Disposition of intracellular cholesterol in human fibroblasts

Abstract

We have examined the intracellular distribution of unesterified cholesterol in cultured human fibroblasts. Intact cells were treated with cholesterol oxidase to selectively transform cell surface cholesterol to cholestenone. Isopycnic centrifugation of homogenates showed that the cholestenone had a peak buoyant density of 1.13 g/cm3. The approximately 10% of total cholesterol which remained unoxidized was distributed in two peaks of roughly equal size: a sharp peak at approximately 1.09 g/cm3 and a broad peak centered at 1.18 g/cm3. When intact cells were incubated with exogenous [3H]cholesterol, the radiolabel entered the nonoxidizable pool in a temperature-dependent fashion with a half time of 3 h at 37 degrees C. This label initially was associated with the dense but not the buoyant peak of nonoxidized cholesterol. After 40 h, the buoyant peak also became labeled; both peaks then had a specific activity slightly less than the surface cholestenone. The buoyant density of the unoxidized cholesterol did not coincide with markers for the Golgi apparatus, endoplasmic reticulum, or lysosomes. However, two ingested markers of pinocytosis, calcein and horseradish peroxidase, comigrated with the dense peak of unoxidized cholesterol. That the size of the unoxidized cholesterol pool was greater in cells deprived of serum lipoproteins than in fed cells suggested that none of the intracellular cholesterol need be ascribed to ingested sterols. The mass of unoxidizable cholesterol was not diminished when cholesterol biosynthesis was inhibited by lovastatin in lipoprotein-deprived cells. Furthermore, the newly synthesized radiolabeled cholesterol resistant to cholesterol oxidase did not migrate with intracellular cholesterol mass on sucrose density gradients. The newly synthesized cholesterol amounted to about 10% of the total unoxidized sterol. These data indicate that most of the intracellular cholesterol was not newly synthesized. We conclude that a) approximately 90% of fibroblast cholesterol is associated with the cell surface; b) the bulk of intracellular cholesterol, approximately 10% of total, is derived from internalized (endocytic) plasma membrane; and c) the most recently synthesized cholesterol, approximately 1% of the total, is in a discrete organelle.