Lipid nanoparticles encapsulating both adjuvant and antigen mRNA improve influenza immune cross-protection in mice.

The rapid approval of SARS-CoV-2 mRNA lipid nanoparticle (LNP) vaccines indicates the versatility of mRNA LNPs in an urgent vaccine need. However, the mRNA vaccines do not induce mucosal cellular responses or broad protection against recent variants. To improve cross-protection of mRNA vaccines, here we engineered a pioneered mRNA LNP encapsulating with mRNA constructs encoding cytokine adjuvant and influenza A hemagglutinin (HA) antigen for intradermal vaccination. The adjuvant mRNA encodes a novel fusion cytokine GIFT4 comprising GM-CSF and IL-4. We found that the adjuvanted mRNA LNP vaccine induced high levels of humoral antibodies and systemic T cell responses against heterologous influenza antigens and protected immunized mice against influenza A viral infections. Also, the adjuvanted mRNA LNP vaccine elicited early germinal center reactions in draining lymph nodes and promoted antibody-secreting B cell responses. In addition, we generated another adjuvant mRNA encoding CCL27, which enhanced systemic immune responses. We found the two adjuvant mRNAs both showed effective adjuvanticity in enhancing humoral and cellular responses in mice. Interestingly, intradermal immunizations of GIFT4 or CCL27 mRNA adjuvanted mRNA LNP vaccines induced significant lung tissue-resident T cells. Our findings demonstrate that the cytokine mRNA can be a promising adjuvant flexibly formulated into mRNA LNP vaccines to provoke strong immunity against viral variants.