Stabilization of liposome bilayers to freezing and thawing: Effects of cryoprotective agents and membrane proteins

Abstract

Lipid bilayer vesicles (liposomes) with and without glycoprotein incorporated into the membranes were tested for stability during freezing and thawing, in presence and absence of the cryoprotective agents (CPA) glycerol and dimethyl sulfoxide. Changes in turbidity and loss of energy transfer between fluorescent probes present in the bilayers were used to estimate membrane integrity. Freezing caused a 30 to 40% destruction of protein-free liposomes, in absence of CPA. CPA at 10 to 20% concentration prevented such losses, but at higher concentrations destabilized liposomes even without freezing. Protein-containing liposomes suffered no loss on freezing in absence or presence of CPA at moderate concentrations. Lowering of the storage temperature of frozen samples within the range of −5 to −27 °C increased the freeze damage. Slower rates of cooling and warming caused a slightly greater loss. The results are interpreted in terms of the liquid mosaic model for lipid bilayers. CPA at higher concentrations destabilize bilayers by dissolving phospholipids. At moderate concentrations, however, they prevent the damaging effect of dehydration of the lipid on freezing. Proteins appear to stabilize bilayers by providing increased hydration at the membrane surface, and by additional hydrophobic binding in the membrane interior.