Tuft cells act as regenerative stem cells in the human intestine

Lulu Huang; Jochem H Bernink; Amir Giladi; Daniel Krueger; Gijs J F van Son; Maarten H Geurts; Georg Busslinger; Lin Lin; Harry Begthel; Maurice Zandvliet; Christianne J Buskens; Willem A Bemelman; Carmen López-Iglesias; Peter J Peters; Hans Clevers

doi:10.1038/s41586-024-07952-6

Tuft cells act as regenerative stem cells in the human intestine

Lulu Huang
, Jochem H Bernink
, Amir Giladi
, Daniel Krueger
, Gijs J F van Son
, Maarten H Geurts
, Georg Busslinger
, Lin Lin
, Harry Begthel
, Maurice Zandvliet
, Christianne J Buskens
, Willem A Bemelman
, Carmen López-Iglesias
, Peter J Peters
, Hans Clevers

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

Abstract

In mice, intestinal tuft cells have been described as a long-lived, postmitotic cell type. Two distinct subsets have been identified: tuft-1 and tuft-2 (ref. 1). By combining analysis of primary human intestinal resection material and intestinal organoids, we identify four distinct human tuft cell states, two of which overlap with their murine counterparts. We show that tuft cell development depends on the presence of Wnt ligands, and that tuft cell numbers rapidly increase on interleukin-4 (IL-4) and IL-13 exposure, as reported previously in mice 2-4. This occurs through proliferation of pre-existing tuft cells, rather than through increased de novo generation from stem cells. Indeed, proliferative tuft cells occur in vivo both in fetal and in adult human intestine. Single mature proliferating tuft cells can form organoids that contain all intestinal epithelial cell types. Unlike stem and progenitor cells, human tuft cells survive irradiation damage and retain the ability to generate all other epithelial cell types. Accordingly, organoids engineered to lack tuft cells fail to recover from radiation-induced damage. Thus, tuft cells represent a damage-induced reserve intestinal stem cell pool in humans.

Original language	English
Pages (from-to)	929–935
Number of pages	7
Journal	Nature
Volume	634
Issue number	8035
Early online date	2 Oct 2024
DOIs	https://doi.org/10.1038/s41586-024-07952-6
Publication status	Published - 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

Funding

We thank E. Siteur and the Stichting Bloemenhove clinic for providing fetal intestinal material, T. Grenier for providing adult intestinal material and T. Dayton for providing paraffin blocks of human intestinal material. We acknowledge L. Verweij and E. Bokobza for sharing antibodies, S. Weterings for organizing the light sheet fluorescence microscopy, T. Hiiragi\u2019s group for sharing the ZEISS 880 microscope and all the support from FACS and imaging facility. L.H. acknowledges financial support from the China Scholarship Council program (grant no. 201906210081), and J.H.B. acknowledges financial support from ZonMw Veni fellowship (grant no. 09.150.161.810.107) and Dutch Lung Fund grant (no. 4.2.18.237). A.G. acknowledges financial support from the EMBO fellowship (grant no. ALTF 112-2022). This work was supported by the Netherlands Organ-on-Chip Initiative (grant no. 024.003.001) from the Netherlands Organisation for Scientific Research (NWO) funded by the Ministry of Education, Culture and Science of the government of the Netherlands (H.C.).

Funders	Funder number
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
Ministerie van onderwijs, cultuur en wetenschap
FACS
Netherlands Organ-on-Chip Initiative	024.003.001
Dutch Lung Fund	4.2.18.237
ZonMw Veni	09.150.161.810.107
China Scholarship Council program	201906210081
European Molecular Biology Organization	ALTF 112-2022

