Reversible Vesicle-to-Disk Transitions of Liposomes Induced by the Self-Assembly of Water-Soluble Porphyrins.
Kouta SugikawaYutaro TakamatsuKazuma YasuharaMasafumi UedaAtsushi IkedaPublished in: Langmuir : the ACS journal of surfaces and colloids (2017)
Structural control of lipid membranes is important for mechanisms underlying biological functions and for creating high-functionality soft materials. We demonstrate the reversible control of vesicle structures (liposomes) using supramolecular assemblies. Specifically, water-soluble anionic porphyrin molecules interact with positively charged lipid membrane surfaces to form one-dimensional self-assembled structures (J-aggregates) under acidic conditions. Cryogenic transmission electron microscopy revealed that porphyrin J-aggregates on the membrane surface induced an extensive structural change from vesicles to layered disks. Neutralization of the solution deformed the porphyrin J-aggregates, thereby reforming nanosized liposomes from the layered disks.
Keyphrases
- water soluble
- electron microscopy
- photodynamic therapy
- drug delivery
- drug release
- metal organic framework
- energy transfer
- high resolution
- electron transfer
- fatty acid
- highly efficient
- reduced graphene oxide
- high glucose
- diabetic rats
- escherichia coli
- ionic liquid
- cystic fibrosis
- transition metal
- biofilm formation
- mass spectrometry