早期 NMDA 受体在中间神经元中的缺失导致体内用于精神分裂症研究的小鼠模型前额叶皮层锥体神经元中活性依赖的 E/I 失衡。

Early NMDA Receptor Ablation in Interneurons Causes an Activity-Dependent E/I Imbalance in vivo in Prefrontal Cortex Pyramidal Neurons of a Mouse Model Useful for the Study of Schizophrenia.

机构信息

Grupo de Neurociencia de Sistemas, Instituto de Fisiología y Biofísica "Bernardo Houssay" (IFIBIO-Houssay), Universidad de Buenos Aires y Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Ciudad de Buenos Aires, Argentina.

出版信息

Schizophr Bull. 2021 Aug 21;47(5):1300-1309. doi: 10.1093/schbul/sbab030.

DOI:10.1093/schbul/sbab030

PMID:33822178

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8379555/

Abstract

Altered Excitatory/Inhibitory (E/I) balance of cortical synaptic inputs has been proposed as a central pathophysiological factor for psychiatric neurodevelopmental disorders, including schizophrenia (SZ). However, direct measurement of E/I synaptic balance have not been assessed in vivo for any validated SZ animal model. Using a mouse model useful for the study of SZ we show that a selective ablation of NMDA receptors (NMDAr) in cortical and hippocampal interneurons during early postnatal development results in an E/I imbalance in vivo, with synaptic inputs to pyramidal neurons shifted towards excitation in the adult mutant medial prefrontal cortex (mPFC). Remarkably, this imbalance depends on the cortical state, only emerging when theta and gamma oscillations are predominant in the network. Additional brain slice recordings and subsequent 3D morphological reconstruction showed that E/I imbalance emerges after adolescence concomitantly with significant dendritic retraction and dendritic spine re-localization in pyramidal neurons. Therefore, early postnatal ablation of NMDAr in cortical and hippocampal interneurons developmentally impacts on E/I imbalance in vivo in an activity-dependent manner.

摘要

皮质突触传入的兴奋性/抑制性（E/I）平衡改变被认为是包括精神分裂症（SZ）在内的精神神经发育障碍的中心病理生理因素。然而，任何经过验证的 SZ 动物模型都没有进行过体内 E/I 突触平衡的直接测量。使用一种对 SZ 研究有用的小鼠模型，我们发现早期发育过程中皮质和海马中间神经元中 NMDA 受体（NMDAr）的选择性缺失会导致体内 E/I 失衡，成年突变型内侧前额叶皮质（mPFC）中锥体神经元的突触输入向兴奋转移。值得注意的是，这种失衡取决于皮质状态，仅在网络中出现θ和γ振荡占主导地位时才会出现。额外的脑片记录和随后的 3D 形态重建表明，E/I 失衡在青春期后出现，同时伴有锥体神经元中树突回缩和树突棘重新定位的显著变化。因此，早期发育过程中皮质和海马中间神经元中 NMDAr 的缺失以一种依赖于活动的方式对体内 E/I 失衡产生影响。

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Early NMDA Receptor Ablation in Interneurons Causes an Activity-Dependent E/I Imbalance in vivo in Prefrontal Cortex Pyramidal Neurons of a Mouse Model Useful for the Study of Schizophrenia.早期 NMDA 受体在中间神经元中的缺失导致体内用于精神分裂症研究的小鼠模型前额叶皮层锥体神经元中活性依赖的 E/I 失衡。

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