Targeting CD40 enhances antibody- and CD8-mediated protection against respiratory syncytial virus infection

Abstract

Abstract Respiratory Syncytial Virus (RSV) infects almost all children under the age of one and is the leading cause of hospitalization among infants. It also causes high rates of infection in the elderly and immunocompromised patient populations. Despite several decades of research with dozens of candidate vaccines being vigorously evaluated in pre-clinical and clinical studies, there is no licensed vaccine available to date. A clinical trial conducted in the early 1960s testing a formaldehyde-inactivated RSV (FIRSV) vaccine resulted in enhanced respiratory disease, following subsequent RSV infection, leading to hospitalization of 80% of the participants and 2 deaths. Since then, other forms of RSV vaccine have also been found to induce enhanced disease in preclinical animal studies. Here, we aimed to develop a vaccine that can effectively protect mice from RSV infection and help identify facets of FIRSV-induced enhanced disease. In this study, BALB/c mice were immunized with an adenoviral vector containing the RSV fusion protein (F) fused with CD40 ligand where the CD40 ligand serves two vital functions as a molecular adjuvant and an antigen-targeting molecule. In contrast to the FIRSV vaccine, the vectored vaccine effectively protected animals against RSV without inducing enhanced respiratory disease. This protection involved a robust induction of neutralizing antibodies and memory CD8 T cells, which were not observed in the FIRSV group. Finally, the vectored vaccine was able to elicit long-lasting protection against RSV, which was mediated by increased levels of effector memory CD8 T cell 3 months post-vaccination.