Lung surfactants as a component of lipid nanoparticles for pulmonary mRNA delivery

Pulmonary delivery of lipid nanoparticles (LNPs) remains an area of significant interest, given the broad range of genetic disorders that could be addressed through localized administration of therapeutic nucleic acids to the lung. In this study, we investigated how incorporation of the clinically used lung surfactant cocktail Poractant alfa affects the in vitro and in vivo transfection performance of mRNA-loaded LNPs. The resulting lung surfactant-enhanced LNPs (Surf-LNPs) exhibited substantial improvements in particle assembly, yielding an order of magnitude higher particle concentration at equivalent input conditions compared to conventional (Onpattro-like) LNP formulations. In vitro, Surf-LNPs demonstrated several-fold increases in mRNA transfection efficiency and protein expression while maintaining excellent cytocompatibility. These enhancements are attributed to an elevated apparent pKa and the surface-active properties of surfactant protein B (SP-B), which promote more rapid and efficient endosomal escape relative to conventional LNPs. In vivo evaluation following intranasal administration further revealed enhanced mCherry expression in the lungs of mice treated with Surf-LNPs compared to conventional LNPs. Ultimately, these findings establish lung surfactant incorporation as a simple yet powerful formulation strategy to improve pulmonary gene delivery using LNPs, with the potential to significantly advance the translation of inhaled nucleic acid therapeutics.