Abstract 1569: Multivalent melanoma vaccine using primary human melanoma cells and a vaccinia virus based antigen retrieval system

Abstract

Abstract Melanoma is the fifth most diagnosed cancer in men and seventh most diagnosed cancer in women and it is estimated that there will be over 70,000 new cases and 8,000 deaths in 2011. Prevention of both primary and secondary melanomas requires the development of a melanoma specific multi-valent vaccine. We have been involved in developing a vaccinia virus based vaccine consisting of melanoma cell membrane antigens and integrated vaccinia viral proteins, which serve as a potent adjuvant. This melanoma vaccine, referred to as viral membrane oncolysate (VMO), is composed of five primary cell lines derived from patient tumors each independently infected with vaccinia virus and has been shown to induce anti-cancer immune response in clinical trials. Notable results were obtained in node positive subsets of patients that showed a positive response in survival distribution function suggesting that this preparation is an active therapeutic immunogen but the mechanism of immune activation needs to be elucidated. In order for us to define the immunogens that impart the clinical efficacy of the this melanoma VMO vaccine, it is essential to characterize the primary cell lines with respect to their phenotypic characteristics as well as to define the melanoma antigen repertoire so that effective vaccine strategies can be designed that do not rely exclusively on tumor derived primary cells. Our study reveals that all the five primary cell lines expressed antigens, such as gp100, CD146, and tyrosinase, similar to several commercially available melanoma cell lines although at varying concentrations. In addition, the five primary cell lines demonstrated varying migratory/invasive properties using a Boyden Chamber assay and their tumorigenic potential is being tested in nude mice. The cells were also characterized with respect to BRAF mutations. We observed several similarities between the antigenic profile of the primary and established cell lines as well as some unique characteristics. We conclude that using a combination of defined antigens from primary tumor cells is useful in designing a pan-antigen immunotherapeutic vaccine. This melanoma pan antigen vaccine can be an effective tool in primary prevention of melanoma presumably having the highest clinical efficacy when combined with unique antigens from primary cells. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 1569. doi:1538-7445.AM2012-1569