Cross-reactivity reduced dengue virus serotype 2 vaccine does not confer cross-protection against other serotypes of dengue viruses

Abstract

The four serotypes of dengue virus (DENV) cause the most important rapidly emerging arthropod-borne disease globally. The humoral immune response to DENV infection is predominantly directed against the immunodominant cross-reactive weakly neutralizing epitopes located in the highly conserved fusion peptide of ectodomain II of envelope (E) protein (EDII_FP). Antibodies recognizing EDII_FP have been shown to associate with immune enhancement in an ex vivo animal model. In this study, we explored how prime-boost strategies influence the immunogenicity of a cross-reactivity reduced (CRR) DENV-2 vaccine with substitutions in EDII_FP residues (DENV-2 RD) and found that mice in various DENV-2 RD prime-boost immunizations had significantly reduced levels of EDII_FP antibodies. In addition, heterologous DENV-2 RD DNA-VLP prime-boost immunization induced higher and broader levels of total IgG and neutralizing antibodies (NtAbs) although IgG titers to DENV-2 and 3 were statistically significant. Consistently, mice from DENV-2 RD DNA-VLP prime-boost immunization were fully protected from homologous DENV-2 lethal challenge and partially protected (60% survival rate) from heterologous lethal DENV-3 challenge. Our results conclude that the CRR DENV-2 RD vaccine requires a multivalent format to effectively elicit a balanced and protective immunity across all four DENV serotypes.