OBJECTIVE: To determine whether cholesteryl ester transfer protein (CETP) directly mediates selective uptake of high-density lipoprotein (HDL)-cholesteryl ester (CE) by hepatocytes and to quantify the effects of the CETP inhibitor, torcetrapib, on this process. METHODS AND RESULTS: Using adenovirus-mediated CETP (ad-CETP) expression in primary mouse hepatocytes from either wild-type, low-density lipoprotein (LDL) receptor-/- or SR-BI-/- mice, we demonstrate that CETP enhances the selective accumulation of HDL-derived 3H-CE independently of known lipoprotein receptors. Addition of torcetrapib to the media did not impair the ability of cell-associated CETP to enhance CE uptake but reduced the ability of exogenously added CETP to increase selective uptake by up to 80%. When mice were infected with ad-CETP or ad-Luciferase and treated with daily intravenous injections of torcetrapib or vehicle, hepatic CETP expression resulted in a 50% decrease in HDL cholesterol in vehicle-treated animals versus a 33% decrease in HDL cholesterol in mice treated with torcetrapib. CONCLUSIONS: CETP mediates selective uptake of HDL-CE by hepatocytes by both torcetrapib-sensitive (exogenous CETP) and torcetrapib-insensitive (cell-associated CETP) mechanisms. Hepatic expression of CETP in vivo results in a marked decrease in cholesterol in particles in the HDL density range, consistent with a physiological role for hepatocyte CETP in selective uptake.
OBJECTIVE: To determine whether cholesteryl ester transfer protein (CETP) directly mediates selective uptake of high-density lipoprotein (HDL)-cholesteryl ester (CE) by hepatocytes and to quantify the effects of the CETP inhibitor, torcetrapib, on this process. METHODS AND RESULTS: Using adenovirus-mediated CETP (ad-CETP) expression in primary mouse hepatocytes from either wild-type, low-density lipoprotein (LDL) receptor-/- or SR-BI-/- mice, we demonstrate that CETP enhances the selective accumulation of HDL-derived 3H-CE independently of known lipoprotein receptors. Addition of torcetrapib to the media did not impair the ability of cell-associated CETP to enhance CE uptake but reduced the ability of exogenously added CETP to increase selective uptake by up to 80%. When mice were infected with ad-CETP or ad-Luciferase and treated with daily intravenous injections of torcetrapib or vehicle, hepatic CETP expression resulted in a 50% decrease in HDL cholesterol in vehicle-treated animals versus a 33% decrease in HDL cholesterol in mice treated with torcetrapib. CONCLUSIONS: CETP mediates selective uptake of HDL-CE by hepatocytes by both torcetrapib-sensitive (exogenous CETP) and torcetrapib-insensitive (cell-associated CETP) mechanisms. Hepatic expression of CETP in vivo results in a marked decrease in cholesterol in particles in the HDL density range, consistent with a physiological role for hepatocyte CETP in selective uptake.
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