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蛋白质-纳米盘相互作用诱导脂肪酸结合蛋白构象交换。

Conformational exchange of fatty acid binding protein induced by protein-nanodisc interactions.

机构信息

Department of Biological Sciences, National University of Singapore, Singapore, Singapore.

Department of Biological Sciences, National University of Singapore, Singapore, Singapore.

出版信息

Biophys J. 2021 Nov 2;120(21):4672-4681. doi: 10.1016/j.bpj.2021.09.037. Epub 2021 Oct 1.

Abstract

Fatty acid binding proteins (FABPs) can facilitate the transfer of long-chain fatty acids between intracellular membranes across considerable distances. The transfer process involves fatty acids, their donor membrane and acceptor membrane, and FABPs, implying that potential protein-membrane interactions exist. Despite intensive studies on FABP-membrane interactions, the interaction mode remains elusive, and the protein-membrane association and dissociation rates are inconsistent. In this study, we used nanodiscs (NDs) as mimetic membranes to investigate FABP-membrane interactions. Our NMR experiments showed that human intestinal FABP interacts weakly with both negatively charged and neutral membranes, but it prefers the negatively charged one. Through simultaneous analysis of NMR relaxation in the rotating-frame (R), relaxation dispersion, chemical exchange saturation transfer, and dark-state exchange saturation transfer data, we estimated the affinity of the protein to negatively charged NDs, the dissociation rate, and apparent association rate. We further showed that the protein in the ND-bound state adopts a conformation different from the native structure and the second helix is very likely involved in interactions with NDs. We also found a membrane-induced FABP conformational state that exists only in the presence of NDs. This state is native-like, different from other conformational states in structure, unbound to NDs, and in dynamic equilibrium with the ND-bound state.

摘要

脂肪酸结合蛋白(FABPs)可以促进长链脂肪酸在细胞内膜之间的转移,跨越相当大的距离。转移过程涉及脂肪酸、供体膜和受体膜以及 FABPs,这意味着存在潜在的蛋白-膜相互作用。尽管对 FABP-膜相互作用进行了深入研究,但相互作用模式仍不清楚,并且蛋白-膜的结合和解离速率不一致。在本研究中,我们使用纳米盘(NDs)作为模拟膜来研究 FABP-膜相互作用。我们的 NMR 实验表明,人肠 FABP 与带负电荷和中性膜都弱相互作用,但它更喜欢带负电荷的膜。通过同时分析旋转框架(R)中的 NMR 弛豫、弛豫色散、化学交换饱和转移和暗态交换饱和转移数据,我们估计了蛋白与带负电荷的 NDs 的亲和力、解离速率和表观结合速率。我们进一步表明,ND 结合状态下的蛋白采用不同于天然结构的构象,并且第二螺旋很可能参与与 NDs 的相互作用。我们还发现了一种仅在存在 NDs 时存在的膜诱导的 FABP 构象状态。这种状态类似于天然状态,与结构中的其他构象状态不同,不与 NDs 结合,并且与 ND 结合状态处于动态平衡。

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