Impact of plasmid supercoiling on the efficacy of a rabies DNA vaccine to protect cats.

As of today, most DNA vaccination trials have been performed with plasmid preparations highly enriched in supercoiled molecules (sc) and the importance of supercoiled versus open circular (oc) plasmid isoforms for vaccine immunogenicity has only received limited attention. This study demonstrated that a single rabies DNA vaccination fully protected cats against a lethal rabies challenge as early as 3 weeks post vaccination provided that the proportion of supercoiled isoform in the vaccinal solution is at least 48%. In contrast, vaccination with a plasmid containing only 20% of supercoiled molecules induced significant but only partial protection. Further, a single rabies DNA vaccination with plasmids containing at least 70% of supercoiled molecules triggered statistically significant specific antibody titers and specific Th-1 oriented cell-based immunity as early as 2 and 3 weeks post vaccination, respectively. It is concluded that the oc isoforms are less efficient than supercoiled isoforms at inducing a complete profile of immune responses. Therefore, it is proposed that the target threshold of supercoiling that must be met by a rabies DNA vaccine to guarantee optimal immune responses and protection, be set at 70% of supercoiled molecules in the vaccine solution.

Vaccination of puppies born to immune dams with a canine adenovirus-based vaccine protects against a canine distemper virus challenge.

None of the currently available distemper vaccines provides a satisfactory solution for the immunization of very young carnivores in the face of maternal-derived immunity. Since mucosal immunization with replication-competent adenovirus-based vaccines has been proven effective in the face of passive immunity against the vector, it has the potential to provide a solution for the vaccination of young puppies born to canine distemper virus (CDV)-immune dams. We report the engineering and the characterization of two replication-competent canine adenovirus type 2 (CAV2)-based vaccines expressing, respectively, the CDV hemagglutinin (HA) and fusion (F) antigens. We first demonstrated that the intranasal vaccination with a mixture of both recombinant CAV2s provides an excellent level of protection in seronegative puppies, confirming the value of replication-competent adenovirus-based vectors for mucosal vaccination. In contrast, intranasal immunization with the same vaccine of puppies born to CDV- and CAV2-immune dams, failed to activate specific and protective immune responses. We hypothesized that an active CAV2 infection occurred while puppies were in close contact with the vaccinated dams in the breeding units and that the resulting active mucosal immunity interfered with the intranasal administration of CAV2-based CDV vaccine. However, when puppies born to CDV- and CAV2-immune dams were vaccinated subcutaneously with the CAV2-based CDV vaccine, significant seroconversion and solid protective immunity were triggered despite pre-existing systemic immunity to the vector. This latter result is surprising and suggests that subcutaneous vaccination with a replication-competent recombinant CAV2 may be an efficient strategy to overcome both passive and active adenovirus specific immunity in the dog. From a practical point of view, this could pave the way for an original strategy to vaccinate young puppies in the face of maternal-derived immunity.