Grin2a 的缺失导致海马区钙蛋白阳性中间神经元电生理成熟过程出现短暂延迟。

Loss of Grin2a causes a transient delay in the electrophysiological maturation of hippocampal parvalbumin interneurons.

机构信息

Department of Pharmacology and Chemical Biology, Emory University School of Medicine, Atlanta, GA, 30322, USA.

Section on Cellular and Synaptic Physiology, Eunice Kennedy-Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD, 20892, USA.

出版信息

Commun Biol. 2023 Sep 19;6(1):952. doi: 10.1038/s42003-023-05298-9.

DOI:10.1038/s42003-023-05298-9

PMID:37723282

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10507040/

Abstract

N-methyl-D-aspartate receptors (NMDARs) are ligand-gated ionotropic glutamate receptors that mediate a calcium-permeable component to fast excitatory neurotransmission. NMDARs are heterotetrameric assemblies of two obligate GluN1 subunits (GRIN1) and two GluN2 subunits (GRIN2A-GRIN2D). Sequencing data shows that 43% (297/679) of all currently known NMDAR disease-associated genetic variants are within the GRIN2A gene, which encodes the GluN2A subunit. Here, we show that unlike missense GRIN2A variants, individuals affected with disease-associated null GRIN2A variants demonstrate a transient period of seizure susceptibility that begins during infancy and diminishes near adolescence. We show increased circuit excitability and CA1 pyramidal cell output in juvenile mice of both Grin2a and Grin2a mice. These alterations in somatic spiking are not due to global upregulation of most Grin genes (including Grin2b). Deeper evaluation of the developing CA1 circuit led us to uncover age- and Grin2a gene dosing-dependent transient delays in the electrophysiological maturation programs of parvalbumin (PV) interneurons. We report that Grin2a mice reach PV cell electrophysiological maturation between the neonatal and juvenile neurodevelopmental timepoints, with Grin2a mice not reaching PV cell electrophysiological maturation until preadolescence, and Grin2a mice not reaching PV cell electrophysiological maturation until adulthood. Overall, these data may represent a molecular mechanism describing the transient nature of seizure susceptibility in disease-associated null GRIN2A patients.

摘要

N-甲基-D-天冬氨酸受体（NMDARs）是配体门控离子型谷氨酸受体，介导快速兴奋性神经递质传递的钙通透性成分。NMDAR 是由两个必需的 GluN1 亚基（GRIN1）和两个 GluN2 亚基（GRIN2A-GRIN2D）组成的异四聚体。测序数据显示，目前已知的所有 NMDAR 疾病相关遗传变异中，有 43%（297/679）位于 GRIN2A 基因内，该基因编码 GluN2A 亚基。在这里，我们发现与错义 GRIN2A 变体不同，患有与疾病相关的 GRIN2A 缺失变体的个体表现出短暂的易感性发作期，该发作期始于婴儿期，并在青春期附近减弱。我们发现幼年小鼠的兴奋性回路和 CA1 锥体神经元的输出增加，无论是 Grin2a 小鼠还是 Grin2a 小鼠。这些体细胞放电的改变不是由于大多数 Grin 基因（包括 Grin2b）的全局上调所致。对发育中的 CA1 回路的更深入评估使我们发现了年龄和 Grin2a 基因剂量依赖性的短暂延迟，这种延迟影响了小脑浦肯野细胞（PV）中间神经元的电生理成熟程序。我们报告说，Grin2a 小鼠在新生儿和青少年神经发育时间点之间达到 PV 细胞电生理成熟，而 Grin2a 小鼠直到青春期前才达到 PV 细胞电生理成熟，Grin2a 小鼠直到成年期才达到 PV 细胞电生理成熟。总的来说，这些数据可能代表了描述与疾病相关的 GRIN2A 患者易感性发作的短暂性的分子机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ecb0/10507040/0179253d79aa/42003_2023_5298_Fig1_HTML.jpg

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Grin2a 的缺失导致海马区钙蛋白阳性中间神经元电生理成熟过程出现短暂延迟。

Loss of Grin2a causes a transient delay in the electrophysiological maturation of hippocampal parvalbumin interneurons.

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