Effect of selected anionic and cationic drugs affecting the central nervous system on electrical properties of phosphatidylcholine liposomes: Experiment and theory

Abstract

Interactions between phospholipid membranes and selected drugs affecting the central nervous system (CNS) were investigated. Small, unilamellar liposomes were used as biomimetic cell membrane models. Microelectrophoretic experiments on two-component liposomes were per-formed using the electrophoretic light scattering technique (ELS). The effect of both positively (per-phenazine, PF) and negatively (barbituric acid, BA) charged drugs on zwitterionic L-α-phosphati-dylcholine (PC) membranes were analyzed. Experimental membrane surface charge density (δ) data were determined as a function of pH. Quantitative descriptions of the adsorption equilibria formed due to the binding of solution ions to analyzed two-component membranes are presented. Binding constants of the solution ions with perphenazine and barbituric acid-modified membranes were determined. The results of our research show that both charged drugs change surface charge density values of phosphatidylcholine membranes. It can be concluded that perphenazine and barbitu-ric acid are located near the membrane surface, interacting electrostatically with phosphatidylcho-line polar heads.