Peptide vaccines induce specific neutralizing antibodies and are effective in disease prevention and treatment. However, peptide antigens have a low immunogenicity and are unstable, requiring efficient vaccine carriers to enhance their immunogenicity. Here, we develop a tobacco mosaic virus (TMV)-based peptide vaccine for transdermal immunization using a tip-loaded dissolving microneedle (MN) patch. TMV is decorated with the model peptide antigen PEP3. The prepared TMV-PEP3 promotes dendritic cell maturation and induces dendritic cells to overexpress MHC II, costimulatory factors, and pro-inflammatory factors. By encapsulation of TMV-PEP3 in the tips of a trehalose MN, TMV-PEP3 can be delivered by MN and significantly promote local immune cell infiltration. In vivo studies show that both subcutaneous injection and MN administration of TMV-PEP3 increase the production of anti-PEP3 IgG antibodies and the harvested serum can induce complement-dependent cytotoxicity. This work provides a promising strategy for constructing efficient and health-care-friendly peptide vaccines.
Keywords: dendritic cells; peptide vaccine; tip-loaded microneedle; tobacco mosaic virus.