SOLUTION EFFECTS ON THE THERMOTROPIC PHASE-TRANSITION OF UNILAMELLAR LIPOSOMES

We have investigated the effect of two monosaccharides, glucose and fructose, and two disaccharides, sucrose and trehalose, on the thermotropic phase transition of unilamellar extruded vesicles of DPPC. All the sugars investigated raise the main transition temperature (T(m)) of some fraction of the lipid, but there are differences between the effect of glucose and the other three sugars. At low concentrations of glucose, T(m) is lowered. At high concentrations of glucose there are two transitions, one with a low T(m) and one with a high T(m). The data suggest that at low concentrations, all of the glucose present may bind to the bilayer and increase headgroup spacing by physical intercalation or increased hydration. The appearance of a T(m) above that of pure hydrated DPPC suggests the possibility of the dehydration of some other population of phospholipid molecules. The other three sugars increase T(m), but at high concentrations of trehalose, sucrose, and fructose a second peak occurs at a low T(m). The other sugars appear to dehydrate the bilayer at low concentrations, but may show some binding or increased hydration of some portion of the lipid at very high concentrations. The sugar effects on unilamellar vesicles are strikingly different from the effects of these sugars on multilamellar vesicles.