对小鼠中GABARs的谷氨酸变构增强进行基因抑制会导致过度兴奋，进而引发神经行为异常。

Genetic inhibition of glutamate allosteric potentiation of GABARs in mice results in hyperexcitability, leading to neurobehavioral abnormalities.

作者信息

Du Yehong, Li Junjie, Wang Maoju, Tian Qiuyun, Pang Yayan, Wen Ya, Wu Dongchuan, Wang Yu Tian, Dong Zhifang

机构信息

Growth, Development, and Mental Health of Children and Adolescence Center Pediatric Research Institute Ministry of Education Key Laboratory of Child Development and Disorders National Clinical Research Center for Child Health and Disorders China International Science and Technology Cooperation Base of Child Development and Critical Disorders Chongqing Key Laboratory of Translational Medical Research in Cognitive Development and Learning and Memory Disorders Children's Hospital of Chongqing Medical University Chongqing China.

Brain Research Centre and Department of Medicine Vancouver Coastal Health Research Institute University of British Columbia Vancouver British Columbia Canada.

出版信息

MedComm (2020). 2023 Apr 24;4(3):e235. doi: 10.1002/mco2.235. eCollection 2023 Jun.

DOI:10.1002/mco2.235

PMID:37101797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10123808/

Abstract

The imbalance between neuronal excitation and inhibition (E/I) in neural circuit has been considered to be at the root of numerous brain disorders. We recently reported a novel feedback crosstalk between the excitatory neurotransmitter glutamate and inhibitory γ-aminobutyric acid type A receptor (GABAR)-glutamate allosteric potentiation of GABAR functions through a direct binding of glutamate to the GABAR itself. Here, we investigated the physiological significance and pathological implications of this cross-talk by generating the β3 knock-in (KI) mice. We found that β3 KI, while had little effect on basal GABAR-mediated synaptic transmission, significantly reduced glutamate potentiation of GABAR-mediated responses. These KI mice displayed lower thresholds for noxious stimuli, higher susceptibility to seizures and enhanced hippocampus-related learning and memory. Additionally, the KI mice exhibited impaired social interactions and decreased anxiety-like behaviors. Importantly, hippocampal overexpression of wild-type β3-containing GABARs was sufficient to rescue the deficits of glutamate potentiation of GABAR-mediated responses, hippocampus-related behavioral abnormalities of increased epileptic susceptibility, and impaired social interactions. Our data indicate that the novel crosstalk among excitatory glutamate and inhibitory GABAR functions as a homeostatic mechanism in fine-tuning neuronal E/I balance, thereby playing an essential role in ensuring normal brain functioning.

摘要

神经回路中神经元兴奋与抑制（E/I）之间的失衡被认为是众多脑部疾病的根源。我们最近报道了兴奋性神经递质谷氨酸与抑制性γ-氨基丁酸A型受体（GABAR）之间一种新的反馈串扰——谷氨酸通过直接与GABAR本身结合对GABAR功能产生变构增强作用。在此，我们通过构建β3基因敲入（KI）小鼠来研究这种串扰的生理意义和病理影响。我们发现，β3 KI小鼠虽然对基础GABAR介导的突触传递影响不大，但显著降低了谷氨酸对GABAR介导反应的增强作用。这些KI小鼠对有害刺激的阈值较低，对癫痫发作的易感性较高，且海马相关的学习和记忆能力增强。此外，KI小鼠表现出社交互动受损和焦虑样行为减少。重要的是，海马中野生型含β3的GABAR的过表达足以挽救GABAR介导反应的谷氨酸增强缺陷、癫痫易感性增加的海马相关行为异常以及受损的社交互动。我们的数据表明，兴奋性谷氨酸和抑制性GABAR之间的这种新串扰作为一种稳态机制，在微调神经元E/I平衡中发挥作用，从而在确保正常脑功能中起重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f398/10123808/a5a6cff3d8d7/MCO2-4-e235-g001.jpg

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对小鼠中GABARs的谷氨酸变构增强进行基因抑制会导致过度兴奋，进而引发神经行为异常。

Genetic inhibition of glutamate allosteric potentiation of GABARs in mice results in hyperexcitability, leading to neurobehavioral abnormalities.

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