谷氨酸能 N-甲基-D-天冬氨酸受体 2D 亚单位在杏仁核中间神经元中调节前额叶皮层的前馈抑制回路和与精神分裂症相关的分子网络。

GluN2D Subunit in Parvalbumin Interneurons Regulates Prefrontal Cortex Feedforward Inhibitory Circuit and Molecular Networks Relevant to Schizophrenia.

机构信息

Department of Pharmacology and Neuroscience, Creighton University School of Medicine, Omaha, Nebraska.

出版信息

Biol Psychiatry. 2023 Aug 15;94(4):297-309. doi: 10.1016/j.biopsych.2023.03.020. Epub 2023 Mar 31.

DOI:10.1016/j.biopsych.2023.03.020

PMID:37004850

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10524289/

Abstract

BACKGROUND

Parvalbumin interneuron (PVI) activity synchronizes the medial prefrontal cortex circuit for normal cognitive function, and its impairment may contribute to schizophrenia (SZ). NMDA receptors in PVIs participate in these activities and form the basis for the NMDA receptor hypofunction hypothesis of SZ. However, the role of the GluN2D subunit, which is enriched in PVIs, in regulating molecular networks relevant to SZ is unknown.

METHODS

Using electrophysiology and a mouse model with conditional deletion of GluN2D from PVIs (PV-GluN2D knockout [KO]), we examined the cell excitability and neurotransmission in the medial prefrontal cortex. Histochemical, RNA sequencing analysis and immunoblotting were conducted to understand molecular mechanisms. Behavioral analysis was conducted to test cognitive function.

RESULTS

PVIs in the medial prefrontal cortex were found to express putative GluN1/2B/2D receptors. In a PV-GluN2D KO model, PVIs were hypoexcitable, whereas pyramidal neurons were hyperexcitable. Excitatory neurotransmission was higher in both cell types in PV-GluN2D KO, whereas inhibitory neurotransmission showed contrasting changes, which could be explained by reduced somatostatin interneuron projections and increased PVI projections. Genes associated with GABA (gamma-aminobutyric acid) synthesis, vesicular release, and uptake as well as those involved in formation of inhibitory synapses, specifically GluD1-Cbln4 and Nlgn2, and regulation of dopamine terminals were downregulated in PV-GluN2D KO. SZ susceptibility genes including Disc1, Nrg1, and ErbB4 and their downstream targets were also downregulated. Behaviorally, PV-GluN2D KO mice showed hyperactivity and anxiety behavior and deficits in short-term memory and cognitive flexibility.

CONCLUSIONS

These findings demonstrate that GluN2D in PVIs serves as a point of convergence of pathways involved in the regulation of GABAergic synapses relevant to SZ.

摘要

背景

副甲状腺素中间神经元 (PVI) 的活动使前额叶皮质内侧回路同步，以维持正常认知功能，其功能障碍可能导致精神分裂症 (SZ)。PVIs 中的 NMDA 受体参与这些活动，并构成 SZ 的 NMDA 受体功能低下假说的基础。然而，富含 PVI 的 GluN2D 亚基在调节与 SZ 相关的分子网络中的作用尚不清楚。

方法

我们使用电生理学和条件性敲除 PVI 中的 GluN2D (PV-GluN2D 敲除 [KO]) 的小鼠模型，研究了前额叶皮质内侧的神经元兴奋性和神经传递。进行组织化学、RNA 测序分析和免疫印迹分析以了解分子机制。进行行为分析以测试认知功能。

结果

发现前额叶皮质中的 PVI 表达假定的 GluN1/2B/2D 受体。在 PV-GluN2D KO 模型中，PVI 兴奋性降低，而锥体神经元兴奋性增高。两种细胞类型的兴奋性神经传递均升高，而抑制性神经传递则表现出相反的变化，这可以通过减少生长抑素中间神经元投射和增加 PVI 投射来解释。与 GABA（γ-氨基丁酸）合成、囊泡释放和摄取以及与抑制性突触形成有关的基因，特别是 GluD1-Cbln4 和 Nlgn2，以及多巴胺末梢的调节基因在 PV-GluN2D KO 中下调。SZ 易感性基因包括 Disc1、Nrg1 和 ErbB4 及其下游靶点也下调。行为上，PV-GluN2D KO 小鼠表现出多动和焦虑行为，以及短期记忆和认知灵活性缺陷。

结论

这些发现表明，PVIs 中的 GluN2D 作为与 SZ 相关的 GABA 能突触调节途径的汇聚点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7f66/10524289/ea8d748e86e6/nihms-1888414-f0001.jpg

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