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  • Title: Kinetic Analysis of the Methyl-β-cyclodextrin-Mediated Intervesicular Transfer of Pyrene-Labeled Phospholipids.
    Author: Sugiura T, Ikeda K, Nakano M.
    Journal: Langmuir; 2016 Dec 27; 32(51):13697-13705. PubMed ID: 27936747.
    Abstract:
    Methyl-β-cyclodextrin (MβCD) can transfer phospholipids between vesicles, and its transfer ability has been utilized for the preparation of asymmetric vesicle and lipid incorporation into culture cells. Nevertheless, a detailed kinetic analysis of the MβCD-mediated phospholipid transfer has not yet been carried out. We performed real-time monitoring of intervesicular lipid transfer by means of the fluorescence of pyrene-labeled phospholipids. Intermolecular excimer formation of the pyrene-labeled lipids in a membrane strongly depends on the local concentration of the fluorophore and decreases when the pyrene-labeled lipids are transferred from donor (fluorophore-containing) vesicles to acceptor (fluorophore-free) vesicles. We monitored the fluorescence intensity of the pyrene monomer and excimer simultaneously and found that the excimer/monomer ratio decreased in the presence of MβCD, pointing to MβCD-mediated lipid transfer. The transfer rate depended on the MβCD concentration but not on the lipid concentration, suggesting that dissociation from the membrane via extraction by MβCD is the rate-limiting step of the lipid transfer. Calibration of the excimer/monomer ratio to the molar fraction of the pyrene-labeled lipids enabled us to evaluate the dissociation rate constant correctly. From the temperature dependence of the transfer, we obtained the thermodynamic activation parameters, which revealed that the extraction of phosphatidylcholine by MβCD from membranes is less enthalpically unfavorable than that of phosphatidylglycerol and phosphatidylinositol.
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