Interaction of all-trans-Retinal with bilayer lipid membranes

The interaction of all-trans-retinal (hereinafter referred to as retinal) with planar bilayer lipid membranes has been studied. Addition of retinal into aqueous solutions on both sides of the membrane formed from diphytanoilphosphatidylcholine (DPhPC) or its mixture with diphytanoilphosphatidylethanolamine (DPhPC/DPhPE in w/w proportion of 3: 5) led to a change of conductance induced by ionophores nonactin (increase of conductance) or pentachlorophenol (decrease). Increase of nonactin-induced conductance was dependent on the membrane lipid composition and was two times higher in the case of DPhPC/DPhPE mixture. The change of conductance caused by ionophores of different signs (plus or minus) had different direction suggesting the influence of the retinal on the dipole potential upon its incorporation into BLM. The boundary potentials difference measured by the intramembrane field compensation method (IFC) after the retinal addition on one side of the membrane did not exceed 2.5 mV suggesting that its distribution in the bilayer is almost symmetrical. The illumination of the retinal-containing BLM caused a decrease in its lifetime when the membranes were formed from unsaturated lipids. Retinal incorporated into BLM led also to photoinactivation of the gramicidin channels. The process was completely inhibited by a singlet oxygen quencher (sodium azide). These results indicate that retinal accumulated in the membrane can affect both membrane proteins and the unsaturated lipids by their oxidation by the singlet oxygen.