Proteoliposomes reconstituted with human aquaporin-1 reveal novel single-ion-channel properties.

IF 2.4 Q3 BIOPHYSICS Biophysical reports Pub Date : 2023-01-14 eCollection Date: 2023-03-08 DOI:10.1016/j.bpr.2023.100100
Sam W Henderson, Yoshitaka Nakayama, Murray L Whitelaw, John B Bruning, Peter A Anderson, Stephen D Tyerman, Sunita A Ramesh, Boris Martinac, Andrea J Yool
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Abstract

Human aquaporin 1 (hAQP1) forms homotetrameric channels that facilitate fluxes of water and small solutes across cell membranes. In addition to water channel activity, hAQP1 displays non-selective monovalent cation-channel activity gated by intracellular cyclic GMP. Dual water and ion-channel activity of hAQP1, thought to regulate cell shape and volume, could offer a target for novel therapeutics relevant to controlling cancer cell invasiveness. This study probed properties of hAQP1 ion channels using proteoliposomes, which, unlike conventional cell-based systems such as Xenopus laevis oocytes, are relatively free of background ion channels. Histidine-tagged recombinant hAQP1 protein was synthesized and purified from the methylotrophic yeast, Pichia pastoris, and reconstituted into proteoliposomes for biophysical analyses. Osmotic water channel activity confirmed correct folding and channel assembly. Ion-channel activity of hAQP1-Myc-His6 was recorded by patch-clamp electrophysiology with excised patches. In symmetrical potassium, the hAQP1-Myc-His6 channels displayed coordinated gating, a single-channel conductance of approximately 75 pS, and multiple subconductance states. Applicability of this method for structure-function analyses was tested using hAQP1-Myc-His6 D48A/D185A channels modified by site-directed mutations of charged Asp residues estimated to be adjacent to the central ion-conducting pore of the tetramer. No differences in conductance were detected between mutant and wild-type constructs, suggesting the open-state conformation could differ substantially from expectations based on crystal structures. Nonetheless, the method pioneered here for AQP1 demonstrates feasibility for future work defining structure-function relationships, screening pharmacological inhibitors, and testing other classes in the broad family of aquaporins for previously undiscovered ion-conducting capabilities.

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用人水通道蛋白-1 重组的蛋白脂质体揭示了新的单离子通道特性。
人类水蒸发素 1(hAQP1)可形成同型四聚体通道,促进水和小溶质在细胞膜上的流动。除了水通道活性外,hAQP1 还具有由细胞内环 GMP 触发的非选择性单价阳离子通道活性。hAQP1 的水和离子通道双重活性被认为能调节细胞的形状和体积,可为控制癌细胞侵袭性的新型疗法提供靶点。这项研究利用蛋白脂质体探究了 hAQP1 离子通道的特性,蛋白脂质体不同于传统的基于细胞的系统(如爪蟾卵母细胞),相对来说不存在背景离子通道。从养甲酵母 Pichia pastoris 中合成和纯化了组氨酸标记的重组 hAQP1 蛋白,并将其重组到蛋白脂质体中进行生物物理分析。渗透水通道活性证实了折叠和通道组装的正确性。通过切除贴片的贴片钳电生理学方法记录了 hAQP1-Myc-His6 的离子通道活性。在对称钾条件下,hAQP1-Myc-His6 通道显示出协调门控、约 75 pS 的单通道电导和多种亚电导状态。这种方法是否适用于结构-功能分析,我们使用了经定点突变修饰的 hAQP1-Myc-His6 D48A/D185A 通道,突变的带电 Asp 残基估计邻近四聚体的中央离子传导孔。在突变型和野生型构建体之间没有检测到电导率的差异,这表明开放状态构象可能与基于晶体结构的预期有很大不同。尽管如此,本文针对 AQP1 所开创的方法证明了未来定义结构-功能关系、筛选药理抑制剂以及测试水蒸发蛋白大家族中其他类别以前未被发现的离子传导能力等工作的可行性。
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来源期刊
Biophysical reports
Biophysical reports Biophysics
CiteScore
2.40
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0.00%
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审稿时长
75 days
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