Customizable Lipid Nanoparticle Materials for the Delivery of siRNAs and mRNAs

RNAs are a promising class of therapeutics given their ability to regulate protein concentrations at the cellular level. Developing safe and effective strategies to deliver RNAs remains important for realizing their full clinical potential. Here, we develop lipid nanoparticle formulations that can d...

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Veröffentlicht in:Angewandte Chemie 2018-10, Vol.130 (41), p.13770-13774
Hauptverfasser: Fenton, Owen S., Kauffman, Kevin J., McClellan, Rebecca L., Kaczmarek, James C., Zeng, Manhao D., Andresen, Jason L., Rhym, Luke H., Heartlein, Michael W., DeRosa, Frank, Anderson, Daniel G.
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Sprache:eng
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Zusammenfassung:RNAs are a promising class of therapeutics given their ability to regulate protein concentrations at the cellular level. Developing safe and effective strategies to deliver RNAs remains important for realizing their full clinical potential. Here, we develop lipid nanoparticle formulations that can deliver short interfering RNAs (for gene silencing) or messenger RNAs (for gene upregulation). Specifically, we study how the tail length, tail geometry, and linker spacing in diketopiperazine lipid materials influences LNP potency with siRNAs and mRNAs. Eight lipid materials are synthesized, and 16 total formulations are screened for activity in vitro; the lead material is evaluated with mRNA for in vivo use and demonstrates luciferase protein expression in the spleen. In undertaking this approach, not only do we develop synthetic routes to delivery materials, but we also reveal structural criteria that could be useful for developing next‐generation delivery materials for RNA therapeutics. Wunschgemäße Lieferung: Lipid‐Nanopartikelformulierungen wurden entwickelt, die kurze interferierende RNA (zur Genstummschaltung) oder Boten‐RNA (zur Hochregulierung von Genen) transportieren kann. Acht Lipidmaterialien wurden synthetisiert und insgesamt 16 Formulierungen auf ihre In‐vitro‐Aktivität getestet; das Leitmaterial wird mit mRNA für die Verwendung in vivo erprobt und zeigt Luciferase‐Proteinexpression in der Milz.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.201809056