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电鱼Hypopomus中神经元振荡器的不同调节机制产生不同的社会信号。

Distinct mechanisms of modulation in a neuronal oscillator generate different social signals in the electric fish Hypopomus.

作者信息

Kawasaki M, Heiligenberg W

机构信息

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

出版信息

J Comp Physiol A. 1989 Oct;165(6):731-41. doi: 10.1007/BF00610872.

DOI:10.1007/BF00610872
PMID:2810147
Abstract

The medullary pacemaker nucleus of the gymnotiform electric fish, Hypopomus, is a relatively simple neuronal oscillator which contains pacemaker cells and relay cells. The pacemaker cells generate a regular discharge cycle and drive the relay cells which trigger pulse-like electric organ discharges (EODs). The diencephalic prepacemaker nucleus (PPN) projects to the pacemaker nucleus and modulates its activity to generate a variety of specific discharge patterns which serve as communicatory signals (Figs. 2 and 3). While inducing such signals by microiontophoresis of L-glutamate to the region of the PPN (Fig. 4) of curarized animals, we monitored the activity of neurons in the pacemaker nucleus intracellularly. We found that pacemaker cells and relay cells were affected differently in a manner specific to the type of EOD modulation (Figs. 5-10). The normal sequence of pacemaker cell and relay cell firing was maintained during gradual rises and falls in discharge rate. Both types of cells ceased to fire during interruptions following a decline in discharge rate. During sudden interruptions, however, relay cells were steadily depolarized, while pacemaker cells continued to fire regularly. Short and rapid barrages of EODs, called "chirps", were generated through direct and synchronous activation of the relay cells whose action potentials invaded pacemaker cells antidromically and interfered with their otherwise regular firing pattern.

摘要

裸背电鳗目电鱼裸臀鱼的延髓起搏器核是一个相对简单的神经元振荡器,包含起搏器细胞和中继细胞。起搏器细胞产生有规律的放电周期,并驱动中继细胞,中继细胞触发脉冲样的电器官放电(EODs)。间脑前起搏器核(PPN)投射到起搏器核并调节其活动,以产生各种特定的放电模式,这些模式作为通信信号(图2和图3)。在对箭毒化动物的PPN区域(图4)进行L-谷氨酸微离子电渗法诱导此类信号时,我们在细胞内监测了起搏器核中神经元的活动。我们发现,起搏器细胞和中继细胞受到的影响不同,这种影响方式特定于EOD调制的类型(图5 - 10)。在放电率逐渐上升和下降期间,起搏器细胞和中继细胞的正常放电顺序得以维持。在放电率下降后的中断期间,两种类型的细胞都停止放电。然而,在突然中断期间,中继细胞持续稳定去极化,而起搏器细胞继续有规律地放电。通过直接和同步激活中继细胞产生短而快速的EODs串,称为“啁啾声”,中继细胞的动作电位逆向侵入起搏器细胞并干扰其原本规律的放电模式。

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