Susan Hauser scite author profile

The 7a-hydroxylation of two cholesterol analogues, sitosterol and cholestanol, and their effect on the 7a-hydroxylation of cholesterol were measured in rat and human hepatic microsomes. In untreated rat liver microsomes, the 7a-hydroxylation of cholesterol was higher than that of cholestanol (1.4-fold) and sitosterol (30-fold). After removal of endogenous sterols from the microsomes by acetone treatment, the 7a-hydroxylation of cholesterol was similar to that of cholestanol and only fourfold higher than that of sitosterol. Cholestanol and sitosterol competitively inhibited cholesterol 7a-hydroxylase in both rat and human liver microsomes, with cholestanol the more potent inhibitor. Patients with sitosterolemia with xanthomatosis, who have elevated microsomal cholestanol and sitosterol, showed reduced cholesterol 7a-hydroxylase activity relative to the activity in control subjects (13.9 and 14.7 vs. 20.3±0.9 pmol/nmol P450 per min, P < 0.01). Enzyme activity in these patients was 40% higher when measured in microsomes from which competing sterols had been removed. Ileal bypass surgery in one sitosterolemic patient decreased plasma cholestanol and sitosterol concentrations and resulted in a 30% increase in hepatic microsomal cholesterol 7a-hydroxylase activity. Cholesterol 7a-hydroxylase appears to have a specific apolar binding site for the side chain of cholesterol and is affected by the presence of cholestanol and sitosterol in the microsomal substrate pool. Reduced bile acid synthesis in sitosterolemia with xanthomatosis may be related to the inhibition of cholesterol 7a-hydroxylase activity by endogenous cholesterol analogues.

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Rapid identification of smith-lemlip-opitz syndrome homozygotes and heterozygotes (carriers) by measurement of deficient 7-dehydrocholesterol-Δ7-reductase activity in fibroblasts

Shefer

Salen

Honda

et al. 1997

Metabolism

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Comparative effects of cholestanol and cholesterol on hepatic sterol and bile acid metabolism in the rat.

Shefer¹,

Hauser²,

Salen³

et al. 1984

J. Clin. Invest.

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Abstract. Large amounts of cholestanol, the 5a-dihydro derivative of cholesterol are found in tissues of patients with the rare inherited sterol storage disease cerebrotendinous xanthomatosis. Although small amounts of cholestanol are present in virtually every tissue of normal man, little is known about its metabolism and effect on cholesterol and bile acid formation. The purpose of this study is to investigate the absorption and metabolism of cholestanol and its early effects on hepatic morphology and on the rate-limiting enzymes of cholesterol and bile acid biosynthesis. After 2 wk on a diet supplemented with 2% cholestanol, total liver sterol content increased by 48% (3.26 vs. 2.20 mg/g), and resulted in a significant rise in hepatic cholestanol concentration to 1.4 mg/g. However, cholestanol was less efficiently absorbed from the intestine than cholesterol and interfered with cholesterol absorption. Furthermore, hepatic hydroxymethylglutaryl-coenzyme A (HMG-CoA) reductase activity rose 2.6-fold (from 150.3 to 397.0 pmol/mg per min) during cholestanol feeding, and was associated with a marked proliferation of the smooth endoplasmic reticulum of the centrilobular areas. In addition, significant amounts of allocholic acid (16%) and allochenodeoxycholic acid (5%) were formed from cholestanol and excreted in the bile. These results show that cholestanol is absorbed from the intestine, interferes with cholesterol absorption, and is deposited in the liver. However, in contrast to cholesterol, cholestanol feeding was associated with a marked elevation of HMG-CoA

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7α-Hydroxylation of cholestanol by rat liver microsomes

Shefer

Hauser

Mosbach

1968

Journal of Lipid Research

236

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Biochemical site of regulation of bile acid biosynthesis in the rat

Shefer

Hauser

Bekersky

et al. 1970

Journal of Lipid Research

233

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Susan Hauser

Competitive inhibition of bile acid synthesis by endogenous cholestanol and sitosterol in sitosterolemia with xanthomatosis. Effect on cholesterol 7 alpha-hydroxylase.

Rapid identification of smith-lemlip-opitz syndrome homozygotes and heterozygotes (carriers) by measurement of deficient 7-dehydrocholesterol-Δ7-reductase activity in fibroblasts

Comparative effects of cholestanol and cholesterol on hepatic sterol and bile acid metabolism in the rat.

7α-Hydroxylation of cholestanol by rat liver microsomes

Biochemical site of regulation of bile acid biosynthesis in the rat

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