Lipid nanoparticle-based strategies for extrahepatic delivery of nucleic acid therapies – challenges and opportunities.

The advent of lipid nanoparticles (LNPs) containing ionizable cationic lipids has enabled the encapsulation, stabilization, and intracellular delivery of nucleic acid payloads, leading to FDA-approved siRNA-based therapy and mRNA-based vaccines. Other nucleic acid-based therapeutic modalities, including protein replacement and CRISPR-mediated gene knockout and editing, are being tested in clinical trials, in many cases, for the treatment of liver-related diseases. However, to fully exploit these therapies beyond the liver, improvements in their delivery to extrahepatic targets are needed. Towards this end, both active targeting strategies based on targeting ligands grafted onto LNPs and passive targeting relying on physicochemical LNP parameters such as surface composition, charge, and size are being evaluated. Often, the latter strategy depends on the interaction of LNPs with blood components, forming what is known as the biomolecular corona. Here, I discuss potential challenges related to current LNP-based targeting strategies and the studies of the biomolecular corona on LNPs. I propose potential solutions to overcome some of these obstacles and present approaches currently being tested in preclinical and clinical studies, which face fewer biological barriers than traditional organ-targeting approaches. [Display omitted] • Presents an overview of LNP-based strategies for extrahepatic RNA delivery. • Highlights potential challenges with the LNP strategies and approaches to overcome some of them. • Stresses inherent challenges associated with biomolecular corona studies of LNPs. • Highlights that LNPs are a minor subpopulation of nanoparticles in human plasma. • Advocates innovative approaches to drive progress in the LNP field. [ABSTRACT FROM AUTHOR]