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不同类别的谷氨酸受体在单个脑干核中介导不同的行为。

Different classes of glutamate receptors mediate distinct behaviors in a single brainstem nucleus.

作者信息

Dye J, Heiligenberg W, Keller C H, Kawasaki M

机构信息

Neurobiology Unit, Scripps Institution of Oceanography, University of California, San Diego, La Jolla 92093.

出版信息

Proc Natl Acad Sci U S A. 1989 Nov;86(22):8993-7. doi: 10.1073/pnas.86.22.8993.

DOI:10.1073/pnas.86.22.8993
PMID:2573071
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC298418/
Abstract

We have taken advantage of the increasing understanding of glutamate neuropharmacology to probe mechanisms of well-defined vertebrate behaviors. Here we report a set of experiments that suggests distinct roles for two major classes of glutamate receptors in a discrete premotor nucleus of the brainstem. The medullary pacemaker nucleus of weakly electric fish is an endogenous oscillator that controls the electric organ discharge (EOD). Its regular frequency of firing is modulated during several distinct behaviors. The pacemaker nucleus continues firing regularly when isolated in vitro, and modulatory behaviors can be reproduced by stimulating the descending input pathway. Glutamate agonists applied to the pacemaker in vitro produced increases in frequency, while glutamate antagonists selectively blocked stimulus-induced modulations. Experiments with glutamate antagonists in the intact animal resulted in specific effects on two well-characterized behaviors. Our data indicate that these behaviors are separately mediated in the pacemaker by receptors displaying characteristics of the kainate/quisqualate and N-methyl-D-aspartate subtypes of glutamate receptor, respectively.

摘要

我们利用对谷氨酸神经药理学日益深入的了解来探究明确的脊椎动物行为机制。在此,我们报告一组实验,这些实验表明两类主要的谷氨酸受体在脑干一个离散的运动前核中发挥着不同作用。弱电鱼的延髓起搏器核是一个内源性振荡器,控制着电器官放电(EOD)。其有规律的放电频率在几种不同行为中会受到调节。当在体外分离时,起搏器核会继续有规律地放电,并且通过刺激下行输入通路可以重现调节行为。体外应用于起搏器的谷氨酸激动剂会使频率增加,而谷氨酸拮抗剂则选择性地阻断刺激诱导的调节。在完整动物中使用谷氨酸拮抗剂的实验对两种特征明确的行为产生了特定影响。我们的数据表明,这些行为在起搏器中分别由显示出海藻氨酸/quisqualate和N - 甲基 - D - 天冬氨酸亚型谷氨酸受体特征的受体介导。

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本文引用的文献

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Cell types and synaptic organization of the medullary electromotor nucleus in a constant frequency weakly electric fish, Sternarchus albifrons.恒频弱电鱼白边电鳗髓质电运动核的细胞类型和突触组织
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Intracellular recording in the medullary pacemaker nucleus of the weakly electric fish, Apteronotus, during modulatory behaviors.在弱电鱼线翎电鳗的延髓起搏器核中进行调制行为期间的细胞内记录。
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Dynamics and stimulus-dependence of pacemaker control during behavioral modulations in the weakly electric fish, Apteronotus.弱电鱼Apteronotus行为调节过程中起搏器控制的动力学和刺激依赖性
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'Recognition units' at the top of a neuronal hierarchy? Prepacemaker neurons in Eigenmannia code the sign of frequency differences unambiguously.神经元层级顶端的“识别单元”? Eigenmannia中的前起搏器神经元明确地编码频率差异的符号。
J Comp Physiol A. 1988 Apr;162(6):759-72. doi: 10.1007/BF00610965.
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Individual prepacemaker neurons can modulate the pacemaker cycle of the gymnotiform electric fish, Eigenmannia.单个起搏器前体神经元可以调节裸背电鳗目电鱼(裸背电鳗)的起搏器周期。
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Neuroethology of electric communication.电通讯的神经行为学
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An in vitro physiological preparation of a vertebrate communicatory behavior: chirping in the weakly electric fish, Apteronotus.脊椎动物交流行为的体外生理准备:弱电鱼Apteronotus的鸣叫
J Comp Physiol A. 1988 Aug;163(4):445-58. doi: 10.1007/BF00604899.

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