The effect of phloretin on sphingolipid-containing membranes modified by syringomycin E

Abstract

The effects of dipole modifier phloretin on the activity of syringomycin (SRE) channels in the lipid bilayers containing different sphingolipids, N-stearoyl-phytosphingosine (PSP) and N-stearoyl-D-erythrosphingosine (DSP), have been compared. It is shown that the addition of phloretin up to a concentration of 10 μM into solutions bathing the bilayers containing 20 mol.% PSP causes a 170-fold increase in the SRE channel-forming activity. In the case of DSP-containing membranes, a more significant (5200-fold) increase of the equilibrium number of open SRE channels is observed. The enhancement of SRE activity is accompanied by about 2-fold increase of the gating charge of SRE channels in the membranes with PSP, while in the bilayers with DSP the gating charge increases about 4-fold. The revealed differences in the parameters of SRE channels in the membranes including phloretin and PSP or DSP are accounted for by different partition coefficients of the toxin and dipole modifier between the lipid and water phases. The data suggest heterogeneity of dipole potential of the PSP-containing membranes in the presence of phloretin. This heterogeneity is due to the possibility of formation in these membranes of rafts with the dipole potential not affected by modifier.