A novel cholesteryl ester transfer protein promoter polymorphism (−971G/A) associated with plasma high-density lipoprotein cholesterol levels: Interaction with the TaqIB and −629C/A polymorphisms

Abstract

The plasma cholesteryl ester transfer protein (CETP) plays a key role in reverse cholesterol transport (RCT) by mediating the transfer of cholesteryl ester (CE) from high-density lipoprotein (HDL) to atherogenic ApoB-containing lipoproteins, including VLDL, IDL and LDL. We describe a new polymorphism located at position −971 in the human CETP gene promoter, which corresponds to a G/A substitution at a potential AvaI restriction site. The relationship between the −971G/A polymorphism, plasma lipid parameters and plasma CETP concentration was evaluated in the Etude Cas-Témoins de l'Infarctus du Myocarde (control–myocardial infarction cases) cohort, and revealed that the −971G/A polymorphism (A allele frequency: 0.491) was significantly associated with both plasma high-density lipoprotein cholesterol (HDL-C) levels and CETP concentration ( P=0.006 and 0.009, respectively). Subjects with genotype −971GG displayed both low HDL-C levels and high plasma CETP concentration, while genotype −971AA subjects displayed the inverse relationship. Evaluation of potential interactions between the −971G/A and the −629C/A or TaqIB polymorphisms demonstrated that the −971G/A polymorphism interacts significantly with the functional −629C/A site and the TaqIB polymorphism with respect to plasma HDL-C levels ( P=0.0014 and 0.012, respectively), but does not affect plasma CETP concentration. These results clearly suggest that the interaction between the 971G/A polymorphism and either the −629C/A or the TaqIB polymorphism on plasma CETP concentration is different than that implicated in HDL-C levels. Transient transfection of HepG2 cells revealed that the −971G/A polymorphism did not modulate transcriptional activity of the human CETP gene promoter. The −971G/A promoter polymorphism therefore constitutes a non-functional marker. Furthermore, the observed effects of the −971G/A polymorphism on both plasma CETP concentration and HDL-C levels are due to functional variants in linkage disequilibrium with it. Our findings strongly suggest the existence of as yet unidentified functional polymorphisms in the CETP gene promoter that could explain the association between specific polymorphisms of the CETP gene and both plasma HDL-C and CETP concentrations.