Insights into the Molecular Mechanisms of the Anti-Atherogenic Actions of Flavonoids in Normal and Obese Mice

Obesity is a major and independent risk factor for cardiovascular disease and it is strongly associated with the development of dyslipidemia, insulin resistance and type 2 diabetes. Flavonoids, a diverse group of polyphenol compounds of plant origin widely distributed in human diet, have been reported to have numerous health benefits, although the mechanisms underlying these effects have remained obscure. We analyzed the effects of chronic dietary supplementation with flavonoids extracted from cranberry (FLS) in normal and obese C57/BL6 mice compared to mice maintained on the same diets lacking FLS. Obese mice supplemented with flavonoids showed an amelioration of insulin resistance and plasma lipid profile, and a reduction of visceral fat mass. We provide evidence that the adiponectin-AMPK pathway is the main mediator of the improvement of these metabolic disorders. In contrast, the reduced plasma atherogenic cholesterol observed in normal mice under FLS seems to be due to a downregulation of the hepatic cholesterol synthesis pathway. Overall, we demonstrate for the first time that the molecular mechanisms underlying the beneficial effects of flavonoids are determined by the metabolic state

Effect of hypocholesterolemic doses of 17 alpha-ethinyl estradiol on cholesterol balance in liver and extrahepatic tissues

This study was performed to investigate the effects of 17 alpha-ethinyl estradiol, a potent hypocholesterolemic agent at pharmacological doses, on cholesterol balance in the liver and extrahepatic tissues of the rat in vivo. Female Sprague-Dawley rats were treated with 17 alpha-ethinyl estradiol (5 mg/kg per day s.c. for 5 days) or with 4-aminopyrazolo(3,4-d)pyrimidine (20 mg/kg per day i.p. for 3 days). Both drug regimens suppressed plasma total and low density lipoprotein-cholesterol by more than 80%. Analysis of the kinetic parameters of low density lipoprotein transport did not show increased receptor activity in extrahepatic tissues during either treatment. 17 alpha-Ethinyl estradiol significantly increased low density lipoprotein tissue spaces and clearance rates in the liver, with a 5-fold increase in low density lipoprotein-receptor activity, whereas 4-aminopyrazolo(3,4-d)pyrimidine suppressed hepatic transport of low density lipoprotein probably due to a nonspecific toxic effect. Treatment with 17 alpha-ethinyl estradiol markedly enhanced the hepatic expression of low density lipoprotein-receptor protein and mRNA despite a 7-fold increase in hepatic cholesteryl ester levels. Finally, treatment with both drugs increased cholesterol synthesis in several extrahepatic tissues, such as adrenals, ovaries, small bowel, and spleen. These findings confirm that 17 alpha-ethinyl estradiol at pharmacological doses markedly increases synthesis and expression of low density lipoprotein-receptor in the liver. Hypocholesterolemia, whether induced by activation of low density lipoprotein-receptors or by other mechanisms, fails to up-regulate low density lipoprotein transport in extrahepatic tissues, which rather respond by increasing local sterol synthesis. This suggests the occurrence of separate regulatory mechanisms for low density lipoprotein transport and cholesterol synthesis

Inhibition of intestinal cholesterol absorption by surfomer [alpha-olefin maleic acid] affects hepatic cholesterol synthesis and low density lipoprotein transport in hamsters fed a fat-enriched diet

Background, Surfomer (alpha -olefin maleic acid) reduces intestinal cholesterol absorption. Aims. This study was performed to investigate the effect of surfomer on cholesterol synthesis and low density lipoprotein in hamsters fed a hypercholesterolaemic, lipid-enriched diet. Animals and methods. Male hamsters were fed a diet enriched in cholesterol (0.07%) and saturated fatty acids (coconut oil 20%); the diet was supplemented with 3% surfomer: for 1-4 weeks. Cholesterol synthesis was assessed measuring incorporation of [H-3]water into tissue sterols; low density lipoprotein clearance was determined using a primed-continuous infusion of [I-125]tyramine-cellobiose lipoprotein. Results. Cholesterol synthesis was suppressed after 3 weeks of hyperlipidaemic diet in liver and small bowel (by 88% and 38%, respectively) and was significantly increased by supplementing the fat-enriched diet with surfomer. Low density lipoprotein-cholesterol was increased by 44% after 4 weeks of hyperlipidaemic diet, in parallel with a decrease in hepatic low density lipoprotein clearance rates (48 +/-3 vs 68 +/-7 mul of plasma/h per g of tissue). Concurrent treatment with surfomer for 1, P or 4 weeks prevented the decrease of clearance and maintained normal low density lipoprotein-cholesterol levels at all time points, Conclusions. Surfomer represents a powerful tool to investigate the impact of cholesterol absorption on sterol homeostasis. Furthermore, since surfomer appears to normalize low density lipoprotein transport in hamsters fed a diet comparable to a lipid-rich western-style regimen, this drug may deserve consideration as an adjunct treatment for hypercholesterolaemia in selected patient groups

REGULATION OF HEPATIC CHOLESTEROL-METABOLISM IN THE RAT IN-VIVO. EFFECT OF A SYNTHETIC FAT-FREE DIET ON STEROL SYNTHESIS AND LOW-DENSITY-LIPOPROTEIN TRANSPORT

A synthetic fat-free diet, previously shown to decrease hepatic cholesterol synthesis, was utilized to manipulate cholesterol balance in vivo in female Sprague-Dawley rats. A significant 65% decrease of hepatic cholesterol synthesis compared to controls was shown after 1 week of treatment, which remained constant during the following 3 weeks. The inhibitory effect of the diet was completely abolished by cholestyramine supplementation. At week 3 of the experimental diet, bile acid synthesis was reduced by 63%, this reduction being correlated with decreased recycling frequency of the bile acid pool. Hepatic clearance of low-density lipoprotein (LDL) was slightly decreased, with no changes in plasma cholesterol, hepatic LDL-cholesterol uptake and whole body LDL-cholesterol production. When cholesterol and saturated fatty acids were supplemented to the diets in the attempt to disclose alteration in LDL transport, LDL clearance was unaffected; plasma LDL-cholesterol and hepatic LDL-cholesterol uptake were increased, as a consequence of increased LDL-cholesterol production. On the other hand, hepatic cholesterol synthesis was further suppressed; bile acid synthesis was increased by cholesterol supplementation in the fat-free group, even if to subnormal levels. These findings suggest that: (1) bile acid synthesis is decreased by feeding a synthetic fat-free diet, probably due to slower recirculation of bile acids along the entero-hepatic axis in conditions of reduced functional need; (2) consequently, a significant reduction of hepatic cholesterol synthesis is observed with no changes in LDL-cholesterol uptake; (3) further supplementation of dietary cholesterol and saturated fats is compensated for by changes in the rates of cholesterol and bile acid synthesis, but not of LDL transport. The data confirm the existence of independent regulation for hepatic sterol synthesis and LDL transport in this species