Structural basis of properties, mechanisms, and channelopathy of cyclic nucleotide-gated channels.

Channels (Austin, Tex.) Pub Date : 2023-12-01 Epub Date: 2023-10-31 DOI:10.1080/19336950.2023.2273165

Zhengshan Hu, Jian Yang

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Abstract

Recent years have seen an outpouring of atomic or near atomic resolution structures of cyclic nucleotide-gated (CNG) channels, captured in closed, transition, pre-open, partially open, and fully open states. These structures provide unprecedented molecular insights into the activation, assembly, architecture, regulation, and channelopathy of CNG channels, as well as mechanistic explanations for CNG channel biophysical and pharmacological properties. This article summarizes recent advances in CNG channel structural biology, describes key structural features and elements, and illuminates a detailed conformational landscape of activation by cyclic nucleotides. The review also correlates structures with findings and properties delineated in functional studies, including nonselective monovalent cation selectivity, Ca²⁺ permeation and block, block by L-cis-diltiazem, location of the activation gate, lack of voltage-dependent gating, and modulation by lipids and calmodulin. A perspective on future research is also offered.

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环状核苷酸门控通道的性质、机制和通道病的结构基础。

近年来，环核苷酸门控（CNG）通道的原子或近原子分辨率结构大量涌现，这些通道以闭合、过渡、预开放、部分开放和完全开放状态捕获。这些结构为CNG通道的激活、组装、结构、调节和通道病提供了前所未有的分子见解，并对CNG通道的生物物理和药理学特性提供了机制解释。本文综述了CNG通道结构生物学的最新进展，描述了关键的结构特征和元件，并阐明了环状核苷酸激活的详细构象景观。该综述还将结构与功能研究中描述的发现和性质联系起来，包括非选择性单价阳离子选择性、Ca2+渗透和阻断、L-顺式二氮杂酶阻断、激活门的位置、缺乏电压依赖性门控以及脂质和钙调素的调节。并对未来的研究提出了展望。

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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Channels (Austin, Tex.)

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