负责大鼠胃动力和张力食管控制的脑干通路。
Brainstem pathways responsible for oesophageal control of gastric motility and tone in the rat.
作者信息
Rogers R C, Hermann G E, Travagli R A
机构信息
Departments of Physiology and Neuroscience, Ohio State University, Columbus, OH 43210, USA.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):369-83. doi: 10.1111/j.1469-7793.1999.369ae.x.
Abstract
- Previous anatomical studies indicate that the nucleus of the solitary tract, pars centralis (NSTc) contains the neurones which receive vagal afferent input from the oesophagus. The purpose of the present study was to characterize the NSTc circuits in the medulla that may be responsible for oesophageal control of gastric motility. 2. Moderate balloon distension of the oesophagus of the rat (14-18 mmHg) provoked a significant reduction in gastric motility and tone recorded with strain gauges. This receptive relaxation effect was eliminated by bilateral lesions centred on the NSTc. 3. NSTc cells activated by oesophageal distension were labelled extracellularly and juxtacellularly with neurobiotin. NSTc neurones send axonal projections throughout the entire rostral-caudal extent of the dorsal motor nucleus of the vagus (DMN). These NSTc-DMN connections were confirmed by retrograde transport of neurobiotin from DMN to NSTc. NSTc neurones were observed with dendrites arborizing within the ependymal lining of the fourth ventricles. Thus, NSTc neurones may be in position to monitor blood-borne or ventricular agents and to alter the function of gastric-vago-vagal reflexes in response to these stimuli. 4. Neurophysiological recordings identified two subpopulations of DMN neurones which may be either activated or inhibited by oesophageal distension. Neurones excited by oesophageal distension were located mainly lateral and caudal in the DMN; neurones inhibited by oesophageal stimulation were located in medial and rostral DMN. 5. Our neurobiotin tracing results verified earlier studies showing that the NSTc projects to the intermediate reticular nucleus and the compact division of the nucleus ambiguus. Additionally, we found that the NSTc may be involved in reciprocal connections with the anterior, rostrolateral NST. 6. These results suggest that the gastric relaxation evoked by oesophageal distension is critically dependent on intact brainstem vago-vagal circuits. The NSTc, the recipient of oesophageal afferent projections from the vagus nerve, sends axons to the entire DMN, the source of parasympathetic control of the stomach. DMN neurones respond differentially to oesophageal distension, reinforcing the view that oesophageal afferents may provoke gastric relaxation by activating a vagal inhibitory pathway while simultaneously inhibiting a vagal excitatory pathway.
摘要
- 以往的解剖学研究表明,孤束核中央部(NSTc)含有接收来自食管迷走传入输入的神经元。本研究的目的是描述延髓中可能负责食管对胃动力控制的NSTc回路。2. 对大鼠食管进行适度的气囊扩张(14 - 18 mmHg)会导致用应变片记录的胃动力和张力显著降低。这种容受性舒张效应通过以NSTc为中心的双侧损伤而消除。3. 被食管扩张激活的NSTc细胞通过细胞外和近细胞内注射神经生物素进行标记。NSTc神经元向迷走神经背运动核(DMN)的整个头尾范围发出轴突投射。从DMN到NSTc的神经生物素逆行运输证实了这些NSTc - DMN连接。观察到NSTc神经元的树突在第四脑室的室管膜内衬内分支。因此,NSTc神经元可能能够监测血源性或脑室介质,并响应这些刺激改变胃 - 迷走 - 迷走反射的功能。4. 神经生理学记录确定了DMN神经元的两个亚群,它们可能被食管扩张激活或抑制。被食管扩张兴奋的神经元主要位于DMN的外侧和尾侧;被食管刺激抑制的神经元位于DMN的内侧和头侧。5. 我们的神经生物素追踪结果证实了早期研究,表明NSTc投射到中间网状核和疑核的致密部。此外,我们发现NSTc可能参与与前侧、嘴侧外侧NST的相互连接。6. 这些结果表明,食管扩张引起的胃舒张严重依赖于完整的脑干迷走 - 迷走回路。NSTc是来自迷走神经的食管传入投射的接收者,它向整个DMN发送轴突,而DMN是胃副交感神经控制的来源。DMN神经元对食管扩张有不同的反应,强化了这样一种观点,即食管传入可能通过激活迷走抑制通路同时抑制迷走兴奋通路来引发胃舒张。
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