Single-Cycle Adenoviruses (SC-Ads) as Platforms for Immunostimulation

Abstract

Abstract Most adenovirus vaccines are replication-defective RD-Ads. In contrast, replication-competent adenovirus (RC-Ad) replicate antigen genes 10,000-fold in each cell to amplify immune responses. While RC-Ads vaccines are more potent than RD-Ad, they risk causing adenovirus infections in humans. We engineered “single-cycle” Ad (SC-Ad) vectors that still amplify transgenes, but that do not produce infectious progeny. RD-, SC-, and RC-Ads were tested by single immunization against influenza, Ebola virus, HIV-1, Zika virus, HCV, CMV, Clostridium difficile, and cancers in mice, hamsters, and macaques and antibody and T cell responses were measured. SC-Ad expressing GFP, influenza HA, or HIV gp140 generated antigens with 33 to 100-times less virus than RD-Ad. SC-Ad generated vaginal antibodies that persisted beyond 6 months after single intranasal immunization. Intramuscular injection of 1010 vp of SC-Ad6 expressing HIV-1 gp160 generated env antibodies in sera within 4 weeks of a single immunization in rhesus macaques. SC-Ad expressing a C. difficile toxin A and B immunogen generated toxin-binding antibody reciprocal titers above 105 that persisted in excess of a half of a year after a single immunization. Single immunization with SC-Ad protected vaccinated animals against toxin and against challenge with C. difficile spores. When SC-Ads were used to amplify the expression of immune stimulatory proteins in the context of cancer, single intratumoral injection of SC-Ad expressing 4-1BBL or GMCSF mediated significant reductions in tumor growth and extension of survival without the need for exogenous cancer antigen expression. These data suggest that SC-Ads may have utility against infectious diseases and cancer.