水蛭中枢神经系统中感觉神经元的感受野、几何学和传导阻滞
Receptive fields, geometry and conduction block of sensory neurones in the central nervous system of the leech.
作者信息
Yau K W
出版信息
J Physiol. 1976 Dec;263(3):513-38. doi: 10.1113/jphysiol.1976.sp011643.
Abstract
- In segmental ganglia of the leech, the cutaneous mechanosensory neurones responding to to touch innervated the skin of their own segment and of part of the anterior and posterior adjacent segments. Each touch receptive field could be divided into three non-overlapping areas: a central part innervated by the branches of the cell which ran in the nerve roots of the ganglion containing the cell body, and anterior and posterior parts innervated by its branches which ran in the nerve roots of the anterior and posterior adjacent ganglia. 2. Impulses originating from the anterior and posterior parts of the receptive fields were susceptible to conduction block within the central nervous system when the touch cells fired repetitively at frequencies that could readily be elicited with weak mechanical stimulation. In contrast, impulses originating from the central part of the receptive fields were less susceptible to block. 3. The morphology of touch cells revealed by intracellular injection of horseradish peroxidase suggested that conduction block occurred at specific bifurcation points where small cell processes joined the main process. Different physiological experiments supported this conclusion. 4. In some touch cells, bifurcation points with particularly low safety margins of conduction operated as low-pass filters, limiting the frequency of impulses capable of invading certain branches. 5. The results suggest that mechanical stimuli which would likely be encountered by the animal can lead to conduction block within its central nervous system and as a result modify its integrative activities.
摘要
- 在水蛭的节段神经节中,对触摸有反应的皮肤机械感觉神经元支配着它们自身节段以及部分相邻前后节段的皮肤。每个触觉感受野可分为三个不重叠的区域:中央部分由位于包含细胞体的神经节神经根内的细胞分支支配,前后部分则由位于相邻前后神经节神经根内的分支支配。2. 当触觉细胞以弱机械刺激容易引发的频率重复放电时,来自感受野前后部分的冲动在中枢神经系统内易发生传导阻滞。相比之下,来自感受野中央部分的冲动则较不易被阻滞。3. 通过细胞内注射辣根过氧化物酶揭示的触觉细胞形态表明,传导阻滞发生在小细胞突起与主突起相连的特定分叉点。不同的生理学实验支持了这一结论。4. 在一些触觉细胞中,传导安全裕度特别低的分叉点起到低通滤波器的作用,限制了能够侵入某些分支的冲动频率。5. 结果表明,动物可能遇到的机械刺激可导致其中枢神经系统内发生传导阻滞,从而改变其整合活动。
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