Maugeais Cyrille, Perez Anne, von der Mark Elisabeth, Magg Christine, Pflieger Philippe, Niesor Eric J
F. Hoffmann-La Roche Ltd., Pharma Research & Early Development, DTA Cardiovascular and Metabolism, CH-4070, Basel, Switzerland.
F. Hoffmann-La Roche Ltd., Pharma Research & Early Development, DTA Cardiovascular and Metabolism, CH-4070, Basel, Switzerland.
Biochim Biophys Acta. 2013 Nov;1831(11):1644-50. doi: 10.1016/j.bbalip.2013.07.007. Epub 2013 Jul 19.
Cholesteryl ester transfer protein (CETP), a key regulator of high-density lipoprotein (HDL) metabolism, induces HDL remodeling by transferring lipids between apolipoprotein B-containing lipoproteins and HDL, and/or by promoting lipid transfer between HDL subparticles. In this study, we investigated the mechanism as to how CETP induces the generation of lipid-poor particles (pre-β-HDL) from HDL, which increases ATP-binding cassette transporter 1-mediated cholesterol efflux. This CETP-dependent HDL remodeling is enhanced by the CETP modulator dalcetrapib both in plasma and isolated HDL. The interaction of dalcetrapib with cysteine 13 of CETP is required, since this effect was abolished when using mutant CETP in which cysteine 13 was substituted for a serine residue. Other thiol-containing compounds were identified as CETP modulators interacting with cysteine 13 of CETP. In order to mimic dalcetrapib-bound CETP, mutant CETP proteins were prepared by replacing cysteine 13 with the bulky amino acid tyrosine or tryptophan. The resultant mutants showed virtually no CETP-dependent lipid transfer activity but demonstrated preserved CETP-dependent pre-β-HDL generation. Overall, these data demonstrate that the two functions of CETP i.e., cholesteryl ester transfer and HDL remodeling can be uncoupled by interaction of thiol-containing compounds with cysteine 13 of CETP or by introducing large amino acid residues in place of cysteine 13.
胆固醇酯转运蛋白(CETP)是高密度脂蛋白(HDL)代谢的关键调节因子,它通过在含载脂蛋白B的脂蛋白与HDL之间转移脂质,和/或通过促进HDL亚颗粒之间的脂质转移来诱导HDL重塑。在本研究中,我们研究了CETP如何诱导HDL产生脂质贫乏颗粒(前β-HDL)的机制,这种颗粒可增加ATP结合盒转运体1介导的胆固醇外流。CETP调节剂达塞曲匹在血浆和分离的HDL中均增强了这种依赖CETP的HDL重塑。达塞曲匹与CETP的半胱氨酸13相互作用是必需的,因为当使用将半胱氨酸13替换为丝氨酸残基的突变型CETP时,这种作用就会消失。其他含硫醇的化合物被鉴定为与CETP的半胱氨酸13相互作用的CETP调节剂。为了模拟与达塞曲匹结合的CETP,通过用庞大的氨基酸酪氨酸或色氨酸替换半胱氨酸13来制备突变型CETP蛋白。所得突变体几乎没有CETP依赖性脂质转移活性,但显示出保留的CETP依赖性前β-HDL生成。总体而言,这些数据表明,CETP的两种功能,即胆固醇酯转移和HDL重塑,可以通过含硫醇的化合物与CETP的半胱氨酸13相互作用或通过引入大的氨基酸残基取代半胱氨酸13来实现解偶联。
