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Computational Models Reveal a Passive Mechanism for Cell Migration in the Crypt

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  • Sara-Jane Dunn
  • Inke S Näthke
  • James M Osborne

Abstract

Cell migration in the intestinal crypt is essential for the regular renewal of the epithelium, and the continued upward movement of cells is a key characteristic of healthy crypt dynamics. However, the driving force behind this migration is unknown. Possibilities include mitotic pressure, active movement driven by motility cues, or negative pressure arising from cell loss at the crypt collar. It is possible that a combination of factors together coordinate migration. Here, three different computational models are used to provide insight into the mechanisms that underpin cell movement in the crypt, by examining the consequence of eliminating cell division on cell movement. Computational simulations agree with existing experimental results, confirming that migration can continue in the absence of mitosis. Importantly, however, simulations allow us to infer mechanisms that are sufficient to generate cell movement, which is not possible through experimental observation alone. The results produced by the three models agree and suggest that cell loss due to apoptosis and extrusion at the crypt collar relieves cell compression below, allowing cells to expand and move upwards. This finding suggests that future experiments should focus on the role of apoptosis and cell extrusion in controlling cell migration in the crypt.

Suggested Citation

  • Sara-Jane Dunn & Inke S Näthke & James M Osborne, 2013. "Computational Models Reveal a Passive Mechanism for Cell Migration in the Crypt," PLOS ONE, Public Library of Science, vol. 8(11), pages 1-1, November.
    • Handle: RePEc:plo:pone00:0080516
    DOI: 10.1371/journal.pone.0080516
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    References listed on IDEAS

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    1. Peter Buske & Jörg Galle & Nick Barker & Gabriela Aust & Hans Clevers & Markus Loeffler, 2011. "A Comprehensive Model of the Spatio-Temporal Stem Cell and Tissue Organisation in the Intestinal Crypt," PLOS Computational Biology, Public Library of Science, vol. 7(1), pages 1-13, January.
    2. George T. Eisenhoffer & Patrick D. Loftus & Masaaki Yoshigi & Hideo Otsuna & Chi-Bin Chien & Paul A. Morcos & Jody Rosenblatt, 2012. "Crowding induces live cell extrusion to maintain homeostatic cell numbers in epithelia," Nature, Nature, vol. 484(7395), pages 546-549, April.
    3. Nick Barker & Rachel A. Ridgway & Johan H. van Es & Marc van de Wetering & Harry Begthel & Maaike van den Born & Esther Danenberg & Alan R. Clarke & Owen J. Sansom & Hans Clevers, 2009. "Crypt stem cells as the cells-of-origin of intestinal cancer," Nature, Nature, vol. 457(7229), pages 608-611, January.
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    1. Byoungkoo Lee & Xin Zhou & Kristin Riching & Kevin W Eliceiri & Patricia J Keely & Scott A Guelcher & Alissa M Weaver & Yi Jiang, 2014. "A Three-Dimensional Computational Model of Collagen Network Mechanics," PLOS ONE, Public Library of Science, vol. 9(11), pages 1-12, November.

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