Visualizing the triheteromeric N-methyl-D-aspartate receptor subunit composition.

IF 2.8 4区 医学 Q2 NEUROSCIENCES
Frontiers in Synaptic Neuroscience Pub Date : 2023-05-24 eCollection Date: 2023-01-01 DOI:10.3389/fnsyn.2023.1156777
Stephen Beesley, Akash Gunjan, Sanjay S Kumar
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Abstract

N-methyl-D-aspartate receptors (NMDARs) are one of three ligand-gated ionotropic channels that transduce the effects of neurotransmitter glutamate at excitatory synapses within the central nervous system. Their ability to influx Ca2+ into cells, unlike mature AMPA or kainate receptors, implicates them in a variety of processes ranging from synaptic plasticity to cell death. Many of the receptor's capabilities, including binding glutamate and regulating Ca2+ influx, have been attributed to their subunit composition, determined putatively using cell biology, electrophysiology and/or pharmacology. Here, we show that subunit composition of synaptic NMDARs can also be readily visualized in acute brain slices (rat) using highly specific antibodies directed against extracellular epitopes of the subunit proteins and high-resolution confocal microscopy. This has helped confirm the expression of triheteromeric t-NMDARs (containing GluN1, GluN2, and GluN3 subunits) at synapses for the first time and reconcile functional differences with diheteromeric d-NMDARs (containing GluN1 and GluN2 subunits) described previously. Even though structural information about individual receptors is still diffraction limited, fluorescently tagged receptor subunit puncta coalesce with precision at various magnifications and/or with the postsynaptic density (PSD-95) but not the presynaptic active zone marker Bassoon. These data are particularly relevant for identifying GluN3A-containing t-NMDARs that are highly Ca2+ permeable and whose expression at excitatory synapses renders neurons vulnerable to excitotoxicity and cell death. Imaging NMDAR subunit proteins at synapses not only offers firsthand insights into subunit composition to correlate function but may also help identify zones of vulnerability within brain structures underlying neurodegenerative diseases like Temporal Lobe Epilepsy.

Abstract Image

Abstract Image

Abstract Image

可视化 N-甲基-D-天冬氨酸受体亚基的三单体组成。
N-甲基-D-天冬氨酸受体(NMDARs)是三种配体门控离子通道之一,可在中枢神经系统的兴奋性突触处传递神经递质谷氨酸的效应。与成熟的 AMPA 或 kainate 受体不同,谷氨酸受体具有将 Ca2+ 导入细胞的能力,这使其参与了从突触可塑性到细胞死亡的各种过程。该受体的许多功能,包括结合谷氨酸和调节 Ca2+ 流入,都归因于其亚基组成,这可能是通过细胞生物学、电生理学和/或药理学确定的。在这里,我们展示了利用针对亚基蛋白细胞外表位的高度特异性抗体和高分辨率共聚焦显微镜,也能在急性脑切片(大鼠)中轻松观察到突触 NMDARs 的亚基组成。这有助于首次证实突触中表达了三异构体 t-NMDAR(包含 GluN1、GluN2 和 GluN3 亚基),并调和了与之前描述的二异构体 d-NMDAR(包含 GluN1 和 GluN2 亚基)在功能上的差异。尽管单个受体的结构信息仍受到衍射的限制,但荧光标记的受体亚基点在不同的放大倍数下和/或与突触后密度(PSD-95)而非突触前活性区标记巴松精确地凝聚在一起。这些数据对于确定含 GluN3A 的 t-NMDARs 尤为重要,这些 t-NMDARs 具有高 Ca2+ 通透性,其在兴奋性突触的表达会使神经元易受兴奋毒性和细胞死亡的影响。对突触处的 NMDAR 亚基蛋白进行成像,不仅能提供亚基组成的第一手资料,从而与功能相关联,而且还有助于确定脑结构中神经退行性疾病(如颞叶癫痫)的脆弱区。
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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来源期刊
CiteScore
7.10
自引率
2.70%
发文量
74
审稿时长
14 weeks
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