Changes in Surface Charge Density of Lecithin Liposomes by Lipid Peroxidation. A Fluorescence Study with 8-Anilino-1-naphthalenesulfonate.

Abstract

Treatment of lecithin liposomes with 100 microM ascorbic acid and 10 microM ferrous ion resulted in the formation of fluorescent products exhibiting an emission maximum at 430 nm and a decrease in the fluorescence intensity of 8-anilino-1-naphthalenesulfonate (ANS) bound to the liposomes without change in the emission maximum. The degree of ascorbic acid/Fe(2+)-induced decrease in the ANS fluorescence was dependent on the extent of fluorescent product formation. The results of kinetic studies on ANS-binding to the liposomes showed that treatment of the liposomes with ascorbic acid/Fe2+ causes an increase of the apparent dissociation constant (Kd) of ANS-liposome complex. This indicates that lipid peroxidation of the liposomes by treatment with ascorbic acid/Fe2+ decreases the binding affinity of ANS to the liposomes. In addition, it was also found that there is a good correlation between degrees of the Kd value and the formation of fluorescent products. The fluorescence properties, i.e. emission maximum and response of the fluorescence intensity for borohydride reduction, of the products formed by lipid peroxidation of the liposomes were similar to those derived from modification of the liposomes with monofunctional aldehydes such as acetaldehyde and heptaldehyde. From these results, it is suggested that the decrease of ANS-binding affinity to the liposomes by treatment with ascorbic acid/Fe2+ may be due to changes in the surface charge density of the liposomes relating to the formation of fluorescent products.