Ledford Aubrey S, Cook Victoria A, Shelness Gregory S, Weinberg Richard B
Department of Pathology, Wake Forest University School of Medicine, Winston-Salem, NC 27157, USA.
J Lipid Res. 2009 Jan;50(1):108-15. doi: 10.1194/jlr.M800324-JLR200. Epub 2008 Aug 18.
To better understand the earliest steps in the assembly of triglyceride (TG)-rich lipoproteins, we compared the biophysical and interfacial properties of two closely related apolipoprotein B (apoB) truncation mutants, one of which contains the complete lipoprotein initiating domain (apoB20.1; residues 1-912), and one of which, by virtue of a 50 amino acid C-terminal truncation, is incapable of forming nascent lipoproteins (apoB19; residues 1-862). Spectroscopic studies detected no major differences in secondary structure, and only minor differences in conformation and thermodynamic stability, between the two truncation mutants. Monolayer studies revealed that both apoB19 and apoB20.1 bound to and penetrated egg phosphatidylcholine (EPC) monolayers; however, the interfacial exclusion pressure of apoB20.1 was higher than apoB19 (25.1 mN/m vs. 22.8 mN/m). Oil drop tensiometry revealed that both proteins bound rapidly to the hydrophobic triolein/water interface, reducing interfacial tension by approximately 20 mN/m. However, when triolein drops were first coated with phospholipids (PL), apoB20.1 bound with faster kinetics than apoB19 and also displayed greater interfacial elasticity (26.9 +/- 0.8 mN/m vs. 22.9 +/- 0.8 mN/m). These data establish that the transition of apoB to assembly competence is accompanied by increases in surface activity and elasticity, but not by significant changes in global structure.
为了更好地理解富含甘油三酯(TG)的脂蛋白组装的最早步骤,我们比较了两种密切相关的载脂蛋白B(apoB)截短突变体的生物物理和界面特性,其中一种包含完整的脂蛋白起始结构域(apoB20.1;第1 - 912位氨基酸残基),另一种由于C末端截短了50个氨基酸,无法形成新生脂蛋白(apoB19;第1 - 862位氨基酸残基)。光谱研究未检测到两种截短突变体在二级结构上有重大差异,仅在构象和热力学稳定性上有微小差异。单层研究表明,apoB19和apoB20.1都能结合并穿透卵磷脂(EPC)单层;然而,apoB20.1的界面排斥压力高于apoB19(25.1 mN/m对22.8 mN/m)。油滴张力测定表明,两种蛋白质都能迅速结合到疏水的三油酸甘油酯/水界面,使界面张力降低约20 mN/m。然而,当三油酸甘油酯滴首先用磷脂(PL)包被时,apoB20.1比apoB19结合动力学更快,并且还表现出更大的界面弹性(26.9±0.8 mN/m对22.9±0.8 mN/m)。这些数据表明,apoB向组装能力的转变伴随着表面活性和弹性的增加,但整体结构没有显著变化。