Optimization of Lipid Nanoparticles for Intramuscular Administration of mRNA Vaccines

Kimberly J. Hassett; Kerry E. Benenato; Eric Jacquinet; Aisha G. Lee; Angela Woods; Olga Yuzhakov; Sunny Himansu; Jessica Deterling; Benjamin Geilich; Tatiana Ketova; Cosmin Mihai; Andy Lynn; Iain J. McFadyen; Melissa J. Moore; Joseph J. Senn; Matthew Stanton; Örn Almarsson; Giuseppe Ciaramella; Luis A. Brito

doi:10.1016/j.omtn.2019.01.013

Optimization of Lipid Nanoparticles for Intramuscular Administration of mRNA Vaccines

Kimberly J. Hassett(Moderna Therapeutics (United States)), Kerry E. Benenato(Moderna Therapeutics (United States)), Eric Jacquinet(Moderna Therapeutics (United States)), Aisha G. Lee(Moderna Therapeutics (United States)), Angela Woods(Moderna Therapeutics (United States)), Olga Yuzhakov(Moderna Therapeutics (United States)), Sunny Himansu(Moderna Therapeutics (United States)), Jessica Deterling(Moderna Therapeutics (United States)), Benjamin Geilich(Moderna Therapeutics (United States)), Tatiana Ketova(Moderna Therapeutics (United States)), Cosmin Mihai(Moderna Therapeutics (United States)), Andy Lynn(Moderna Therapeutics (United States)), Iain J. McFadyen(Moderna Therapeutics (United States)), Melissa J. Moore(Moderna Therapeutics (United States)), Joseph J. Senn(Moderna Therapeutics (United States)), Matthew Stanton(Moderna Therapeutics (United States)), Örn Almarsson(Moderna Therapeutics (United States)), Giuseppe Ciaramella(Moderna Therapeutics (United States)), Luis A. Brito(Moderna Therapeutics (United States))

Molecular Therapy — Nucleic Acids

February 10, 2019

10.1016/j.omtn.2019.01.013

Cited by 879Open Access

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Abstract

mRNA vaccines have the potential to tackle many unmet medical needs that are unable to be addressed with conventional vaccine technologies. A potent and well-tolerated delivery technology is integral to fully realizing the potential of mRNA vaccines. Pre-clinical and clinical studies have demonstrated that mRNA delivered intramuscularly (IM) with first-generation lipid nanoparticles (LNPs) generates robust immune responses. Despite progress made over the past several years, there remains significant opportunity for improvement, as the most advanced LNPs were designed for intravenous (IV) delivery of siRNA to the liver. Here, we screened a panel of proprietary biodegradable ionizable lipids for both expression and immunogenicity in a rodent model when administered IM. A subset of compounds was selected and further evaluated for tolerability, immunogenicity, and expression in rodents and non-human primates (NHPs). A lead formulation was identified that yielded a robust immune response with improved tolerability. More importantly for vaccines, increased innate immune stimulation driven by LNPs does not equate to increased immunogenicity, illustrating that mRNA vaccine tolerability can be improved without affecting potency.

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