起搏器功能在犬胃窦肌层中的分布。
Distribution of pacemaker function through the tunica muscularis of the canine gastric antrum.
作者信息
Horiguchi K, Semple G S, Sanders K M, Ward S M
机构信息
Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, NV 89557, USA.
出版信息
J Physiol. 2001 Nov 15;537(Pt 1):237-50. doi: 10.1111/j.1469-7793.2001.0237k.x.
Abstract
- Interstitial cells of Cajal (ICC) have been shown to generate pacemaker activity in gastrointestinal (GI) muscles. Experiments were performed to characterize the ICC within the canine gastric antrum and to determine the site(s) of pacemaker activity and whether active propagation pathways exist within the thick-walled tunica muscularis of large mammals. 2. Immunohistochemistry and electron microscopy revealed four populations of ICC within the antral muscularis on the basis of anatomical location. Typical ICC were found in the myenteric region of the small intestine (IC-MY). Intramuscular ICC (IC-IM) were intermingled between muscle fibres of circular and longitudinal muscle layers. ICC were also found within septa (IC-SEP) between muscle bundles and along the submucosal surface of the circular muscle layer (IC-SM). ICC were identified in each location by ultrastructural features. 3. Intracellular electrical recordings demonstrated nifedipine-insensitive slow waves throughout the circular muscle layer. Separation of interior and submucosal circular muscle strips from the dominant (myenteric) pacemaker region dramatically slowed frequency but did not block spontaneous slow waves, suggesting that pacemaker cells populate all regions of the circular muscle. 4. Slow waves could be evoked in interior and submucosal circular muscles at rates above normal antral frequency by electrical pacing or by acetylcholine (0.3 microM). Active slow wave propagation occurred in all regions of the circular muscle, and propagation velocities were similar in each region. 5. In summary, antral muscles of the canine stomach have pacemaker capability throughout the circular muscle. Normally, a dominant pacemaker near the myenteric plexus drives slow waves that actively propagate throughout the circular layer. Pacemaker activity and the active propagation pathway may occur in networks of ICC that are distributed in the region of the myenteric plexus and throughout the circular muscle layer.
摘要
- 已证实,胃肠道(GI)肌肉中的Cajal间质细胞(ICC)可产生起搏活动。进行实验以表征犬胃窦内的ICC,并确定起搏活动的位点,以及大型哺乳动物厚壁肌层内是否存在主动传播途径。2. 免疫组织化学和电子显微镜检查根据解剖位置在胃窦肌层内发现了四类ICC。典型的ICC存在于小肠的肌间区域(IC-MY)。肌内ICC(IC-IM)夹杂在环行肌层和纵行肌层的肌纤维之间。在肌束之间的隔膜内(IC-SEP)以及沿环行肌层的黏膜下层表面(IC-SM)也发现了ICC。通过超微结构特征在每个位置识别出ICC。3. 细胞内电记录显示整个环行肌层存在对硝苯地平不敏感的慢波。将内层和黏膜下层环行肌条与主要的(肌间)起搏区域分离,频率显著减慢,但并未阻断自发慢波,这表明起搏细胞遍布环行肌的所有区域。4. 通过电起搏或乙酰胆碱(0.3微摩尔)可使内层和黏膜下层环行肌以高于正常胃窦频率的速率诱发慢波。慢波在环行肌的所有区域均有主动传播,且每个区域的传播速度相似。5. 总之,犬胃的胃窦肌在整个环行肌层都具有起搏能力。正常情况下,肌间神经丛附近的主要起搏点驱动慢波,这些慢波在整个环行层中主动传播。起搏活动和主动传播途径可能发生在分布于肌间神经丛区域和整个环行肌层的ICC网络中。
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