Mechanics of serotonin-producing human entero-endocrine cells

Mechanobiology in Medicine Pub Date : 2024-02-08 DOI:10.1016/j.mbm.2024.100044

Tom M.J. Evers , Joep Beumer , Hans Clevers , Alireza Mashaghi

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Abstract

The gastrointestinal (GI) tract's primary role is food digestion, relying on coordinated fluid secretion and bowel movements triggered by mechanosensation. Enteroendocrine cells (EECs) are specialized mechanosensitive cells that convert mechanical forces into electrochemical signals, culminating in serotonin release to regulate GI motility. Despite their pivotal role, knowledge of EEC mechanical properties has been lacking due to their rarity and limited accessibility. In this brief report, we present the first single-cell mechanical characterization of human ECCs isolated from healthy intestinal organoids. Using single-cell optical tweezers, we measured EEC stiffness profiles at the physiological temperature and investigated changes following tryptophan metabolism inhibition. Our findings not only shed light on EEC mechanics but also highlight the potential of adult stem cell-derived organoids for studying these elusive cells.

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分泌羟色胺的人类肠内分泌细胞的机理

胃肠道（GI）的主要作用是消化食物，依靠协调的液体分泌和机械感引发的肠道运动。肠内分泌细胞（EECs）是特化的机械敏感细胞，可将机械力转化为电化学信号，最终释放血清素来调节胃肠道蠕动。尽管 EEC 起着举足轻重的作用，但由于其稀有性和有限的可及性，有关其机械特性的知识一直很匮乏。在这篇简短的报告中，我们首次对从健康肠道器官组织中分离出来的人类 ECCs 进行了单细胞机械特性分析。利用单细胞光学镊子，我们测量了生理温度下 EEC 的硬度曲线，并研究了色氨酸代谢抑制后的变化。我们的研究结果不仅揭示了EEC的力学，还凸显了成体干细胞衍生的器官组织在研究这些难以捉摸的细胞方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mechanobiology in Medicine

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