Compartmental isolation of cholesterol participating in the cytoplasmic cholesteryl ester cycle in Chinese hamster ovary 25-RA cells.

Using the Chinese hamster ovary cell line, 25-RA, we have demonstrated that lipoprotein-derived cholesterol and endogenously synthesized cholesterol are selectively differentiated with respect to their cellular locations. These cells lack sterol-mediated regulation, spontaneously storing large amounts of esterified cholesterol, which turns over with a half-time of 7.5 h. When [3H]cholesterol was provided to the cells in serum to trace cellular cholesterol, the specific activities of cellular free and esterified cholesterol (6238 +/- 273 and 5128 +/- 277 cpm/ microg, respectively) failed to equilibrate, indicating that bulk cellular free cholesterol is isolated from that participating in the cholesteryl ester cycle. Using [3H]acetate to trace the fate of endogenously synthesized cholesterol, a failure of equilibration was also observed (specific activities of free and esterified cholesterol = 280 +/- 37 and 458 +/- 8 cpm/ microg, respectively). The lower specific activity of the precursor indicates that endogenously synthesized cholesterol is preferentially esterified. When cells radiolabeled with [3H]acetate were post-incubated in the absence of radiolabel, the specific activity of the esterified cholesterol pool remained significantly higher than that of the free cholesterol, suggesting that cholesterol derived from hydrolysis of esterified cholesterol is preferentially re-esterified.