Stratification of enterochromaffin cells by single-cell expression analysis

Stratification of enterochromaffin cells by single-cell expression analysis

Dynamic interactions between gut mucosal cells and the external environment are essential to maintain gut homeostasis. Enterochromaffin (EC) cells transduce both chemical and mechanical signals and produce 5-hydroxytryptamine to mediate disparate physiological responses. However, the molecular and c...

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Main Authors: Yan Song, Linda J Fothergill, Kari S Lee, Brandon Y Liu, Ada Koo, Mark Perelis, Shanti Diwakarla, Brid Callaghan, Jie Huang, Jill Wykosky, John B Furness, Gene W Yeo
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2025-04-01
Series:eLife
Subjects:
single-cell transcriptome analysis
enterochromaffin cells
enteroendocrine cells
Piezo2
serotonin
gut
Online Access:https://elifesciences.org/articles/90596
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Summary:Dynamic interactions between gut mucosal cells and the external environment are essential to maintain gut homeostasis. Enterochromaffin (EC) cells transduce both chemical and mechanical signals and produce 5-hydroxytryptamine to mediate disparate physiological responses. However, the molecular and cellular basis for functional diversity of ECs remains to be adequately defined. Here, we integrated single-cell transcriptomics with spatial image analysis to identify 14 EC clusters that are topographically organized along the gut. Subtypes predicted to be sensitive to the chemical environment and mechanical forces were identified that express distinct transcription factors and hormones. A Piezo2+ population in the distal colon was endowed with a distinctive neuronal signature. Using a combination of genetic, chemogenetic, and pharmacological approaches, we demonstrated Piezo2+ ECs are required for normal colon motility. Our study constructs a molecular map for ECs and offers a framework for deconvoluting EC cells with pleiotropic functions.
ISSN:2050-084X

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