Abstract

Abstract Lipid nanoparticles (LNPs) have been shown to be a safe and potent platform for vaccine delivery. When added to subunit proteins, they have the potential to induce strong immune responses capable of generating long-lasting immunity. Merck has developed a variety of LNPs utilizing different cationic lipid components including LNP A, which has a long half-life in vivo, and LNP B, which has a shorter half-life in vivo and is more biodegradable. Protein subunit vaccines containing LNP A have been shown to generate robust antigen-specific humoral and cellular responses with some dose dependent reactogenicity while vaccines formulated with LNP B elicit lower immunogenicity and increased tolerability. To gain insight into the innate signaling pathways utilized by these LNPs, we performed an immunogenicity study in MyD88 knockout mice utilizing RSV F subunit protein vaccine plus LNP A or B. Wild type mice immunized with LNP A vaccines produced significantly higher levels of pro-inflammatory and neutrophil recruitment serum cytokines than the MyD88 knockout mice. However, with LNP B, MyD88 deficiency had no effect on cytokine expression. Humoral and cellular immune readouts are ongoing. Next, we stimulated whole human blood with the LNPs to compare at cytokine production. Stimulation with LNP A produced cytokine significant upregulation of monocyte and neutrophil-specific cytokines at 24 hours while stimulation with LNP B had no effect on cytokine production. Finally, we are evaluating differential gene expression to gain insight into the cellular responses of leukocytes to stimulation with the LNPs. Together, these experiments will help mechanistically determine how these fundamentally different LNPs can activate immune responses.

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