Journal of Lipid Research (Mar 2016)

Evaluation of CETP activity in vivo under non-steady-state conditions: influence of anacetrapib on HDL-TG flux[S]

  • David G. McLaren,
  • Stephen F. Previs,
  • Robert D. Phair,
  • Steven J. Stout,
  • Dan Xie,
  • Ying Chen,
  • Gino M. Salituro,
  • Suoyu S. Xu,
  • Jose M. Castro-Perez,
  • Gregory J. Opiteck,
  • Karen O. Akinsanya,
  • Michele A. Cleary,
  • Hayes M. Dansky,
  • Douglas G. Johns,
  • Thomas P. Roddy

Journal volume & issue
Vol. 57, no. 3
pp. 398 – 409

Abstract

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Studies in lipoprotein kinetics almost exclusively rely on steady-state approaches to modeling. Herein, we have used a non-steady-state experimental design to examine the role of cholesteryl ester transfer protein (CETP) in mediating HDL-TG flux in vivo in rhesus macaques, and therefore, we developed an alternative strategy to model the data. Two isotopomers ([2H11] and [13C18]) of oleic acid were administered (orally and intravenously, respectively) to serve as precursors for labeling TGs in apoB-containing lipoproteins. The flux of a specific TG (52:2) from these donor lipoproteins to HDL was used as the measure of CETP activity; calculations are also presented to estimate total HDL-TG flux. Based on our data, we estimate that the peak total postprandial TG flux to HDL via CETP is ∼13 mg·h−1·kg−1 and show that this transfer was inhibited by 97% following anacetrapib treatment. Collectively, these data demonstrate that HDL TG flux can be used as a measure of CETP activity in vivo. The fact that the donor lipoproteins can be labeled in situ using well-established stable isotope tracer techniques suggests ways to measure this activity for native lipoproteins in free-living subjects under any physiological conditions.

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