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Substituting racemic ionizable lipids with stereopure ionizable lipids can increase mRNA delivery

2022; Elsevier BV; Volume: 353; Linguagem: Inglês

10.1016/j.jconrel.2022.11.037

1873-4995

Alejandro J. Da Silva Sanchez, Kun Zhao, Sebastian G. Huayamares, Marine Z. C. Hatit, Melissa P. Lokugamage, David Loughrey, Curtis Dobrowolski, Shuaishuai Wang, Hyejin Kim, Kalina Paunovska, Yanina Kuzminich, James E. Dahlman,

RNA Research and Splicing

Lipid nanoparticles (LNPs) have delivered siRNA and mRNA drugs in humans, underscoring the potential impact of improving the therapeutic window of next-generation LNPs. To increase the LNP therapeutic window, we applied lessons from small-molecule chemistry to ionizable lipid design. Specifically, given that stereochemistry often influences small-molecule safety and pharmacokinetics, we hypothesized that the stereochemistry of lipids within an LNP would influence mRNA delivery. We tested this hypothesis in vivo using 128 novel LNPs that included stereopure derivatives of C12‐200, an ionizable lipid that when formulated into LNPs delivers RNA in mice and non-human primates but is not used clinically due to its poor tolerability. We found that a novel C12‐200-S LNP delivered up to 2.8-fold and 6.1-fold more mRNA in vivo than its racemic and C12‐200-R controls, respectively. To identify the potential causes leading to increased delivery, we quantified LNP biophysical traits and concluded that these did not change with stereochemistry. Instead, we found that stereopure LNPs were better tolerated than racemic LNPs in vivo. These data suggest that LNP-mediated mRNA delivery can be improved by designing LNPs to include stereopure ionizable lipids.