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  • Functionalized lipid nanoparticles for subcutaneous administration of mRNA to achieve systemic exposures of a therapeutic protein.

Functionalized lipid nanoparticles for subcutaneous administration of mRNA to achieve systemic exposures of a therapeutic protein.

Molecular therapy. Nucleic acids (2021-04-20)
Nigel Davies, Daniel Hovdal, Nicholas Edmunds, Peter Nordberg, Anders Dahlén, Aleksandra Dabkowska, Marianna Yanez Arteta, Aurel Radulescu, Tomas Kjellman, Andreas Höijer, Frank Seeliger, Elin Holmedal, Elisabeth Andihn, Nils Bergenhem, Ann-Sofie Sandinge, Camilla Johansson, Leif Hultin, Marie Johansson, Johnny Lindqvist, Liselotte Björsson, Yujia Jing, Stefano Bartesaghi, Lennart Lindfors, Shalini Andersson
ABSTRACT

Lipid nanoparticles (LNPs) are the most clinically advanced delivery system for RNA-based drugs but have predominantly been investigated for intravenous and intramuscular administration. Subcutaneous administration opens the possibility of patient self-administration and hence long-term chronic treatment that could enable messenger RNA (mRNA) to be used as a novel modality for protein replacement or regenerative therapies. In this study, we show that subcutaneous administration of mRNA formulated within LNPs can result in measurable plasma exposure of a secreted protein. However, subcutaneous administration of mRNA formulated within LNPs was observed to be associated with dose-limiting inflammatory responses. To overcome this limitation, we investigated the concept of incorporating aliphatic ester prodrugs of anti-inflammatory steroids within LNPs, i.e., functionalized LNPs to suppress the inflammatory response. We show that the effectiveness of this approach depends on the alkyl chain length of the ester prodrug, which determines its retention at the site of administration. An unexpected additional benefit to this approach is the prolongation observed in the duration of protein expression. Our results demonstrate that subcutaneous administration of mRNA formulated in functionalized LNPs is a viable approach to achieving systemic levels of therapeutic proteins, which has the added benefits of being amenable to self-administration when chronic treatment is required.

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