Inhibiting cholesterol absorption with CP-88,818 (beta-tigogenin cellobioside; tiqueside): studies in normal and hyperlipidemic subjects.

CP-88,818 (beta-tigogenin cellobioside; tiqueside) is a synthetic saponin developed to treat hypercholesterolemia by inhibiting the absorption of biliary and dietary cholesterol. Two studies are reported here: one in patients to assess safety and efficacy, and one in normal volunteers to explore the mechanism of action. The former included 15 hypercholesterolemic outpatients [low-density lipoprotein cholesterol (LDL-C) > or = 160 mg/dl] treated with 1, 2, and 3 g of tiqueside daily (b.i.d.) in a crossover design for three 2-week treatment periods, each separated by a 3-week placebo period. The mechanistic study was conducted with 24 healthy male subjects who were randomized in a parallel group design to either placebo (n = 6) or tiqueside (2 or 4 g/day; n = 9 each) once daily for 3 weeks. All subjects in this study were fed a low-fat, low-cholesterol diet [National Cholesterol Education Program (NCEP) Step 1]. Fecal steroid excretion rates and plasma lipid levels were determined at baseline and after 3 weeks of treatment. Fractional cholesterol absorption was measured before and after treatment by the continuous feeding, dual-isotope method. Tiqueside produced a dose-dependent reduction in plasma LDL cholesterol levels in the hypercholesterolemic patients. In the mechanistic study, it decreased fractional cholesterol absorption rates and increased fecal neutral sterol excretion rates, changes associated with trends toward lower LDL cholesterol levels. Other lipoprotein levels were unaffected, as were fecal fat and bile acid excretion and fat-soluble vitamin absorption. Thus tiqueside dose-dependently inhibits cholesterol absorption in humans, resulting in a reduction in serum LDL cholesterol levels.

Comparison of effects of probucol versus vitamin E on ex vivo oxidation susceptibility of lipoproteins in hyperlipoproteinemia.

Oxidative modification of low-density lipoprotein (LDL) cholesterol appears to contribute to atherogenesis. Probucol reduces LDL cholesterol oxidation susceptibility, but the consistency, dose, and time course are not well described. Twelve hyperlipidemic patients were given probucol for 4 weeks at the usual dose for cholesterol reduction (1,000 mg/day), or one half (500 mg/day) or one quarter (250 mg/day) the usual dose. Lipoprotein oxidation susceptibility of apolipoprotein B-containing lipoproteins was assessed using a rapid test in which LDL cholesterol and very-low-density lipoprotein are precipitated with dextran sulfate and magnesium ions, redissolved, incubated with copper ions for 3 hours, and tested for thiobarbituric acid-reactive substances. Results are expressed as nmoles of malonyldialdehyde (MDA) generated per mg (nmol MDA/mg) non-high-density lipoprotein cholesterol. Lipoproteins from probucol-treated patients become resistant to oxidation with a predrug value of 85 +/- 19, and decreasing to 3 +/- 1 nmol MDA/mg after drug administration (p < 0.001). Both "half" and "full" doses were effective in lowering lipoprotein oxidation susceptibility by 95%. The "quarter" dose was less effective. Oxidation inhibition was maximized within 2 weeks, returning to baseline 4 to 6 weeks after discontinuing probucol. Four patients were subsequently crossed over to vitamin E (1,200 IU/day). Vitamin E had a milder, less predictable antioxidant effect, lowering lipoprotein oxidation susceptibility by a mean of 24%. In conclusion, probucol treatment effectively and predictably reduces plasma lipoprotein susceptibility to ex vivo, copper-induced oxidation. This clinically applicable test may provide quantitation of antioxidant effects of probucol or other antioxidants and thus facilitate dose adjustments and correlation with antiatherosclerotic effects.