Abstract

Abstract Introduction It is well known that hypercholesterolemia is an important modifiable risk factor in the development of cardiovascular diseases. Lowering blood cholesterol level reduces the incidence of atherosclerotic disease. Totum-070 (T070) is a clinical stage polyphenol-rich active substance composed by the association of 5 plant extracts. Purpose We assessed the hypothesis that administration of T070 prevents hypercholesterolemia in western diet fed mice and explored the potential mechanisms involved in vitro in human enterocytes. Methods C57BL/6 mice were fed either a normal diet (ND) or western diet (WD) for 6 weeks and received either vehicle or T070 (1mg/kg or 3mg/kg) daily by gavage (n=14 mice per group). Food intake, body weight and plasma lipid were monitored along study duration. Liver and feces lipid content were quantified at the end of the study. For in vitro studies, human Caco2 cells were differentiated in transwells for 21 days. To perform cholesterol uptake assay, [1,2-3H(N)]-cholesterol was incubated in apical medium for 1 hour in presence or not of T070 prior to quantification of radioactivity in the cells. Results In mice, supplementation with T070 had no effect on food intake during the study. At the end of the in vivo study, body weight in WD-fed mice was increased to 28.3±0.8 g compared to the ND group (24.5±0.4 g, p<0.001). Interestingly, a significant (p<0.01) 29% reduction in body weight gain was observed in the T070 3mg/kg group compared to the WD group at the end of the study. Compared to WD group, total-cholesterol in mice supplemented by T070 was reduced in a dose dependent manner (298±8 mg/dl WD vs 276±9 mg/dl T070 1mg/kg, p=0.19, and 265±8 mg/dl T070 3mg/kg, p<0.05). Furthermore, hepatic steatosis induced by the WD was reduced by 73% (p<0.001) in the T070 3mg/kg group. Hepatic and intestinal gene expression were drastically altered by WD feeding compared to ND, while supplementation with T070 tended to restore normal expression levels for many genes implicated in lipid and lipoprotein metabolism. A significant increase in fecal cholesterol excretion was observed in mice supplemented with T070 3 mg/g compared to the mice fed with WD alone (442.3±151.7 nmol/day WD + T070 3mg/g vs 75.4±5.9 nmol/day WD, p<0.05). Studies in human enterocytes demonstrated that 1 g/l T070 reduced cholesterol uptake by 35% (p<0.001), suggesting that T070 inhibits intestinal cholesterol absorption. Conclusion Our results show the beneficial effect of supplementation with Totum-070 to prevent induction of hypercholesterolemia in a nutritional mouse model. Investigation of mechanisms of action in enterocytes demonstrate the role of Totum-070 to inhibit intestinal cholesterol absorption. These results highlight the interest of using Totum-070 for the management of hypercholesterolemia. Funding Acknowledgement Type of funding sources: None.

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