人类肠内分泌系统的发育和解剖。

Endocrine development Pub Date : 2017-01-01 Epub Date: 2017-08-15 DOI:10.1159/000475729
Carsten Posovszky
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引用次数: 4

摘要

胃肠道具有巨大的表面积,主要由吸收性肠细胞组成。肠内分泌细胞(EECs)分布在胃肠道吸收性肠细胞和其他分泌性细胞之间,约占上皮细胞群的1%。有趣的是,它们和肠道的其他吸收或分泌细胞一样,是由相同的隐窝干细胞发育而来的。EECs沿隐窝绒毛轴分化,每4-6天更新一次,因此具有很高的可塑性。它们是人体最大的内分泌系统,通过分泌多种多肽激素来控制餐后消化、胰岛素稳态、食物摄入和肠道蠕动等。为此,大多数eec都具有检测胃肠道内容物的管腔传感器。此后,它们可能以经典的内分泌方式起作用,或通过旁分泌作用于附近的神经和免疫细胞。这为EECs影响胃肠道免疫系统和肠神经系统创造了关键作用。在本章中,介绍了EECs的解剖特征、发育、分化和成熟,并说明了它们作为肠道相互作用感觉系统的一部分的重要生物学潜力。
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Development and Anatomy of the Enteroendocrine System in Humans.

The gastrointestinal (GI) tract exhibits an enormous surface area that consists mostly of absorptive enterocytes. Enteroendocrine cells (EECs) are found scattered along the GI tract between absorptive enterocytes and other secretory cells, and comprise around 1% of the epithelial cell population. Interestingly, they develop from the same crypt stem cell as the other absorptive or secretory cells of the gut. EECs differentiate along the crypt villus axis and are renewed every 4-6 days, and hence possess a high plasticity. They constitute the largest endocrine system in the human body by secreting multiple peptide hormones to control, for example, postprandial digestion, insulin homeostasis, food intake, and gut motility. For this purpose, most EECs exhibit luminal sensors that detect the GI tract content. Thereafter, they may act either in a classical endocrine fashion, or by paracrine effects on nearby neural and immune cells. This creates a pivotal role for EECs to influence the GI immune system and the enteric nervous system. In this chapter, the anatomical characteristics, development, differentiation and maturation of EECs are described, and their important biological potential illustrated as part of the gut interacting sensory system.

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