Interferon-responsive intestinal BEST4/CA7+ cells are targets of bacterial diarrheal toxins

Daisong Wang; Willem Kasper Spoelstra; Lin Lin; Ninouk Akkerman; Daniel Krueger; Talya Dayton; Jeroen S. van Zon; Sander J. Tans; Johan H. van Es; Hans Clevers

doi:10.1016/j.stem.2025.02.003

Interferon-responsive intestinal BEST4/CA7+ cells are targets of bacterial diarrheal toxins

Daisong Wang, Willem Kasper Spoelstra, Lin Lin, Ninouk Akkerman, Daniel Krueger, Talya Dayton, Jeroen S. van Zon, Sander J. Tans, Johan H. van Es, Hans Clevers^*

^*Corresponding author for this work

BN/Sander Tans Lab

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

BEST4/CA7+ cells of the human intestine were recently identified by single-cell RNA sequencing. While their gene expression profile predicts a role in electrolyte balance, BEST4/CA7+ cell function has not been explored experimentally owing to the absence of BEST4/CA7+ cells in mice and the paucity of human in vitro models. Here, we establish a protocol that allows the emergence of BEST4/CA7+ cells in human intestinal organoids. Differentiation of BEST4/CA7+ cells requires activation of Notch signaling and the transcription factor SPIB. BEST4/CA7+ cell numbers strongly increase in response to the cytokine interferon-γ, supporting a role in immunity. Indeed, we demonstrate that BEST4/CA7+ cells generate robust CFTR-mediated fluid efflux when stimulated with bacterial diarrhea-causing toxins and find the norepinephrine-ADRA2A axis as a potential mechanism in blocking BEST4/CA7+ cell-mediated fluid secretion. Our observations identify a central role of BEST4/CA7+ cells in fluid homeostasis in response to bacterial infections.

Original language	English
Pages (from-to)	598-612.e5
Number of pages	21
Journal	Cell Stem Cell
Volume	32
Issue number	4
DOIs	https://doi.org/10.1016/j.stem.2025.02.003
Publication status	Published - 2025

Keywords

bacterial infection
BEST4/CA7 cells
fluid homeostasis
human intestinal organoids
interferon-γ

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.stem.2025.02.003

PIIS1934590925000426Final published version, 7.86 MBLicence: CC BY-NC-ND

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title = "Interferon-responsive intestinal BEST4/CA7+ cells are targets of bacterial diarrheal toxins",

abstract = "BEST4/CA7+ cells of the human intestine were recently identified by single-cell RNA sequencing. While their gene expression profile predicts a role in electrolyte balance, BEST4/CA7+ cell function has not been explored experimentally owing to the absence of BEST4/CA7+ cells in mice and the paucity of human in vitro models. Here, we establish a protocol that allows the emergence of BEST4/CA7+ cells in human intestinal organoids. Differentiation of BEST4/CA7+ cells requires activation of Notch signaling and the transcription factor SPIB. BEST4/CA7+ cell numbers strongly increase in response to the cytokine interferon-γ, supporting a role in immunity. Indeed, we demonstrate that BEST4/CA7+ cells generate robust CFTR-mediated fluid efflux when stimulated with bacterial diarrhea-causing toxins and find the norepinephrine-ADRA2A axis as a potential mechanism in blocking BEST4/CA7+ cell-mediated fluid secretion. Our observations identify a central role of BEST4/CA7+ cells in fluid homeostasis in response to bacterial infections.",

keywords = "bacterial infection, BEST4/CA7 cells, fluid homeostasis, human intestinal organoids, interferon-γ",

author = "Daisong Wang and Spoelstra, {Willem Kasper} and Lin Lin and Ninouk Akkerman and Daniel Krueger and Talya Dayton and {van Zon}, {Jeroen S.} and Tans, {Sander J.} and {van Es}, {Johan H.} and Hans Clevers",

year = "2025",

doi = "10.1016/j.stem.2025.02.003",

language = "English",

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T1 - Interferon-responsive intestinal BEST4/CA7+ cells are targets of bacterial diarrheal toxins

AU - Wang, Daisong

AU - Spoelstra, Willem Kasper

AU - Lin, Lin

AU - Akkerman, Ninouk

AU - Krueger, Daniel

AU - Dayton, Talya

AU - van Zon, Jeroen S.

AU - Tans, Sander J.

AU - van Es, Johan H.

AU - Clevers, Hans

PY - 2025

Y1 - 2025

N2 - BEST4/CA7+ cells of the human intestine were recently identified by single-cell RNA sequencing. While their gene expression profile predicts a role in electrolyte balance, BEST4/CA7+ cell function has not been explored experimentally owing to the absence of BEST4/CA7+ cells in mice and the paucity of human in vitro models. Here, we establish a protocol that allows the emergence of BEST4/CA7+ cells in human intestinal organoids. Differentiation of BEST4/CA7+ cells requires activation of Notch signaling and the transcription factor SPIB. BEST4/CA7+ cell numbers strongly increase in response to the cytokine interferon-γ, supporting a role in immunity. Indeed, we demonstrate that BEST4/CA7+ cells generate robust CFTR-mediated fluid efflux when stimulated with bacterial diarrhea-causing toxins and find the norepinephrine-ADRA2A axis as a potential mechanism in blocking BEST4/CA7+ cell-mediated fluid secretion. Our observations identify a central role of BEST4/CA7+ cells in fluid homeostasis in response to bacterial infections.

AB - BEST4/CA7+ cells of the human intestine were recently identified by single-cell RNA sequencing. While their gene expression profile predicts a role in electrolyte balance, BEST4/CA7+ cell function has not been explored experimentally owing to the absence of BEST4/CA7+ cells in mice and the paucity of human in vitro models. Here, we establish a protocol that allows the emergence of BEST4/CA7+ cells in human intestinal organoids. Differentiation of BEST4/CA7+ cells requires activation of Notch signaling and the transcription factor SPIB. BEST4/CA7+ cell numbers strongly increase in response to the cytokine interferon-γ, supporting a role in immunity. Indeed, we demonstrate that BEST4/CA7+ cells generate robust CFTR-mediated fluid efflux when stimulated with bacterial diarrhea-causing toxins and find the norepinephrine-ADRA2A axis as a potential mechanism in blocking BEST4/CA7+ cell-mediated fluid secretion. Our observations identify a central role of BEST4/CA7+ cells in fluid homeostasis in response to bacterial infections.

KW - bacterial infection

KW - BEST4/CA7 cells

KW - fluid homeostasis

KW - human intestinal organoids

KW - interferon-γ

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Interferon-responsive intestinal BEST4/CA7+ cells are targets of bacterial diarrheal toxins

Abstract

Keywords

UN SDGs

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