Vaccines play an important role in preventing many life-threatening infectious diseases. To meet the demand of vaccination for treating a wide range of diseases, rational vaccine design has been recognized as a desirable and necessary strategy for development of safe and effective vaccines. DNA nanostructures are advantageous in the design and construction of synthetic vaccines, owing to their robust self-assembly, programmability, and precision control in complex organization, as well as their intrinsic adjuvant activity. Here, we describe a modular assembly of DNA scaffolded vaccine complex, composing of a model antigen, streptavidin, and adjuvant, CpG oligonucleotide. The DNA-assembled vaccines were found to elicit strong antigen-specific antibody responses, but causing little or no adverse reactions. Conceivably, this vaccine platform can be further optimized for improved immunogenicity and extended to the construction of various subunit vaccines.
Keywords: Adjuvant; DNA nanostructures; Self-assembly; Synthetic vaccine.