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小鼠小肠中c-Kit阳性细胞的发育及电节律的起始

Development of c-Kit-positive cells and the onset of electrical rhythmicity in murine small intestine.

作者信息

Torihashi S, Ward S M, Sanders K M

机构信息

Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, USA.

出版信息

Gastroenterology. 1997 Jan;112(1):144-55. doi: 10.1016/s0016-5085(97)70229-4.

DOI:10.1016/s0016-5085(97)70229-4
PMID:8978353
Abstract

BACKGROUND & AIMS: Little is known about the development of interstitial cells (ICs), yet these cells are important in electrical rhythmicity and neurotransmission in the gastrointestinal tract. This study characterized the development of ICs and the onset of electrical rhythmicity in the murine intestine.

METHODS

Antibodies against c-Kit (e.g., the receptor for stem cell factor) were used to label ICs of the small intestines of embryos and neonatal mice. Labels for enteric neuroblasts and smooth muscle cells were used to study neighboring cells. Development was examined also with electron microscopy and electrophysiological techniques.

RESULTS

c-Kit-like immunoreactivity (c-Kit-LI) was detected in gastrointestinal tissues at embryonic day 12.5. Labeled cells were distributed along the outer perimeter of the intestine and had morphological features of neither smooth muscle cells nor ICs. Cells with c-Kit-LI were nonneural and seemed to be common precursors for longitudinal muscle cells and ICs of the myenteric plexus region (IC-MY). Longitudinal muscle cells lost c-Kit by E18, whereas IC-MY continued c-Kit expression into adulthood. Electrical rhythmicity developed after IC-MY, and longitudinal muscle cells became separate entities. ICs in the deep muscular plexus region developed after birth.

CONCLUSIONS

ICs have a nonneural origin. Common precursors yield IC-MY and longitudinal muscle cells. Development of IC-MY correlates with the initiation of electrical rhythmicity.

摘要

背景与目的

关于间质细胞(ICs)的发育知之甚少,但这些细胞在胃肠道的电节律性和神经传递中很重要。本研究对小鼠肠道中ICs的发育及电节律的起始进行了特征描述。

方法

使用抗c-Kit(例如干细胞因子受体)抗体标记胚胎和新生小鼠小肠的ICs。使用肠神经母细胞和平滑肌细胞的标记物来研究相邻细胞。还通过电子显微镜和电生理技术检查发育情况。

结果

在胚胎第12.5天的胃肠道组织中检测到c-Kit样免疫反应性(c-Kit-LI)。标记细胞沿肠道外周分布,既没有平滑肌细胞也没有ICs的形态特征。具有c-Kit-LI的细胞是非神经细胞,似乎是纵行肌细胞和肌间神经丛区域ICs(IC-MY)的共同前体。纵行肌细胞在胚胎第18天失去c-Kit,而IC-MY持续表达c-Kit直至成年。电节律在IC-MY之后出现,纵行肌细胞成为独立的细胞实体。深部肌丛区域的ICs在出生后发育。

结论

ICs起源于非神经细胞。共同前体产生IC-MY和纵行肌细胞。IC-MY的发育与电节律的起始相关。

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