Cytoplasmic location of linoleoyl-CoA desaturase in microsomal membranes of rat liver

Abstract

The intramembrane localization of linoleoyl-CoA desaturase in rat liver microsomes was examined by various methods, such as digestion by proteases, effect of detergents, and inhibition by the antibodies against purified terminal desaturase. Exposure of the desaturase on the surface of microsomal vesicles was suggested by the fact that the enzyme activity in the intact microsomes was susceptible to tryptic digestion, and considerably inhibited by anti-desaturase antibodies. When microsomes were previously treated with trypsin, the enzyme became more susceptible to the antibodies. Furthermore, it was demonstrated that the protein fragments cleaved from microsomal membranes by tryptic digestion formed a single precipitin line with the antibodies by the double-immunodiffusion test. These findings suggest the presence of linoleoyl-CoA desaturase on the cytoplasmic surface in the endoplasmic reticulum, since tryptic digestion liberates only the protein components situated on the surface area of membranes. In addition, desaturase activity in the intact microsomes was not stimulated by addition of the detergent, indicating the further outside location of the active site of the enzyme in microsomal vesicles. The pretreatment of microsomes with a low concentration (0.05%) of sodium deoxycholate, which destroys the permeability barrier for macromolecules without membrane disassembly, did not increase the susceptibility to tryptic digestion and the antibodies. These results show that linoleoyl-CoA desaturase is not present in a latent state in the membrane.