McKibbin Craig, Farmer Nicola A, Jeans Chris, Reeves Philip J, Khorana H Gobind, Wallace B A, Edwards Patricia C, Villa Claudio, Booth Paula J
Department of Biochemistry, University of Bristol, Bristol BS8 1TD, UK.
J Mol Biol. 2007 Dec 14;374(5):1319-32. doi: 10.1016/j.jmb.2007.10.018. Epub 2007 Oct 13.
Integral membrane proteins do not fare well when extracted from biological membranes and are unstable or lose activity in detergents commonly used for structure and function investigations. We show that phospholipid bicelles provide a valuable means of preserving alpha-helical membrane proteins in vitro by supplying a soluble lipid bilayer fragment. Both 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC)/3-[(cholamidopropyl)dimethyl-ammonio]-1-propane sulfonate (Chaps) and DMPC/l-alpha-1,2-dihexanoyl-sn-glycero-3-phosphocholine (DHPC) bicelles dramatically increase the stability of the mammalian vision receptor rhodopsin as well as its apoprotein, opsin. Opsin is particularly unstable in detergent solution but can be directly purified into DMPC/Chaps. We show that opsin can also be directly purified in DMPC/DHPC bicelles to give correctly folded functional opsin, as shown by the ability to regenerate rhodopsin to approximately 70% yield. These well-characterised DMPC/DHPC bicelles enable us to probe the influence of bicelle properties on opsin stability. These bicelles are thought to provide DMPC bilayer fragments with most DHPC capping the bilayer edge, giving a soluble bilayer disc. Opsin stability is shown to be modulated by the q value, the ratio of DMPC to DHPC, which reflects changes in the bicelle size and, thus, proportion of DMPC bilayer present. The observed changes in stability also correlate with loss of opsin secondary structure as determined by synchrotron far-UV circular dichroism spectroscopy; the most stable bicelle results in the least helix loss. The inclusion of Chaps rather than DHPC in the DMPC/Chaps bicelles, however, imparts the greatest stability. This suggests that it is not just the DMPC bilayer fragment in the bicelles that stabilises the protein, but that Chaps provides additional stability either through direct interaction with the protein or by altering the DMPC/Chaps bilayer properties within the bicelle. The significant stability enhancements and preservation of secondary structure reported here in bicelles are pertinent to other membrane proteins, notably G-protein-coupled receptors, which are unstable in detergent solution.
整合膜蛋白从生物膜中提取时效果不佳,在常用于结构和功能研究的去污剂中不稳定或失去活性。我们表明,磷脂双分子层通过提供可溶性脂质双层片段,为在体外保存α-螺旋膜蛋白提供了一种有价值的方法。1,2-二肉豆蔻酰-sn-甘油-3-磷酸胆碱(DMPC)/3-[(胆酰胺丙基)二甲基铵]-1-丙烷磺酸盐(Chaps)和DMPC/1-α-1,2-二己酰-sn-甘油-3-磷酸胆碱(DHPC)双分子层都显著提高了哺乳动物视觉受体视紫红质及其脱辅基蛋白视蛋白的稳定性。视蛋白在去污剂溶液中特别不稳定,但可以直接纯化到DMPC/Chaps中。我们表明,视蛋白也可以直接在DMPC/DHPC双分子层中纯化,得到正确折叠的功能性视蛋白,视紫红质再生产率约为70%就证明了这一点。这些特性明确的DMPC/DHPC双分子层使我们能够探究双分子层性质对视蛋白稳定性的影响。这些双分子层被认为提供了DMPC双层片段,大部分DHPC覆盖双层边缘,形成一个可溶性双层盘。视蛋白稳定性显示受q值(DMPC与DHPC的比例)调节,该值反映了双分子层大小的变化,从而反映了存在的DMPC双层的比例。观察到的稳定性变化也与同步辐射远紫外圆二色光谱测定的视蛋白二级结构损失相关;最稳定的双分子层导致螺旋损失最少。然而,在DMPC/Chaps双分子层中包含Chaps而不是DHPC,赋予了最大的稳定性。这表明不仅双分子层中的DMPC双层片段使蛋白质稳定,而且Chaps通过与蛋白质的直接相互作用或通过改变双分子层内的DMPC/Chaps双层性质提供了额外的稳定性。本文报道的双分子层中显著的稳定性增强和二级结构保留与其他膜蛋白相关,特别是在去污剂溶液中不稳定的G蛋白偶联受体。
