N-甲基-D-天冬氨酸受体拮抗剂诱发的小鼠频率振荡重现了精神分裂症的电生理缺陷模式。

N-methyl-d-aspartic acid receptor antagonist-induced frequency oscillations in mice recreate pattern of electrophysiological deficits in schizophrenia.

作者信息

Ehrlichman R S, Gandal M J, Maxwell C R, Lazarewicz M T, Finkel L H, Contreras D, Turetsky B I, Siegel S J

机构信息

Stanley Center for Experimental Therapeutics in Psychiatry, Department of Psychiatry, University of Pennsylvania, Philadelphia, PA 19104, USA.

出版信息

Neuroscience. 2009 Jan 23;158(2):705-12. doi: 10.1016/j.neuroscience.2008.10.031. Epub 2008 Oct 28.

DOI:10.1016/j.neuroscience.2008.10.031

PMID:19015010

Abstract

INTRODUCTION

Electrophysiological responses to auditory stimuli have provided a useful means of elucidating mechanisms and evaluating treatments in psychiatric disorders. Deficits in gating during paired-click tasks and lack of mismatch negativity following deviant stimuli have been well characterized in patients with schizophrenia. Recently, analyses of basal, induced, and evoked frequency oscillations have gained support as additional measures of cognitive processing in patients and animal models. The purpose of this study is to examine frequency oscillations in mice across the theta (4-7.5 Hz) and gamma (31-61 Hz) bands in the context of N-methyl-d-aspartic acid receptor (NMDAR) hypofunction and dopaminergic hyperactivity, both of which are thought to serve as pharmacological models of schizophrenia.

EXPERIMENTAL PROCEDURES

Electroencephalograms (EEG) were recorded from mice in five treatment groups that consisted of haloperidol, risperidone, amphetamine, ketamine, or ketamine plus haloperidol during an auditory task. Basal, induced and evoked powers in both frequencies were calculated.

RESULTS

Ketamine increased basal power in the gamma band and decreased the evoked power in the theta band. The increase in basal gamma was not blocked by treatment with a conventional antipsychotic. No other treatment group was able to fully reproduce this pattern in the mice.

CONCLUSIONS

Ketamine-induced alterations in EEG power spectra are consistent with abnormalities in the theta and gamma frequency ranges reported in patients with schizophrenia. Our findings support the hypothesis that NMDAR hypofunction contributes to the deficits in schizophrenia and that the dopaminergic pathways alone may not account for these changes.

摘要

引言

对听觉刺激的电生理反应为阐明精神疾病的机制和评估治疗方法提供了一种有用的手段。在精神分裂症患者中，双声点击任务期间的门控缺陷以及异常刺激后缺乏失配负波已得到充分表征。最近，对基础、诱发和诱发频率振荡的分析作为患者和动物模型中认知处理的额外测量方法获得了支持。本研究的目的是在N-甲基-D-天冬氨酸受体（NMDAR）功能低下和多巴胺能亢进的背景下，检查小鼠在θ（4-7.5赫兹）和γ（31-61赫兹）频段的频率振荡，这两者都被认为是精神分裂症的药理学模型。

实验程序

在听觉任务期间，从五个治疗组的小鼠记录脑电图（EEG），这五个治疗组分别由氟哌啶醇、利培酮、苯丙胺、氯胺酮或氯胺酮加氟哌啶醇组成。计算两个频率的基础、诱发和诱发功率。

结果

氯胺酮增加了γ频段的基础功率，并降低了θ频段的诱发功率。基础γ的增加未被传统抗精神病药物治疗所阻断。没有其他治疗组能够在小鼠中完全重现这种模式。

结论

氯胺酮引起的脑电图功率谱改变与精神分裂症患者报告的θ和γ频率范围异常一致。我们的研究结果支持以下假设，即NMDAR功能低下导致精神分裂症的缺陷，并且仅多巴胺能通路可能无法解释这些变化。

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N-甲基-D-天冬氨酸受体拮抗剂诱发的小鼠频率振荡重现了精神分裂症的电生理缺陷模式。

N-methyl-d-aspartic acid receptor antagonist-induced frequency oscillations in mice recreate pattern of electrophysiological deficits in schizophrenia.

作者信息

机构信息

出版信息

INTRODUCTION

EXPERIMENTAL PROCEDURES

RESULTS

CONCLUSIONS

引言

实验程序

结果

结论

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