Abstract
This study was designed to establish the mechanism responsible for the increased apolipoprotein (apo) A-II levels caused by the cholesteryl ester transfer protein inhibitor torcetrapib. Nineteen subjects with low HDL cholesterol (<40 mg/dl), nine of whom were also treated with 20 mg of atorvastatin daily, received placebo for 4 weeks, followed by 120 mg of torcetrapib daily for the next 4 weeks. Six subjects in the nonatorvastatin cohort participated in a third phase, in which they received 120 mg of torcetrapib twice daily for 4 weeks. At the end of each phase, subjects underwent a primed-constant infusion of [5,5,5-(2)H(3)]L-leucine to determine the kinetics of HDL apoA-II. Relative to placebo, torcetrapib significantly increased apoA-II concentrations by reducing HDL apoA-II catabolism in the atorvastatin (-9.4%, P < 0.003) and nonatorvastatin once- (-9.9%, P = 0.02) and twice- (-13.2%, P = 0.02) daily cohorts. Torcetrapib significantly increased the amount of apoA-II in the alpha-2-migrating subpopulation of HDL when given as monotherapy (27%, P < 0.02; 57%, P < 0.003) or on a background of atorvastatin (28%, P < 0.01). In contrast, torcetrapib reduced concentrations of apoA-II in alpha-3-migrating HDL, with mean reductions of -14% (P = 0.23), -18% (P < 0.02), and -18% (P < 0.01) noted during the atorvastatin and nonatorvastatin 120 mg once- and twice-daily phases, respectively. Our findings indicate that CETP inhibition increases plasma concentrations of apoA-II by delaying HDL apoA-II catabolism and significantly alters the remodeling of apoA-II-containing HDL subpopulations.
Highlights
This study was designed to establish the mechanism responsible for the increased apolipoprotein A-II levels caused by the cholesteryl ester transfer protein inhibitor torcetrapib
Because of its critical role in HDL metabolism, cholesteryl ester transfer protein (CETP) represents an attractive target for HDL-raising therapies
Given the key role that apoA-II plays in HDL metabolism, the present study was designed to establish the mechanism responsible for the increased apoA-II levels caused by CETP inhibition and to determine the effect of CETP inhibition on concentrations of apoA-II-containing HDL particles
Summary
This study was designed to establish the mechanism responsible for the increased apolipoprotein (apo) A-II levels caused by the cholesteryl ester transfer protein inhibitor torcetrapib. Torcetrapib significantly increased apoA-II concentrations by reducing HDL apoA-II catabolism in the atorvastatin (29.4%, P , 0.003) and nonatorvastatin once- (29.9%, P 5 0.02) and twice- (213.2%, P 5 0.02) daily cohorts. Torcetrapib reduced concentrations of apoA-II in a-3-migrating HDL, with mean reductions of 214% (P 5 0.23), 218% (P , 0.02), and 218% (P , 0.01) noted during the atorvastatin and nonatorvastatin 120 mg onceand twice-daily phases, respectively. We previously reported that partial inhibition of CETP activity in humans with torcetrapib significantly increased steady-state concentrations of apoA-I by reducing its clearance rate [11], an effect that was thought to be beneficial. It is important to define the mechanisms responsible for the lipoprotein changes associated with CETP inhibitor therapy
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