Author
Listed:
- Maria Azkanaz
(The Netherlands Cancer Institute
Oncode Institute)
- Bernat Corominas-Murtra
(University of Graz
Institute for Science and Technology Austria)
- Saskia I. J. Ellenbroek
(The Netherlands Cancer Institute
Oncode Institute)
- Lotte Bruens
(The Netherlands Cancer Institute
Oncode Institute)
- Anna T. Webb
(Karolinska Institutet)
- Dimitrios Laskaris
(The Netherlands Cancer Institute
Oncode Institute)
- Koen C. Oost
(Friedrich Miescher Institute for Biomedical Research (FMI))
- Simona J. A. Lafirenze
(The Netherlands Cancer Institute
Oncode Institute
University Medical Centre Utrecht)
- Karl Annusver
(Karolinska Institutet)
- Hendrik A. Messal
(The Netherlands Cancer Institute
Oncode Institute)
- Sharif Iqbal
(University of Helsinki
University of Helsinki)
- Dustin J. Flanagan
(CRUK Beatson Institute
Monash University)
- David J. Huels
(Oncode Institute
CRUK Beatson Institute
Amsterdam University Medical Centers)
- Felipe Rojas-Rodríguez
(The Netherlands Cancer Institute)
- Miguel Vizoso
(The Netherlands Cancer Institute
Oncode Institute)
- Maria Kasper
(Karolinska Institutet)
- Owen J. Sansom
(CRUK Beatson Institute
University of Glasgow)
- Hugo J. Snippert
(Oncode Institute
University Medical Centre Utrecht)
- Prisca Liberali
(Friedrich Miescher Institute for Biomedical Research (FMI)
University of Basel)
- Benjamin D. Simons
(University of Cambridge
University of Cambridge
University of Cambridge)
- Pekka Katajisto
(Karolinska Institutet
University of Helsinki
University of Helsinki)
- Edouard Hannezo
(Institute for Science and Technology Austria)
- Jacco van Rheenen
(The Netherlands Cancer Institute
Oncode Institute)
Abstract
The morphology and functionality of the epithelial lining differ along the intestinal tract, but tissue renewal at all sites is driven by stem cells at the base of crypts1–3. Whether stem cell numbers and behaviour vary at different sites is unknown. Here we show using intravital microscopy that, despite similarities in the number and distribution of proliferative cells with an Lgr5 signature in mice, small intestinal crypts contain twice as many effective stem cells as large intestinal crypts. We find that, although passively displaced by a conveyor-belt-like upward movement, small intestinal cells positioned away from the crypt base can function as long-term effective stem cells owing to Wnt-dependent retrograde cellular movement. By contrast, the near absence of retrograde movement in the large intestine restricts cell repositioning, leading to a reduction in effective stem cell number. Moreover, after suppression of the retrograde movement in the small intestine, the number of effective stem cells is reduced, and the rate of monoclonal conversion of crypts is accelerated. Together, these results show that the number of effective stem cells is determined by active retrograde movement, revealing a new channel of stem cell regulation that can be experimentally and pharmacologically manipulated.
Suggested Citation
Maria Azkanaz & Bernat Corominas-Murtra & Saskia I. J. Ellenbroek & Lotte Bruens & Anna T. Webb & Dimitrios Laskaris & Koen C. Oost & Simona J. A. Lafirenze & Karl Annusver & Hendrik A. Messal & Shari, 2022.
"Retrograde movements determine effective stem cell numbers in the intestine,"
Nature, Nature, vol. 607(7919), pages 548-554, July.
Handle:
RePEc:nat:nature:v:607:y:2022:i:7919:d:10.1038_s41586-022-04962-0
DOI: 10.1038/s41586-022-04962-0
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