The importance of the stearoyl-CoA desaturase system in octadecenoate metabolism in the Morris hepatoma 7288C

Abstract

The sources of octadecenoic acid (18:1) and the importance of the stearoyl-CoA desaturase system in maintaining elevated levels of this fatty acid in the Morris hepatoma 7288C have been investigated. Sterculic acid, an inhibitor of the stearoyl-CoA desaturase system, when added to the culture medium, inhibited the production of monoenoic fatty acids through de novo synthesis by 90% while the production of saturated fatty acids and cholesterol was unaffected. Sterculic acid also inhibited 18:1 formation through desaturation of exogenous stearate (18:0) by 80%. These results indicate that the stearoyl-CoA desaturase system is responsible for most, if not all, of the 18:1 produced within these cells and that an alternate, sterculic acid-insensitive, pathway for 18:1 biosynthesis is not functioning in this cell line. Measurements of fatty acid synthesis, using 3H2O, show that de novo synthesis accounts for approx. 30% of the cellular 16:1 and 18:1 mass, while contributing 63% and 95% of the stearate and palmitate mass, respectively. Cells grown in the presence of sterculic acid displayed a 50% decrease in 18:1 levels while levels of both palmitate and stearate increased. These effects were maximal at 20-30 microM sterculate. Polyunsaturate levels were unaffected. The 50% decrease in 18:1 levels in treated cells could be completely accounted for by the inhibition of de novo 18:1 biosynthesis and the inhibition of exogenous 18:0 desaturation. This enzyme system, although low in activity when measured in this tissue, is responsible for a major portion of the 18:1 observed in these cells.