Human cholesteryl ester transport protein transgene promotes macrophage reverse cholesterol transport in C57BL/6 mice and phospholipid transfer protein gene knockout mice

Cholesteryl ester transfer protein (CETP) and phospholipid transfer protein (PLTP) belong to the same gene family. Liver-specific expression of CETP improves reverse cholesterol transport (RCT) and PLTP knockout (KO) decreases RCT in mice. In this study, we investigate the effect of CETP transgene (CETP-tg) on RCT and whether CETP-tg can partially restore RCT efficiency in PLTP KO mice. Several rounds of crossing were carried out to produce colonies of wild type (WT), CETP-tg, PLTP KO, and CETP-tg x PLTP KO mice were obtained after several generations of reproduction. The efficiency of RCT was detected using [H-3]-cholesterol-laden macrophages, and the underlying mechanisms were investigated by multiple techniques. Our data demonstrated that CETP-tg significantly increased the transport rate of [H-3]-cholesterol from macrophages to plasma and liver, and finally the excretion through feces compared to the WT littermates. The RCT improving effect of CETP-tg was similar in PLTPKO mice. Furthermore, CETP-tg did not affect the expression of RCT-related proteins, such as low-density lipoprotein receptor. The mechanisms of improving RCT may be attributed to the low level of oxidized lipids in CETP-tg mouse and CETP-mediated lipid transport. Collectively, CETP-tg improves RCT in mice, and CETP can not compensate for PLTP deficiency.

Automated summary

The study demonstrates that CETP-tg improves RCT efficiency in mice, with a similar effect observed in PLTP KO mice. CETP-tg primarily enhances RCT by facilitating the transport of [H-3]-cholesterol and reducing oxidized lipid levels.