Filipp Fabian V, Sattler Michael
European Molecular Biology Laboratory, Meyerhofstrasse 1, D-69117 Heidelberg, Germany.
Biochemistry. 2007 Jul 10;46(27):7980-91. doi: 10.1021/bi6025616. Epub 2007 Jun 13.
The nonspecific lipid transfer protein sterol carrier protein 2 (SCP2) is involved in organellar fatty acid metabolism. A hydrophobic cavity in the structure of SCP2 accommodates a wide variety of apolar ligands such as cholesterol derivatives or fatty acyl-coenzyme A (CoA) conjugates. The properties of this nonspecific lipid binding pocket are explored using NMR chemical shift perturbations, paramagnetic relaxation enhancement, amide hydrogen exchange, and 15N relaxation measurements. A common binding cavity shared by different physiological ligands is identified. NMR relaxation measurements reveal that residues in the three C-terminal alpha-helices within the lipid binding region exhibit mobility at fast (picosecond to nanosecond) and slow (microsecond to millisecond) time scales. Ligand binding is associated with a considerable loss of peptide backbone mobility. The observed conformational dynamics in SCP2 may play a role for the access of hydrophobic ligands to an occluded binding pocket. The C-terminal peroxisomal targeting signal of SCP2 is specifically recognized by the Pex5p receptor protein, which conducts cargo proteins toward the peroxisomal organelle. Neither the C-terminal targeting signal nor the N-terminal precursor sequence interferes with lipid binding by SCP2. The alpha-helices involved in lipid binding also mediate a secondary interaction interface with the Pex5p receptor. Silencing of conformational dynamics of the peptide backbone in these helices upon either lipid or Pex5p binding might communicate the loading state of the cargo protein to the targeting receptor.
非特异性脂质转运蛋白固醇载体蛋白2(SCP2)参与细胞器脂肪酸代谢。SCP2结构中的疏水腔可容纳多种非极性配体,如胆固醇衍生物或脂肪酰辅酶A(CoA)共轭物。利用核磁共振化学位移扰动、顺磁弛豫增强、酰胺氢交换和15N弛豫测量来探究这种非特异性脂质结合口袋的特性。确定了不同生理配体共享的一个共同结合腔。核磁共振弛豫测量表明,脂质结合区域内三个C末端α螺旋中的残基在快速(皮秒到纳秒)和慢速(微秒到毫秒)时间尺度上表现出流动性。配体结合与肽主链流动性的显著丧失有关。在SCP2中观察到的构象动力学可能对疏水配体进入封闭的结合口袋起作用。SCP2的C末端过氧化物酶体靶向信号被Pex5p受体蛋白特异性识别,该蛋白将货物蛋白导向过氧化物酶体细胞器。C末端靶向信号和N末端前体序列均不干扰SCP2的脂质结合。参与脂质结合的α螺旋还介导了与Pex5p受体的二级相互作用界面。在脂质或Pex5p结合后,这些螺旋中肽主链构象动力学的沉默可能将货物蛋白的负载状态传递给靶向受体。