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10.1038/s41586-024-07952-6Licence: CC BY-NC-ND

s41586-024-07952-6 (1)Final published version, 16.2 MBLicence: CC BY-NC-ND

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title = "Tuft cells act as regenerative stem cells in the human intestine",

abstract = "In mice, intestinal tuft cells have been described as a long-lived, postmitotic cell type. Two distinct subsets have been identified: tuft-1 and tuft-2 (ref. 1). By combining analysis of primary human intestinal resection material and intestinal organoids, we identify four distinct human tuft cell states, two of which overlap with their murine counterparts. We show that tuft cell development depends on the presence of Wnt ligands, and that tuft cell numbers rapidly increase on interleukin-4 (IL-4) and IL-13 exposure, as reported previously in mice 2-4. This occurs through proliferation of pre-existing tuft cells, rather than through increased de novo generation from stem cells. Indeed, proliferative tuft cells occur in vivo both in fetal and in adult human intestine. Single mature proliferating tuft cells can form organoids that contain all intestinal epithelial cell types. Unlike stem and progenitor cells, human tuft cells survive irradiation damage and retain the ability to generate all other epithelial cell types. Accordingly, organoids engineered to lack tuft cells fail to recover from radiation-induced damage. Thus, tuft cells represent a damage-induced reserve intestinal stem cell pool in humans. ",

author = "Lulu Huang and Bernink, \{Jochem H\} and Amir Giladi and Daniel Krueger and \{van Son\}, \{Gijs J F\} and Geurts, \{Maarten H\} and Georg Busslinger and Lin Lin and Harry Begthel and Maurice Zandvliet and Buskens, \{Christianne J\} and Bemelman, \{Willem A\} and Carmen L{\'o}pez-Iglesias and Peters, \{Peter J\} and Hans Clevers",

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doi = "10.1038/s41586-024-07952-6",

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T1 - Tuft cells act as regenerative stem cells in the human intestine

AU - Huang, Lulu

AU - Bernink, Jochem H

AU - Giladi, Amir

AU - Krueger, Daniel

AU - van Son, Gijs J F

AU - Geurts, Maarten H

AU - Busslinger, Georg

AU - Lin, Lin

AU - Begthel, Harry

AU - Zandvliet, Maurice

AU - Buskens, Christianne J

AU - Bemelman, Willem A

AU - López-Iglesias, Carmen

AU - Peters, Peter J

AU - Clevers, Hans

PY - 2024

Y1 - 2024

N2 - In mice, intestinal tuft cells have been described as a long-lived, postmitotic cell type. Two distinct subsets have been identified: tuft-1 and tuft-2 (ref. 1). By combining analysis of primary human intestinal resection material and intestinal organoids, we identify four distinct human tuft cell states, two of which overlap with their murine counterparts. We show that tuft cell development depends on the presence of Wnt ligands, and that tuft cell numbers rapidly increase on interleukin-4 (IL-4) and IL-13 exposure, as reported previously in mice 2-4. This occurs through proliferation of pre-existing tuft cells, rather than through increased de novo generation from stem cells. Indeed, proliferative tuft cells occur in vivo both in fetal and in adult human intestine. Single mature proliferating tuft cells can form organoids that contain all intestinal epithelial cell types. Unlike stem and progenitor cells, human tuft cells survive irradiation damage and retain the ability to generate all other epithelial cell types. Accordingly, organoids engineered to lack tuft cells fail to recover from radiation-induced damage. Thus, tuft cells represent a damage-induced reserve intestinal stem cell pool in humans.

AB - In mice, intestinal tuft cells have been described as a long-lived, postmitotic cell type. Two distinct subsets have been identified: tuft-1 and tuft-2 (ref. 1). By combining analysis of primary human intestinal resection material and intestinal organoids, we identify four distinct human tuft cell states, two of which overlap with their murine counterparts. We show that tuft cell development depends on the presence of Wnt ligands, and that tuft cell numbers rapidly increase on interleukin-4 (IL-4) and IL-13 exposure, as reported previously in mice 2-4. This occurs through proliferation of pre-existing tuft cells, rather than through increased de novo generation from stem cells. Indeed, proliferative tuft cells occur in vivo both in fetal and in adult human intestine. Single mature proliferating tuft cells can form organoids that contain all intestinal epithelial cell types. Unlike stem and progenitor cells, human tuft cells survive irradiation damage and retain the ability to generate all other epithelial cell types. Accordingly, organoids engineered to lack tuft cells fail to recover from radiation-induced damage. Thus, tuft cells represent a damage-induced reserve intestinal stem cell pool in humans.

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DO - 10.1038/s41586-024-07952-6

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JO - Nature

JF - Nature

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ER -

Tuft cells act as regenerative stem cells in the human intestine

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