Saara Laulumaa, Tuomo Nieminen, Arne Raasakka, Oda C. Krokengen, Anushik Safaryan, Erik I. Hallin, Guillaume Brysbaert, Marc F. Lensink, Salla Ruskamo, Ilpo Vattulainen, Petri Kursula
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引用次数: 16
Abstract
Myelin is a multilayered proteolipid sheath wrapped around selected axons in the nervous system. Its constituent proteins play major roles in forming of the highly regular membrane structure. P2 is a myelin-specific protein of the fatty acid binding protein (FABP) superfamily, which is able to stack lipid bilayers together, and it is a target for mutations in the human inherited neuropathy Charcot-Marie-Tooth disease. A conserved residue that has been proposed to participate in membrane and fatty acid binding and conformational changes in FABPs is Phe57. This residue is thought to be a gatekeeper for the opening of the portal region upon ligand entry and egress.
We performed a structural characterization of the F57A mutant of human P2. The mutant protein was crystallized in three crystal forms, all of which showed changes in the portal region and helix α2. In addition, the behaviour of the mutant protein upon lipid bilayer binding suggested more unfolding than previously observed for wild-type P2. On the other hand, membrane binding rendered F57A heat-stable, similarly to wild-type P2. Atomistic molecular dynamics simulations showed opening of the side of the discontinuous β barrel, giving important indications on the mechanism of portal region opening and ligand entry into FABPs. The results suggest a central role for Phe57 in regulating the opening of the portal region in human P2 and other FABPs, and the F57A mutation disturbs dynamic cross-correlation networks in the portal region of P2.
Overall, the F57A variant presents similar properties to the P2 patient mutations recently linked to Charcot-Marie-Tooth disease. Our results identify Phe57 as a residue regulating conformational changes that may accompany membrane surface binding and ligand exchange in P2 and other FABPs.
髓磷脂是包裹在神经系统特定轴突周围的多层蛋白脂鞘。其组成蛋白在形成高度规则的膜结构中起主要作用。P2是脂肪酸结合蛋白(FABP)超家族中的髓磷脂特异性蛋白,能够将脂质双层堆叠在一起,并且是人类遗传性神经病变charco - marie - tooth病突变的靶标。一个被认为参与FABPs膜和脂肪酸结合以及构象改变的保守残基是Phe57。这种残基被认为是在配体进入和离开时门户区域打开的守门人。我们对人类P2基因的F57A突变体进行了结构表征。突变蛋白有三种结晶形式,均表现出门区和螺旋α2的变化。此外,突变蛋白在脂质双分子层结合上的行为表明,与之前观察到的野生型P2相比,突变蛋白的展开程度更高。另一方面,膜结合使F57A热稳定,与野生型P2相似。原子分子动力学模拟表明,不连续β桶的一侧有开放,这为研究门静脉区开放和配体进入FABPs的机制提供了重要的指示。结果表明,Phe57在调节人类P2和其他FABPs的门静脉区开放中起核心作用,而F57A突变扰乱了P2门静脉区的动态相互关联网络。总的来说,F57A变异与最近与腓骨肌萎缩症相关的P2患者突变具有相似的特性。我们的研究结果表明Phe57是一个调节构象变化的残基,可能伴随着P2和其他FABPs的膜表面结合和配体交换。
期刊介绍:
BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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