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Membrane-selective nanoscale pores in liposomes by a synthetically evolved peptide: implications for triggered release

Leisheng Sun, Kalina Hristova, William C. Wimley

2021Nanoscale25 citationsDOIOpen Access PDF

Abstract

Peptides that form nanoscale pores in lipid bilayers have potential applications in triggered release, but only if their selectivity for target synthetic membranes over bystander biomembranes can be optimized. Previously, we identified a novel family of α-helical pore-forming peptides called "macrolittins", which release macromolecular cargoes from phosphatidylcholine (PC) liposomes at concentrations as low as 1 peptide per 1000 lipids. In this work, we show that macrolittins have no measurable cytolytic activity against multiple human cell types even at high peptide concentration. This unprecedented selectivity for PC liposomes over cell plasma membranes is explained, in part, by the sensitivity of macrolittin activity to physical chemical properties of the bilayer hydrocarbon core. In the presence of cells, macrolittins release all vesicle-entrapped cargoes (proteins and small molecule drugs) which are then readily uptaken by cells. Triggered release occurs without any direct effect of the peptide on the cells, and without vesicle-vesicle or vesicle-cell interactions.

Topics & Concepts

VesicleLiposomePeptideMembraneBiophysicsLipid bilayerChemistryBilayerArtificial cellPhosphatidylcholineSelectivityBiochemistryPhospholipidBiologyCatalysisLipid Membrane Structure and BehaviorRNA Interference and Gene DeliveryAntimicrobial Peptides and Activities
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