Rates of sterol synthesis and uptake in the major organs of the rat in vivo

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Rates of sterol synthesis and uptake in the major organs of the rat in vivo

Stephen D. Turley , John M. Andersen , and John M. Dietschy

Departments of Internal Medicine and Pediatrics, University of Texas Health Science Center at Dallas, Dallas, TX 75235

This study was undertaken to determine the rates of sterolsynthesis and uptake in the major organs of the female rat invivo. At the mid-dark phase of the light cycle, control animals,animals in which hepatic sterol synthesis had been selectivelyinhibited by chylomicron infusion and animals in which the smallintestine and liver had been surgically removed, were administered[³H]water, and the content of ³H-labeled digitonin-precipitablesterols ([³H]-DPS) in different organs was measured1 hr later. In control animals, the highest content of [³H]DPSwas found in the liver (2279 nmol/hr per g), adrenal gland (1222),ovary (791), and small bowel (529): the content of newly synthesizedsterols was much lower in 13 other tissues. By selectively inhibitingsterol synthesis in the liver or by surgically removing thesmall intestine and liver, it was determined that of the totalamount of [³H]DPS synthesized in the whole animalabout 50% had occurred in the liver, 24% in the small bowel,8% in the skin, and 18% in the remaining tissues of the carcasscombined. By analyzing the relationship between the contentof [³H]DPS in blood and in each organ, it was furtherpossible to determine how much [³H]DPS was synthesizedand how much was taken up from the blood in each tissue. Thehighest rate of uptake was found in the adrenal gland whereonly 4% of the tissue content of [³H]DPS came fromlocal synthesis. Low rates of synthesis relative to the ratesof uptake, were also found in the spleen (6%), lung (17%), andkidney (26%). In contrast, in other organs there was littleuptake of [³H]DPS from blood so that >75%of the [³H]DPS present in brain and muscle, forexample, was due to local synthesis. Lowering the circulatinglevels of plasma cholesterol markedly increased the synthesisof [³H]DPS in tissues like adrenal gland, spleen,and kidney that were dependent upon plasma cholesterol as themajor source of tissue sterols, but not in tissues such as muscleand brain. These studies have quantitated the importance ofeach major organ to total body synthesis and have delineatedthe rates of movement of [³H]DPS between major tissuecompartments of the rat.—Turley, S. D., J. M. Andersen,and J. M. Dietschy. Rates of sterol synthesis and uptake inthe major organs of the rat in vivo.

Supplementary key words cholesterol • [³H]water • lipoprotein transport • extrahepatic cholesterol synthesis

Submitted on June 23, 1980
Revised on November 19, 1980

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