFP; (ii) AAV6 vectors induced a strong immune response not only against a strong immunogen such as Ova but also against a weak endogenous antigen such as Tyr. (iii) Transgene-specific cytotoxic CD8 T- cells showed superior killing capabilities against cancer cells in vitro and in cytotoxic assay in vivo. (iv) AAV6 based vaccine generates high transgene-specific antibodies titers detectable starting 3 weeks after injection. Our data allows us to choose the AAV6 mutant with superior capacity to induce an immune response against a transgene. As a future direction we will optimize the expression cassette to directly rout an antigen into the MHC class II processing and presentation pathway which is known to dramatically increase vaccine potency. The combination of optimized AAV capsid and expression cassette will be used to confirm an ability of our vaccine approach to reduce tumor growth and extend survival in a murine tumor model. In addition, our technology is highly compatible with, and complementary to current cancer treatments, including other immunotherapy approaches such as checkpoint (PD-1/PD-L1) inhibitors. Citation Format: Karina Krotova, Andrew Day, Edward Hinchcliffe, George Aslanidi. Bioengineering AAV6 vector-based vaccine for cancer treatment [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1467.