Photo-sensitive lipid membrane perturbation by a single chain lipid having terminal spiropyran group

Abstract

The synthesis a novel single chain lipid (SP-16A), containing a photo-sensitive spiropyran group at its hydrophobic terminus is described. The photoisomerization behavior of SP-16A has been studied by UV-Vis spectroscopy. The lipid has been incorporated into small unilamellar vesicles (SUVs) in quantities up to 10 mol% by mixing with dipalmitoylphosphatidylcholine (DPPC) and consequent sonication. The photo-induced membrane perturbation of the SP-16A/DPPC mixed SUV liposome was observed by monitoring of leakage of carboxyfluorescein(CF), a water soluble fluorescent dye, from the interior aqueous phase of the SUV. SUVs containing 5–10 mol% of SP-16A showed drastic leakage of CF by UV irradiation at 465 nm, however, neither liposome rupture nor release of the lipid from the SUV was observed after the UV irradiation. On/off switching of the leakage of interior material from the vesicle could also be demonstrated. In order to discuss the mechanism and kinetics of the photo-sensitive membrane perturbation behavior for the SP-16A/DPPC mixed SUV, the isomerization behavior of the SP-16A molecule and the leakage of CF from the SUV over time were investigated using a pulsed excimer laser. These experiments suggested that the main factor involved in membrane perturbation by SP-16A is a conformational change of the lipid in the membrane, which occurs after isomerization of the molecule. This new lipid molecule is thus a novel and useful photo-sensitive switching system, and may have future applications in drug delivery systems.