Active cholesterol biosynthesis in cultured aortic smooth muscle cells: evolution during the life-span of the culture.

Cultured aortic smooth muscle cells from rabbit, in synthetic and contractile state, are considered good models for studying pathological and normal cells, respectively, during the atherosclerotic process. Cholesterogenic activity was compared in cells which were obtained in both states of the same subculture and incubated with labeled sodium acetate. This activity (expressed as the percentage of total cell radioactivity uptake transformed into cholesterol) was very high in synthetic cells and comparable to that of cancer cells. Cholesterol synthesis was lower in contractile cells and similar to that observed in a nonpathological cultured cell. During the cell life-span (studied in two cultures) cholesterogenic activity initially increased and then slowly decreased, in the two phenotypic states. Near the end of the culture life, cholesterol production drastically decreased, but this was due to a blocking of the last steps, lanosterol demethylation and C27 sterol transformation into cholesterol, rather than to a sharp decrease in the first steps of the cholesterogenic process. Cells in the synthetic and contractile states released newly synthesized lipids which were essentially late precursors of cholesterol, but accumulation of oxy-sterols was not observed. The excretion of metabolites increased with culture aging.