19F-NMR of fluorine labeled acyl chains in phospholipid bilayer vesicles

Abstract

19F-labeled phospholipids, L-α-bis-(ω-fluoro palmitoyl)phosphatidylcholine, L-α-bis-(12,12-difluoro stearoyl)phosphatidylcholine and L-α-bis-(6,6-difluoro palmitoyl)phosphatidylcholine, were incorporated in phospholipid vesicles by sonication of aqueous lipid emulsions. Vesicles were prepared both from the pure fluorine substituted phospholipids as well as from lipid mixtures obtained by combining the fluorine substituted lipids with the synthetic phospholipids, L-α-dilauroyl-, L-α-dimyristoyl-, L-α-dipalmitoyl- and L-α-distearoyl-phosphatidylcholine. Characterization by gel permeation chromatography showed that stable unilamellar vesicles with diameters of ≌200 Å could be obtained with a minimum or absence of multilamellar material. The vesicles give rise to two 19F resonances in most cases as observed previously [K.J. Longmuir and F.W. Dahlquist, Proc. Natl. Acad. Sci. U.S.A., 73 (1976) 2716]. The chemical shift differences undergo systematic changes that confirm the interpretations that the dual 19F resonances arise from the inner and outer halves of the vesicle bilayer. The shift separation increases systematically as the fluorine label is positioned closer to the phospholipid headgroup and decreases systematically with increasing temperature. Both observations agree with what is currently known about phospholipid vesicle structure. Anomalous results are obtained with DSPC as host vesicle since only a single resonance of inbedded fluorinated phospholipids is found.