A universal strategy of facilitating intracellular delivery of nanomedicines based on tuning ARF6 GTPase to its GTP-bound form

Intracellular delivery crossing the endomembrane barrier is the “last mile to target” for nano delivery systems carrying biomacromolecules, including genetic medicines . Nevertheless, a mass of nanomedicines is currently restricted by their equivocal safety and delivery efficiency. Here, we establish a universal strategy independent of nanomaterials . Such a policy broadly facilitates the intracellular delivery of all kinds of tested nanomedicines, subtly by inducing ARF6 GTPases to their overactivated GTP-bound state. ARF6, one member of ARF subfamily in small GTPases , is verified to regulate intracellular vesicle transport and lipid metabolism through GTP/GDP conversion. ARF6 biased to GTP-bound state causes the increased endocytosis and reduced exocytosis of eleven types of nanoparticles . This universal effect is derived from the formation of a hybrid type of endosomes triggered by overactivated ARF6 via regulating cholesterol-associated vesicles and lipid raft/caveolae pathways. Due to the mild microenvironment in hybrid endosomes, the internalized protein and nanoparticles are steadily delivered to the cytoplasm, avoiding the intensive degradation in lysosomes . Based on these findings, we identify QS11, a safe small molecule inhibitor of ARF GTPase-activating proteins, significantly enhances the antitumor efficacy of siEGFR-loaded nanoparticles by inducing ARF6 overactivation. In sum, these findings reveal that the tactics of tuning ARF6 GTPases to GTP-bound form will widely benefit cellular nano delivery.