胎鼠肠道血管生成与神经支配的时空图谱

Spatiotemporal mapping of vascularization and innervation in the fetal murine intestine.

作者信息

Hatch John, Mukouyama Yoh-Suke

机构信息

Laboratory of Stem Cell and Neuro-Vascular Biology, Genetics and Developmental Biology Center, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, Maryland.

出版信息

Dev Dyn. 2015 Jan;244(1):56-68. doi: 10.1002/dvdy.24178. Epub 2014 Sep 22.

DOI:10.1002/dvdy.24178

PMID:25138596

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8538805/

Abstract

BACKGROUND

In mice, the intestinal tube develops from the splanchopleure before embryonic day 9.5. Subsequent patterning of nerves and blood vessels is critical for normal digestive function. A hierarchical branching vascular network allows for efficient nutrient absorption, while the complex enteric nervous system regulates intestinal motility as well as secretion, absorption, and blood flow. Despite the well-recognized significance of these systems, the precise mechanisms by which they develop have not been clearly established in mammals.

RESULTS

Using a novel whole-mount immunohistochemical protocol, we visualize the pattern of intestinal neurovascular development in mice between embryonic day 10.5 and birth. In particular, we focus on the development and remodeling of the enteric vascular plexus, the migration and organization of enteric neural crest-derived cells, and the integration of peripheral sympathetic nerves with the enteric nervous system. These correlative data lead us to hypothesize a functional interaction between migrating neural crest-derived cells and endothelial cells of the primary capillary plexus, as well as a subsequent interaction between developing peripheral autonomic nerves and differentiated neural crest-derived cells.

CONCLUSIONS

These studies provide useful anatomical data for continuing investigations on the functional mechanisms underlying intestinal organogenesis.

摘要

背景

在小鼠中，肠管在胚胎第9.5天之前由脏壁中胚层发育而来。随后神经和血管的模式形成对于正常消化功能至关重要。分层分支的血管网络有助于高效的营养吸收，而复杂的肠神经系统调节肠道蠕动以及分泌、吸收和血流。尽管这些系统的重要性已得到广泛认可，但它们在哺乳动物中发育的确切机制尚未明确确立。

结果

使用一种新颖的全组织免疫组化方法，我们观察了小鼠在胚胎第10.5天至出生期间肠神经血管发育的模式。特别是，我们关注肠血管丛的发育和重塑、肠神经嵴衍生细胞的迁移和组织，以及外周交感神经与肠神经系统的整合。这些相关数据使我们推测迁移的神经嵴衍生细胞与初级毛细血管丛的内皮细胞之间存在功能相互作用，以及发育中的外周自主神经与分化的神经嵴衍生细胞之间随后存在相互作用。

结论

这些研究为继续研究肠器官发生的功能机制提供了有用的解剖学数据。

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