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Photolipid Bilayer Permeability is Controlled by Transient Pore Formation

Stefanie D. Pritzl, Patrick Urban, Alexander Prasselsperger, David B. Konrad, James A. Frank, Dirk Trauner, Theobald Lohmüller

2020Langmuir51 citationsDOI

Abstract

Controlling the release or uptake of (bio-) molecules and drugs from liposomes is critically important for a range of applications in bioengineering, synthetic biology, and drug delivery. In this paper, we report how the reversible photoswitching of synthetic lipid bilayer membranes made from azobenzene-containing phosphatidylcholine (azo-PC) molecules (photolipids) leads to increased membrane permeability. We show that cell-sized, giant unilamellar vesicles (GUVs) prepared from photolipids display leakage of fluorescent dyes after irradiation with UV-A and visible light. Langmuir–Blodgett and patch-clamp measurements show that the permeability is the result of transient pore formation. By comparing the trans-to-cis and cis-to-trans isomerization process, we find that this pore formation is the result of area fluctuations and a change of the area cross-section between both photolipid isomers.

Topics & Concepts

AzobenzeneBilayerVesicleLiposomeChemistryMembraneLipid bilayerIsomerizationPermeability (electromagnetism)BiophysicsMoleculeOrganic chemistryCatalysisBiologyBiochemistryPhotochromic and Fluorescence ChemistryLipid Membrane Structure and BehaviorPhotoreceptor and optogenetics research
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