Litcius/Paper detail

Cytosolic protein delivery using pH-responsive, charge-reversible lipid nanoparticles

Yusuke Hirai, H. Hirose, Miki Imanishi, Tomohiro Asai, Shiroh Futaki

2021Scientific Reports27 citationsDOIOpen Access PDF

Abstract

Although proteins have attractive features as biopharmaceuticals, the difficulty in delivering them into the cell interior limits their applicability. Lipid nanoparticles (LNPs) are a promising class of delivery vehicles. When designing a protein delivery system based on LNPs, the major challenges include: (i) formulation of LNPs with defined particle sizes and dispersity, (ii) efficient encapsulation of cargo proteins into LNPs, and (iii) effective cellular uptake and endosomal release into the cytosol. Dioleoylglycerophosphate-diethylenediamine (DOP-DEDA) is a pH-responsive, charge-reversible lipid. The aim of this study was to evaluate the applicability of DOP-DEDA-based LNPs for intracellular protein delivery. Considering the importance of electrostatic interactions in protein encapsulation into LNPs, a negatively charged green fluorescent protein (GFP) analog was successfully encapsulated into DOP-DEDA-based LNPs to yield diameters and polydispersity index of < 200 nm and < 0.2, respectively. Moreover, ~ 80% of the cargo proteins was encapsulated into the LNPs. Cytosolic distribution of fluorescent signals of the protein was observed for up to ~ 90% cells treated with the LNPs, indicating the facilitated endocytic uptake and endosomal escape of the cargo attained using the LNP system.

Topics & Concepts

CytosolDispersityEndosomeGreen fluorescent proteinChemistryEndocytic cycleBiophysicsEndocytosisProtein aggregationIntracellularNanoparticleCell biologyBiochemistryCellNanotechnologyBiologyMaterials scienceEnzymeGeneOrganic chemistryRNA Interference and Gene DeliveryLipid Membrane Structure and BehaviorAdvanced biosensing and bioanalysis techniques