Abstract
Measles still causes considerable morbidity and mortality among infants and young children in developing countries. To develop a new public health tool to reduce this burden, we designed two Sindbis virus replicon vaccines encoding measles virus (MV) hemagglutinin (H) and fusion (F) proteins (pMSIN-H and pMSINHFdU). Our goal is to administer the vaccines to young infants at 6 and 10 weeks of age to prime the immune system to safely and effectively respond to subsequent immunization at age ∼14 weeks with the licensed attenuated measles vaccine. In preparation for a phase 1 clinical trial, studies of plasmid distribution, integration, and toxicology were performed in rabbits. Biodistribution was assessed after a single DNA immunization delivered intradermally by needle-free injection. Toxicity was assessed using a heterologous prime–boost regimen consisting of a repeat-dose DNA prime followed by a live-attenuated measles vaccine boost. The only vaccine-related adverse effects observed were minimal transient erythema, edema, and inflammation confined to the injection site. Plasmids were detected in the subcutis and muscle at the site of inoculation. A small proportion of animals exhibited plasmids in the regional lymph nodes. There was no evidence of plasmid integration into the host genome. Both Sindbis-based vaccine plasmids were immunogenic in rabbits; pMSIN-H elicited higher virus-neutralizing antibody levels. Both vaccines were shown to be well tolerated and suitable for clinical trials and they are currently being tested in phase 1 studies in young adults.
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