The subcellular location of antigen expressed by adenoviral vectors modifies adaptive immunity but not dependency on cross-presenting dendritic cells

Abstract

Adenoviral (Ad) vaccine vectors can generate protective immunity to various pathogens in animal studies. However, recent failures in clinical vaccine trials have underscored the need for a better understanding of how mucosal immune responses to Ad-encoded vaccine Ags are generated in vivo. In this study, we addressed whether directing Ad-encoded ovalbumin (OVA) to different subcellular compartments influences the generation of OVA-specific acquired immunity and the APCs required following i.n. immunization of mice. We show that both secreted and membrane-anchored OVA activate CD4(+) T cells, induce cytotoxic CD8(+) T lymphocytes (CTLs) and generate serum IgG. Additionally, vaginal IgG is induced when OVA is expressed at these subcellular locations, but only the secreted form generates a significant IgA response in the lungs. On the contrary, intracellular expression of OVA efficiently expands CD8(+) T cells but fails to activate CD4(+) T cells, results in poor CTL activity, and does not generate Abs. Finally, we show that regardless of the subcellular localization of OVA, conventional DCs (cDCs) are required for the activation of T cells. However, the direct transduction of conventional DCs is not essential. These findings have important implications for the improvement of Ad vector design and vaccine-induced mucosal immunity.