Department of Biochemistry, Weill Cornell Medical College, New York, NY 10065, USA.
Curr Biol. 2011 Jan 25;21(2):149-53. doi: 10.1016/j.cub.2010.12.031. Epub 2011 Jan 13.
Polar lipids must flip-flop rapidly across biological membranes to sustain cellular life [1, 2], but flipping is energetically costly [3] and its intrinsic rate is low. To overcome this problem, cells have membrane proteins that function as lipid transporters (flippases) to accelerate flipping to a physiologically relevant rate. Flippases that operate at the plasma membrane of eukaryotes, coupling ATP hydrolysis to unidirectional lipid flipping, have been defined at a molecular level [2]. On the other hand, ATP-independent bidirectional flippases that translocate lipids in biogenic compartments, e.g., the endoplasmic reticulum, and specialized membranes, e.g., photoreceptor discs [4, 5], have not been identified even though their activity has been recognized for more than 30 years [1]. Here, we demonstrate that opsin is the ATP-independent phospholipid flippase of photoreceptor discs. We show that reconstitution of opsin into large unilamellar vesicles promotes rapid (τ<10 s) flipping of phospholipid probes across the vesicle membrane. This is the first molecular identification of an ATP-independent phospholipid flippase in any system. It reveals an unexpected activity for opsin and, in conjunction with recently available structural information on this G protein-coupled receptor [6, 7], significantly advances our understanding of the mechanism of ATP-independent lipid flip-flop.
极性脂质必须在生物膜中快速翻转才能维持细胞生命[1,2],但翻转是能量消耗高的[3],其固有速率低。为了解决这个问题,细胞具有膜蛋白,作为脂质转运蛋白(翻转酶)来加速翻转到生理相关的速率。在分子水平上已经定义了在真核生物质膜上起作用的、将 ATP 水解与单向脂质翻转偶联的翻转酶[2]。另一方面,尽管其活性已经被认识超过 30 年[1],但尚未鉴定出在生物发生隔室(例如内质网)和专门的膜(例如光感受器盘)中进行双向翻转的、ATP 非依赖性的双向翻转酶,它们可以转运脂质。在这里,我们证明视蛋白是光感受器盘中的 ATP 非依赖性磷脂翻转酶。我们表明,视蛋白的重组到大单层囊泡中促进磷脂探针快速(τ<10 s)跨囊泡膜翻转。这是在任何系统中首次对 ATP 非依赖性磷脂翻转酶的分子鉴定。它揭示了视蛋白的意外活性,并且结合最近获得的关于这种 G 蛋白偶联受体的结构信息[6,7],极大地促进了我们对 ATP 非依赖性脂质翻转机制的理解。