Spin labels as enzyme substrates Heterogeneous lipid distribution in liver microsomal membranes

Abstract

Phenobarbital-stimulated microsomal membranes of rabbit liver, containing the cytochrome P450- cytochrome P450 reductase hydroxylating enzyme system in high concentration, have been studied with a version of the spin label technique which uses nitroxide radicals as enzyme substrates. The reduction kinetics of a phosphate ester of tetramethylpiperidine nitroxide (TEMPO-phosphate) and of stearic acid nitroxide by the cytochrome P450 reductase has been studied as a function of the temperature. The Arrhenius plot of the reduction rate constants reveals a striking difference in the behaviour of the water-soluble TEMPO-phosphate label and the lipid-soluble fatty acid label: The activation energy of the fatty acid reduction decreases abruptly at about 32°C from a value of 30.8 kcal/mole to a value of 8.7 kcal/mole, whereas no such break is observed in the Arrhenius plot of the TEMPO-phosphate reduction which yields a value of the activation energy of ΔW = 13.8 kcal/mole in the whole temperature range investigated. Our results clearly indicate the existence of a mosaic-like structure of the membrane with the whole enzyme system being enclosed by a rather rigid phospholipid halo which is in a quasicrystalline structure below 32 °C and undergoes a crystalline-liquid crystalline phase transition at 32 °C, while the bulk lipid of the membrane is in a rather fluid state as reflected by the measured high diffusion coefficient of D diff = 11.0·10 −8 cm 2/s at 30 °C and low activation energy of diffusion of ΔW = 3.85 kcal/mole of a fatty acid spin label incorporated in the membrane.