豚鼠胃中节律性活动细胞的鉴定
Identification of rhythmically active cells in guinea-pig stomach.
作者信息
Dickens E J, Hirst G D, Tomita T
机构信息
Department of Zoology, University of Melbourne, Parkville, Victoria 3052, Australia.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):515-31. doi: 10.1111/j.1469-7793.1999.515ae.x.
Abstract
- When intracellular recordings were made from the antral region of guinea-pig stomach, cells with different patterns of electrical activity were detected. 2. One group of cells, slow-wave cells, generated slow waves which consisted of initial and secondary components. When filled with either Lucifer Yellow or neurobiotin, the cells identified as smooth muscle cells lying in the circular muscle layer. 3. A second group of cells, driving cells, generated large, rapidly rising, potential changes, driving potentials. They had small cell bodies with several processes. With neurobiotin, a network of cells was visualized that resembled c-kit positive interstitial cells of the myenteric region. 4. A third group of cells generated sequences of potential changes which resembled driving potentials but had smaller amplitudes and slow rates of rise. These cells resembled smooth muscle cells lying in the longitudinal muscle layer. 5. When simultaneous recordings were made from the driving and slow-wave cells, driving potentials and slow waves occurred synchronously. Current injections indicated that both cell types were part of a common electrical syncytium. 6. The initial component of slow waves persisted in low concentrations of caffeine, but the secondary component was abolished; higher concentrations shortened the duration of the residual initial component. Driving potentials continued in the presence of low concentrations of caffeine; moderate concentrations of caffeine shortened their duration. 7. Hence three different types of cells were distinguished on the basis of their electrical activity, their responses to caffeine and their structure. These were smooth muscle cells, lying in the longitudinal and circular layers, and interstitial cells in the myenteric region. The observations suggest that interstitial cells initiate slow waves.
摘要
- 当从豚鼠胃窦区域进行细胞内记录时,检测到具有不同电活动模式的细胞。2. 一组细胞,即慢波细胞,产生由初始成分和次级成分组成的慢波。当用鲁米诺黄或神经生物素填充时,这些细胞被确定为位于环形肌层的平滑肌细胞。3. 第二组细胞,即驱动细胞,产生大的、快速上升的电位变化,即驱动电位。它们有小的细胞体和几个突起。用神经生物素可观察到一个类似于肌间区域c-kit阳性间质细胞的细胞网络。4. 第三组细胞产生类似于驱动电位但幅度较小且上升速率较慢的电位变化序列。这些细胞类似于位于纵肌层的平滑肌细胞。5. 当同时记录驱动细胞和慢波细胞时,驱动电位和慢波同步出现。电流注入表明这两种细胞类型都是一个共同电合体的一部分。6. 慢波的初始成分在低浓度咖啡因中持续存在,但次级成分消失;较高浓度缩短了残余初始成分的持续时间。在低浓度咖啡因存在时驱动电位持续存在;中等浓度的咖啡因缩短了它们的持续时间。7. 因此,根据它们的电活动、对咖啡因的反应和结构区分出三种不同类型的细胞。这些是位于纵肌层和环形肌层的平滑肌细胞以及肌间区域的间质细胞。这些观察结果表明间质细胞启动慢波。
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