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龙虾口胃系统中的双突触感觉运动通路。

A disynaptic sensorimotor pathway in the lobster stomatogastric system.

作者信息

Simmers J, Moulins M

机构信息

Laboratoire de Neurobiologie et Physiologie Comparées, Université de Bordeaux I, France.

出版信息

J Neurophysiol. 1988 Mar;59(3):740-56. doi: 10.1152/jn.1988.59.3.740.

DOI:10.1152/jn.1988.59.3.740
PMID:3367197
Abstract
  1. In the lobster Homarus, muscle gm 1 that causes protraction of the medial tooth of the gastric mill system is innervated via a dorsal branch of the anterior gastric nerve by motoneurons (GM) arising in the stomatogastric ganglion (STG) (Fig. 1). 2. A ventral branch of the anterior gastric nerve (VAGN) contains a single unit that is mechanosensitive, responds to gentle pressure on the stomach wall in the vicinity of gm 1, and evokes reflex activation of GM motoneurons (Fig. 2). 3. This mechanoreceptor neuron (called anterior gastric receptor, AGR) has been identified morphologically (Fig. 3) and electrophysiologically (Figs. 4 and 5). The bipolar cell body is located in the dorsal ventricular nerve immediately posterior to the STG. It sends out long peripheral processes in the left and right VAGNs to ramify bilaterally in the epidermis of the stomach wall underlying muscle gm 1. The axon of the AGR runs anteriorly through the STG and projects to the left and right commissural ganglia (CoGs) via the stomatogastric (STN) and inferior esophageal nerves. 4. AGR activation of GM motoneurons disappears after cutting the STN, indicating that the reflex is mediated by an axonal pathway involving rostral ganglia (Fig. 6). 5. Electrophysiological (Fig. 7) and morphological (Fig. 8) methods were used to identify an interneuron (commissural gastric neuron, CG) located in each CoG and intercalated between AGR and GM. Axons of the two CGs project to the STG via the superior esophageal nerves and the STN. 6. Simultaneous intracellular recordings from the three cell types demonstrate that AGR excites CG, which in turn excites GM; in each case excitatory postsynaptic potentials follow presynaptic impulses one for one and at constant latency (Fig. 9). Raising the threshold for spiking with saline containing high divalent cation concentrations further indicates that both excitatory connections are monosynaptic and confirms that AGR does not directly excite GM motoneurons (Fig. 10). 7. The input/output properties of AGR in this disynaptic excitatory pathway (Fig. 11) are discussed as also are the functional implications of such a long-loop pathway for sensorimotor integration.
摘要
  1. 在龙虾螯龙虾中,引起胃磨系统内侧齿前伸的肌肉gm 1由位于口胃神经节(STG)的运动神经元(GM)通过前胃神经的背支支配(图1)。2. 前胃神经的腹支(VAGN)包含一个单一单元,该单元对机械刺激敏感,对gm 1附近胃壁上的轻压有反应,并能引发GM运动神经元的反射性激活(图2)。3. 这个机械感受器神经元(称为前胃感受器,AGR)已通过形态学(图3)和电生理学(图4和图5)方法得以鉴定。双极细胞体位于紧挨着STG后方的背侧室神经中。它在左右VAGN中发出长长的外周突起,在gm 1下方胃壁的表皮中双侧分支。AGR的轴突向前穿过STG,并通过口胃神经(STN)和下食管神经投射到左右联合神经节(CoG)。4. 切断STN后,AGR对GM运动神经元的激活消失,这表明该反射是由一条涉及前端神经节的轴突通路介导的(图6)。5. 采用电生理学(图7)和形态学(图8)方法鉴定出位于每个CoG中且插在AGR和GM之间的一个中间神经元(联合胃神经元,CG)。两个CG的轴突通过上食管神经和STN投射到STG。6. 对这三种细胞类型进行同步细胞内记录表明,AGR兴奋CG,而CG又反过来兴奋GM;在每种情况下,兴奋性突触后电位与突触前冲动一一对应且潜伏期恒定(图9)。用含有高浓度二价阳离子的盐水提高动作电位发放阈值进一步表明,这两个兴奋性连接都是单突触的,并证实AGR不会直接兴奋GM运动神经元(图10)。7. 讨论了AGR在这条双突触兴奋性通路中的输入/输出特性(图11),以及这样一条长环通路对感觉运动整合的功能意义。

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