Acidic pH-induced changes in lipid nanoparticle membrane packing

To enable the release of the encapsulated nucleic acids into the cytosol of targeted cells, the interaction of lipid nanoparticles (LNPs) with endosomes is critical. We investigated changes in the physicochemical properties of LNPs containing ionizable cationic lipids that were induced by acidic pH, which reflects the conditions in the maturation of endosomes. We prepared a LNP containing an ionizable cationic lipid. The laurdan generalized polarization values, which are related to the hydration degree of the lipid membrane interface and are often used as an indicator of membrane packing, decreased with a decrease in pH value, showing that the membrane packing was decreased under acidic conditions. Furthermore, the pH-induced variation increased with an increasing percentage of ionizable cationic lipids in the LNPs. These results indicated that electrostatic repulsion between lipid molecules at acidic pH decreased the packing density of the lipids in the LNP membrane. Reducing the order of lipids could be a trigger to form a non-bilayer structure and allow fusion of the LNPs with the membrane of maturing endosomes in an acidic environment. The LNPs were used to incorporate and transport small interfering RNA (siRNA) into cells for knockdown of the expression of beta-galactosidase. The knockdown efficiency of siRNA encapsulated in LNPs tended to increase with the ratio of KC2. These results, which demonstrate the underlying phenomena for the fusion of membranes, will help clarify the mechanism of the release of encapsulated nucleic acids.

Automated summary

The study investigated the changes in LNPs containing ionizable cationic lipids under acidic pH conditions. It was found that the membrane packing decreased with a decrease in pH value, and the pH-induced variation increased with an increasing percentage of ionizable cationic lipids in the LNPs. These results demonstrate the importance of membrane structure in the fusion of LNPs with endosome membranes.