Two serial filters control P2X7 cation selectivity, Ser342 in the central pore and lateral acidic residues at the cytoplasmic interface

PNAS Nexus Pub Date : 2024-08-24 DOI:10.1093/pnasnexus/pgae349

Fritz Markwardt, Eike Christian Schön, Michaela Raycheva, Aparna Malisetty, Sanaria Hawro Yakoob, Malte Berthold, Günther Schmalzing

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Abstract

The human P2X7R (hP2X7R) is a homotrimeric cell surface receptor gated by extracellular ATP4- with two transmembrane helices per subunit, TM1 and TM2. A ring of three S342 residues, one from each pore-forming TM2 helix, located halfway across the membrane bilayer, functions to close and open the gate in the apo and ATP4- bound open states, respectively. The hP2X7R is selective for small inorganic cations, but can also conduct larger organic cations such as Tris+. Here, we show by voltage-clamp electrophysiology in Xenopus laevis oocytes that mutation of S342 residues to positively charged lysines decreases the selectivity for Na+ over Tris+, but maintains cation selectivity. Deep in the membrane, laterally below the S342 ring are nine acidic residues arranged as an isosceles triangle consisting of residues E14, D352, and D356 on each side, which do not move significantly during gating. When the E14K mutation is combined with lysine substitutions of D352 and/or D356, cation selectivity is lost and permeation of the small anion Cl- is allowed. Lysine substitutions of S342 together with D352 or E14 plus D356 in the acidic triangle convert the hP2X7R mutant to a fully Cl--selective ATP4--gated receptor. We conclude that the ion selectivity of wild-type hP2X7R is determined by two sequential filters in one single pathway: (1) a primary size filter, S342, in the membrane center and (2) three cation filters lateral to the channel axis, one per subunit interface, consisting of a total of nine acidic residues at the cytoplasmic interface.

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两个序列过滤器控制着 P2X7 阳离子选择性，即中央孔中的 Ser342 和胞质界面上的横向酸性残基

人类 P2X7R（hP2X7R）是一种由细胞外 ATP4- 门控的同源三聚体细胞表面受体，每个亚基有两个跨膜螺旋，即 TM1 和 TM2。膜双分子层中间有一个由三个 S342 残基组成的环，每个 S342 残基来自一个形成孔的 TM2 螺旋，分别在无孔和 ATP4 结合的开放状态下起到关闭和打开闸门的作用。hP2X7R 对小的无机阳离子具有选择性，但也能传导较大的有机阳离子，如 Tris+。在这里，我们通过在爪蟾卵母细胞中的电压钳电生理学研究表明，将 S342 残基突变为带正电荷的赖氨酸会降低对 Na+ 而不是 Tris+ 的选择性，但会保持阳离子选择性。在膜的深处，S342 环的横向下方有九个酸性残基，排列成等腰三角形，每边由残基 E14、D352 和 D356 组成。当 E14K 突变与 D352 和/或 D356 的赖氨酸置换相结合时，阳离子选择性丧失，而小阴离子 Cl- 可以透过。酸性三角区的 S342 与 D352 或 E14 加 D356 的赖氨酸置换将 hP2X7R 突变体转化为完全具有 Cl 选择性的 ATP4 门控受体。我们的结论是，野生型 hP2X7R 的离子选择性是由单个通路中的两个连续过滤器决定的：(1) 膜中心的一个主要尺寸过滤器 S342，以及 (2) 通道轴侧向的三个阳离子过滤器，每个亚基界面一个，共由细胞质界面上的九个酸性残基组成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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