Modulation of amphotericin B membrane interaction by cholesterol and ergosterols - A molecular dynamics study

Amphotericin B (AmB) is a well-known polyene macrolide antibiotic used to treat systemic fungal infections. According to a well-documented hypothesis, molecules of AmB form ionic membrane channels that are responsible for chemotherapeutic action. These channels disturb the barrier function of the cell membrane which, in consequence, leads to cell death. The presence of sterols in the cell membrane is necessary for full manifestation of the antibiotic's ionophoric activity, at least in vivo. Ergosterol-containing fungal membranes are targeted more efficiently by AmB than mammalian membranes containing cholesterol. However, a similar level of disturbance of fungal and mammalian membranes is responsible for serious toxicity of the antibiotic. Due to the importance of AmB and lack of better antifungal alternatives, the search for new less toxic derivatives of this antibiotic still continues. Therefore, studies of the AmB-membrane interaction are very important. The present work constitutes a continuation of a broad program of study on AmB mode of action in our group. In particular, molecular dynamics simulations of AmB monomers inside the bilayers of three different compositions (pure dimiristoylphosphatidylcholine (DMPC) and DMPC bilayer containing similar to 25 mol % of cholesterol or ergosterol) were carried out. In general, analysis of generated trajectories resulted in identifying many significant differences in the behavior of AmB monomers depending on the membrane environment. In particular, it was established that the antibiotic increases the internal order of DMPC bilayer containing 25 mol % of cholesterol, while it has no effect on the order of the bilayer with the same amount of ergosterol. Performed calculations also revealed that relatively rigid and elongated AmB molecules exhibit higher affinity toward the sterol-containing lo phases and, therefore, may be cumulated in ordered membrane domains (e. g., lipid rafts). Since the partition coefficient between the ld and lo phase appears to be greater in the case of the ergosterol-compared to cholesterol-containing membrane, this effect can be also discussed as the possible origin of AmB-selective toxicity and indirect sterol involvement in expression of AmB activity.