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An antifouling membrane-fusogenic liposome for effective intracellular delivery in vivo

Huimin Kong, Chunxiong Zheng, Ke Yi, Rachel L. Mintz, Yeh‐Hsing Lao, Yu Tao, Mingqiang Li

2024Nature Communications53 citationsDOIOpen Access PDF

Abstract

The membrane-fusion-based internalization without lysosomal entrapment is advantageous for intracellular delivery over endocytosis. However, protein corona formed on the membrane-fusogenic liposome surface converts its membrane-fusion performance to lysosome-dependent endocytosis, causing poorer delivery efficiency in biological conditions. Herein, we develop an antifouling membrane-fusogenic liposome for effective intracellular delivery in vivo. Leveraging specific lipid composition at an optimized ratio, such antifouling membrane-fusogenic liposome facilitates fusion capacity even in protein-rich conditions, attributed to the copious zwitterionic phosphorylcholine groups for protein-adsorption resistance. Consequently, the antifouling membrane-fusogenic liposome demonstrates robust membrane-fusion-mediated delivery in the medium with up to 38% fetal bovine serum, outclassing two traditional membrane-fusogenic liposomes effective at 4% and 6% concentrations. When injected into mice, antifouling membrane-fusogenic liposomes can keep their membrane-fusion-transportation behaviors, thereby achieving efficient luciferase transfection and enhancing gene-editing-mediated viral inhibition. This study provides a promising tool for effective intracellular delivery under complex physiological environments, enlightening future nanomedicine design.

Topics & Concepts

LiposomeBiofoulingIntracellularIn vivoChemistryMembraneBiophysicsCell biologyBiologyBiochemistryBiotechnologyRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniquesLipid Membrane Structure and Behavior