Unconventional Lysine-Type Lipid Assemblies Enable Efficient Antisense Oligonucleotide Delivery with Distinct Structural Features
Jieyan He, Whitney Shatz-Binder, Alexandra Robles, Nanzhi Zang, Wei Jia, Sakura Sahai, Matthew C. Johnson, Jing Li, Chun-Wan Yen, Shinji Takeoka

TL;DR
Researchers developed unconventional lipid assemblies that efficiently deliver antisense oligonucleotides with unique structures and comparable performance to existing benchmarks.
Contribution
The study introduces lysine-type lipid formulations with distinct structural features and efficient ASO delivery capabilities.
Findings
Lysine-type lipids K3C14 and K3C16 showed superior stability and safety in ASO delivery.
K3C16 lipoplex achieved ASO delivery efficiency and immune response similar to the benchmark SpikeVax LNP.
Cryo-EM revealed novel structures like rouleaux-like and nanosheet-like lipid assemblies.
Abstract
Background/Objectives: Antisense oligonucleotides (ASOs) hold great therapeutic potential due to their precise ability to modulate gene expression, particularly for treating genetic and neurological disorders. However, effective delivery of ASOs remains a major challenge. While most recent research focused on lipid nanoparticles (LNPs) as ASO carriers, alternative formulations, preparation methods and lipid compositions on delivery optimization are not fully explored. In this study, we investigated two types of formulations, lipoplexes (LPXes) and LNPs, prepared using lysine-type cationic lipids, K3C14 or K3C16, selected from a lysine-type lipid mini-library for their superior formulation stability and distinct cellular entry mechanisms. Methods: The physicochemical properties of the formulations were characterized using dynamic light scattering. Cytotoxicity was evaluated in spleen and…
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Taxonomy
TopicsRNA Interference and Gene Delivery · Advancements in Transdermal Drug Delivery · Nanoparticle-Based Drug Delivery
