The GluN3-containing NMDA receptors.

Channels (Austin, Tex.) Pub Date : 2025-12-01 Epub Date: 2025-04-16 DOI:10.1080/19336950.2025.2490308

Kunlong Xiong, Shulei Lou, Zuoyu Lian, Yunlin Wu, Zengwei Kou

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Abstract

N-methyl-D-aspartate receptors (NMDARs) are heterotetrameric ion channels that play crucial roles in brain function. Among all the NMDAR subtypes, GluN1-N3 receptors exhibit unique agonist binding and gating properties. Unlike "conventional" GluN1-N2 receptors, which require both glycine and glutamate for activation, GluN1-N3 receptors are activated solely by glycine. Furthermore, GluN1-N3 receptors display faster desensitization, reduced Ca²⁺ permeability, and lower sensitivity to Mg²⁺ blockage compared to GluN1-N2 receptors. Due to these characteristics, GluN1-N3 receptors are thought to play critical roles in eliminating redundant synapses and pruning spines in early stages of brain development. Recent studies have advanced pharmacological tools for specifically targeting GluN1-N3 receptors and provided direct evidence of these glycine-activated excitatory receptors in native brain tissue. The structural basis of GluN1-N3 receptors has also been elucidated through cryo-EM and artificial intelligence. These findings highlight that GluN1-N3 receptors are not only involved in essential brain functions but also present potential targets for drug development.

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含glun3的NMDA受体。

n -甲基- d -天冬氨酸受体（NMDARs）是一种异四聚体离子通道，在脑功能中起重要作用。在所有NMDAR亚型中，GluN1-N3受体表现出独特的激动剂结合和门控特性。与“传统的”GluN1-N2受体不同，GluN1-N2受体需要甘氨酸和谷氨酸才能激活，而GluN1-N3受体仅由甘氨酸激活。此外，与GluN1-N2受体相比，GluN1-N3受体表现出更快的脱敏，降低Ca2+通透性，对Mg2+阻塞的敏感性较低。由于这些特征，GluN1-N3受体被认为在大脑发育早期消除冗余突触和修剪脊髓中起关键作用。最近的研究已经有了专门针对GluN1-N3受体的先进药理工具，并提供了这些甘氨酸激活的兴奋性受体存在于天然脑组织中的直接证据。GluN1-N3受体的结构基础也已通过冷冻电镜和人工智能被阐明。这些发现强调GluN1-N3受体不仅参与基本的脑功能，而且是药物开发的潜在靶点。

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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