Early life humoral response of ducks to DNA immunization against hepadnavirus large envelope protein.

DNA vaccination may represent an interesting strategy for early life immunization. However, in some cases, this approach has been shown to induce a tolerance rather than immunity. We have compared the efficiency of neonatal DNA or protein immunization against hepadnavirus envelope protein using the duck hepatitis B virus (DHBV) model. Three-day-old ducklings were immunized with either a plasmid encoding the DHBV pre-S/S large envelope protein (L), or a recombinant preS protein, followed by sequential DNA or protein boosts at weeks 4 and 15. Our results showed that genetic immunization of duck neonates induced specific humoral response to DHBV L protein. Interestingly, an enhanced antibody response was elicited when animals received DNA priming-DNA boosting as compared to DNA priming-protein boosting.

Maternally transferred antibodies from DNA-immunized avians protect offspring against hepadnavirus infection.

The outcome and protective efficacy of maternal antibodies elicited by DNA immunization to the large (L) hepadnavirus envelope protein were studied using the duck hepatitis B virus (DHBV) model. Following genetic immunization of breeding ducks with a DHBV L protein gene-bearing plasmid, specific and highly neutralizing antibodies were transferred from the sera of immunized ducks, via the egg yolk, to the progeny of vaccinees. Interestingly, large amounts (60 to 100 mg/egg) of high-titer and L protein-specific yolk immunoglobulins (immunoglobulin Y) accumulated in the egg yolk. These results suggest that eggs from genetically immunized avians may represent a potent source of DNA-designed antibodies specific to viral antigen. Importantly, these antibodies are vertically transmitted and protect offspring against high-titer DHBV challenge.