Emergent order in epithelial sheets by interplay of cell divisions and cell fate regulation
Emergent order in epithelial sheets by interplay of cell divisions and cell fate regulation
The fate choices of stem cells between self-renewal and differentiation are often tightly regulated by juxtacrine (cell-cell contact) signalling. Here, we assess how the interplay between cell division, cell fate choices, and juxtacrine signalling can affect the macroscopic ordering of cell types in self-renewing epithelial sheets, by studying a simple spatial cell fate model with cells being arranged on a 2D lattice. We show in this model that if
cells commit to their fate directly upon cell division, macroscopic patches of cells of the same type emerge, if at least a small proportion of divisions are symmetric, except if signalling interactions are laterally inhibiting. In contrast, if cells are first 'licensed' to differentiate, yet retaining the possibility to return to their naive state, macroscopic order only emerges if the signalling strength exceeds a critical threshold: if then the signalling interactions are laterally inducing, macroscopic patches emerge as well. Lateral inhibition, on the other hand, can in that case generate periodic patterns of alternating cell types (checkerboard pattern), yet only if the proportion of symmetric divisions is sufficiently low. These results can be understood theoretically by an analogy to phase transitions in spin systems known from statistical physics.
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
14 October 2024
Greulich, Philip
65da32ad-a73a-435a-86e0-e171437430a9
Greulich, Philip
(2024)
Emergent order in epithelial sheets by interplay of cell divisions and cell fate regulation.
PLoS Computational Biology, 20 (10), [e1012465].
(doi:10.1371/journal.pcbi.1012465).
Abstract
The fate choices of stem cells between self-renewal and differentiation are often tightly regulated by juxtacrine (cell-cell contact) signalling. Here, we assess how the interplay between cell division, cell fate choices, and juxtacrine signalling can affect the macroscopic ordering of cell types in self-renewing epithelial sheets, by studying a simple spatial cell fate model with cells being arranged on a 2D lattice. We show in this model that if
cells commit to their fate directly upon cell division, macroscopic patches of cells of the same type emerge, if at least a small proportion of divisions are symmetric, except if signalling interactions are laterally inhibiting. In contrast, if cells are first 'licensed' to differentiate, yet retaining the possibility to return to their naive state, macroscopic order only emerges if the signalling strength exceeds a critical threshold: if then the signalling interactions are laterally inducing, macroscopic patches emerge as well. Lateral inhibition, on the other hand, can in that case generate periodic patterns of alternating cell types (checkerboard pattern), yet only if the proportion of symmetric divisions is sufficiently low. These results can be understood theoretically by an analogy to phase transitions in spin systems known from statistical physics.
Text
2023.07.28.550939v1.full
- Author's Original
Text
emergent-order-epith_rev3--subm
- Accepted Manuscript
Text
journal.pcbi.1012465
- Version of Record
More information
Accepted/In Press date: 6 September 2024
Published date: 14 October 2024
Identifiers
Local EPrints ID: 495171
URI: http://eprints.soton.ac.uk/id/eprint/495171
ISSN: 1553-734X
PURE UUID: c0f1ade5-afb6-4996-bbed-4478470789c8
Catalogue record
Date deposited: 31 Oct 2024 17:32
Last modified: 01 Nov 2024 02:45
Export record
Altmetrics
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
