1. Biochemical characterization of cholesteryl ester transfer protein inhibitors
- Author
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Ying Chen, Ken S. Koblan, Nadine Elowe, Mollie Ranalletta, Brian K. Hubbard, Timothy S. Fisher, Carl P. Sparrow, Ayesha Sitlani, Denise P. Milot, Mike Kavana, Elaine Tung, Gene Porter, Margarita Garcia-Calvo, Kathleen K. Bierilo, Peter J. Sinclair, Qing Chen, George H. Addona, Edward A. O'Neill, Suzanne S. Eveland, Caroline Houde, and Betsy Frantz-Wattley
- Subjects
dalcetrapib ,Dalcetrapib ,QD415-436 ,Biochemistry ,Mice ,chemistry.chemical_compound ,Endocrinology ,Anacetrapib ,Cholesterylester transfer protein ,Animals ,Humans ,triglyceride ,Sulfhydryl Compounds ,CETP inhibitor ,Research Articles ,Oxazolidinones ,Molecular Structure ,biology ,Cholesterol ,Anticholesteremic Agents ,Torcetrapib ,Esters ,Blood Proteins ,Cell Biology ,Amides ,torcetrapib ,Cholesterol Ester Transfer Proteins ,carbohydrates (lipids) ,chemistry ,Quinolines ,biology.protein ,Cholesteryl ester ,anacetrapib ,lipids (amino acids, peptides, and proteins) ,atherosclerosis ,Evacetrapib - Abstract
Cholesteryl ester transfer protein (CETP) has been identified as a novel target for increasing HDL cholesterol levels. In this report, we describe the biochemical characterization of anacetrapib, a potent inhibitor of CETP. To better understand the mechanism by which anacetrapib inhibits CETP activity, its biochemical properties were compared with CETP inhibitors from distinct structural classes, including torcetrapib and dalcetrapib. Anacetrapib and torcetrapib inhibited CETP-mediated cholesteryl ester and triglyceride transfer with similar potencies, whereas dalcetrapib was a significantly less potent inhibitor. Inhibition of CETP by both anacetrapib and torcetrapib was not time dependent, whereas the potency of dalcetrapib significantly increased with extended preincubation. Anacetrapib, torcetrapib, and dalcetrapib compete with one another for binding CETP; however anacetrapib binds reversibly and dalcetrapib covalently to CETP. In addition, dalcetrapib was found to covalently label both human and mouse plasma proteins. Each CETP inhibitor induced tight binding of CETP to HDL, indicating that these inhibitors promote the formation of a complex between CETP and HDL, resulting in inhibition of CETP activity.
- Published
- 2010
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