Serum release of hepatic calcium-binding protein regucalcin by liver injury with galactosamine administration in rats

The incorporation and 9 desaturation of exogenous [¹⁴C]stearic acid were studied in HTC 7288c cells in suspension. We examined the uptake of the acid over a wide range of concentrations (0–160 M) after incubating the cells for 6 h in a chemically-defined medium. Under this experimental condition, the uptake of the labeled acid was more extensive than that obtained from static cultures or from monolayer of isolated hepatocytes of rats. At an external concentration of 160 Mca. 52 nmoles of acid per mg of cellular protein was taken up. The production of oleic acid from [¹⁴C]stearate (9 desaturation) correlated well with the uptake curve between 0–80 M concentration. For higher stearate concentrations, the biosynthesis of oleic acid declined substantially and a plateau of 22 nmoles/mg cellular protein was reached. The incorporation and desaturation of an initial exogeneous concentration of [¹⁴C]stearic acid (80 M) was also studied from 0–6 h. The results obtained demonstrated that the uptake of the substrate into cellular lipids was fast and non saturable. Quantitative gas-liquid chromatography of total cellular lipids under the different experimental conditions demonstrated a negative correlation between the decrease in the palmitic and palmitoleic acids and the increase in the intracellular levels of stearic and oleic acids. These analytical modifications took place with no changes in the saturated/monoenoic fatty acid ratio. This work also demonstrated a significant contribution of the stearoyl-CoA desaturase system to the high levels of oleic acid present in this kind of hepatoma cells.Abbreviations FAME Fatty Acid Methyl esters - GLC gas-liquid chromatography - HEPES N-2-hydroxyethyl-piperazine-N-2-ethanosulfonic acid - HTC Hepatoma Tissue Culture - IMEM-Zo Improved Minimal Essential Medium-zinc optional