Water permeability of polyunsaturated lipid membranes measured by 17O NMR.

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Water permeability of polyunsaturated lipid membranes measured by 17O NMR.

D Huster, A J Jin, K Arnold and K Gawrisch

Laboratory of Membrane Biochemistry and Biophysics, National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health, Rockville, Maryland 20852, USA.

ABSTRACT

Diffusion-controlled water permeation across bilayers of polyunsaturatedphospholipids was measured by 17O nuclear magnetic resonance.In 100-nm extruded liposomes containing 50 mM MnCl2, water exchangebetween internal and external solutions was monitored via changesin the linewidth of the 17O water resonance of external water.Liposome size and shape were characterized by light scatteringmethods and determination of liposome trapped volume. At 25degrees C, the following water permeability coefficients weredetermined: 18:0-18:1n-9 PC, 155 +/- 24 microns/s; 18:0-18:3n-3PC, 330 +/- 88 microns/s; and 18:0-22:6n-3 PC, 412 +/- 91 microns/s.The addition of 1 M ethanol reduced permeability coefficientsto 66 +/- 15 microns/s for 18:0-18:1n-9 PC and to 239 +/- 67microns/s for 18:0-22:6n-3 PC. Furthermore, the addition of50 mol% 18:1n-9-18:1n-9 PE reduced the water permeability from122 +/- 21 microns/s for pure 18:1n-9-18:1n-9 PC to 74 +/- 15microns/s for the mixture. The significant increase in waterpermeation for membranes with polyunsaturated hydrocarbon chainscorrelates with looser packing of polyunsaturated lipids atthe lipid-water interface and the suggested deeper penetrationof water into these bilayers. Ethanol may block water diffusionpathways by occupying points of water entry into bilayers atthe interface. The addition of dioleoylphosphatidylethanolamineincreases lipid packing density and, consequently, reduces permeationrates.

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