Hydrophobic Domain Structure of Linear-Dendritic Poly(ethylene glycol) Lipids Affects RNA Delivery of Lipid Nanoparticles


Authors: K. Zhou, L.T. Johnson, H. Xiong, S. Barrios, J.T. Minnig, Y. Yan, B. Abram, X. Yu and D.J.Siegwart

Journal: Molecular Pharmaceutics

DOI: 10.1021/acs.molpharmaceut.9b01288

Publication - Abstract

April 08, 2020

Abstract

In this work, a series of linear-dendritic poly(ethylene glycol) (PEG) lipids (PEG-GnCm) were synthesized through a strategy using sequential aza- and sulfa-Michael addition reactions. The effect of modulating the hydrophobic domain of linear-dendritic PEG lipids was systematically investigated for in vitro and in vivo small RNA delivery as the surface-stabilizing component of 5A2-SC8 dendrimer lipid-based nanoparticles (DLNPs). The lipid alkyl lengths (C8, C12, and C16) and dendrimer generations (G1, G2, and G3) were altered to create PEG-GnCm with different physical properties and anchoring potential. The tail chemical structure of PEG-GnCm did not affect the formulation of 5A2-SC8 DLNPs, including the nanoparticle size, RNA encapsulation, and stability. However, the tail chemical structure did dramatically affect the RNA delivery efficacy of the formed 5A2-SC8 DLNPs with different PEG-GnCm. First-generation PEG lipids (PEG-G1C8, PEG-G1C12, and PEG-G1C16) and a second-generation PEG lipid (PEG-G2C8) formed 5A2-SC8 DLNPs that could deliver siRNAs effectively in vitro and in vivo. 5A2-SC8 DLNPs formulated with second-generation PEG lipids (PEG-G2C12 and PEG-G2C16) and all three third-generation PEG lipids (PEG-G3C8, PEG-G3C12, and PEG-G3C16) lost the ability to deliver siRNA effectively in vitro and in vivo. Overall, we determined that the hydrophobic domain chemical structure of linear-dendritic poly(ethylene glycol) lipids affected the RNA delivery of DLNPs by impacting the escape of 5A2-SC8 DLNPs from endosomes at early cell incubation times, thereby indicating how PEG lipid anchoring and chemical structure can modulate in vitro and in vivo siRNA delivery efficacies.

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