Effects of pH on the kinetics of the interaction between anthracyclines and lipid bilayers

In the present study we have analyzed the kinetics of the initial steps (first 10 seconds) of the interaction between the anthracycline daunomycin (DNM) and artificial lipid vesicles bearing opposite surface charge. The process can be monitored by measuring the fluorescence increase of the drug accompanying its association with the lipid bilayers. The results indicated that DNM consistently interacts to a larger extent with the liposomes having negative surface charge than with those having positive surface charge, suggesting the involvement of electrostatic components in the interaction. In contrast, DNM associates with the vesicles bearing positive surface charge 2-3 times faster (in terms of the apparent rate constants describing the process of interaction) than with those having negative surface charge, an observation probably related to the more fluid physical state of the former. Regarding the rate of access of DNM to the vesicles, rather than depending on the surface charge of the vesicles, this is critically affected by the ionization state of the drug, i.e. by the pH. Thus, the rate at which the interaction proceeds is increased nearly 15-fold when the pH of the medium increases from 7.0 to 8.3, regardless of the surface charge of the liposomes. On this basis, and taking into account the fact that the anthracyclines enter the cells by passive diffusion, possible effects of pH on the transport of these drugs through the membranes of tumor cells are discussed.