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Modelling cell shape in 3D structured environments: A quantitative comparison with experiments

Link, Rabea; Jaggy, Mona 1; Bastmeyer, Martin 1,2; Schwarz, Ulrich S. ; Rangamani, Padmini [Hrsg.]
1 Zoologisches Institut (ZOO), Karlsruher Institut für Technologie (KIT)
2 Institut für Biologische und Chemische Systeme (IBCS), Karlsruher Institut für Technologie (KIT)

Abstract:

Cell shape plays a fundamental role in many biological processes, including adhesion, migration, division and development, but it is not clear which shape model best predicts three-dimensional cell shape in structured environments. Here, we compare different modelling approaches with experimental data. The shapes of single mesenchymal cells cultured in custom-made 3D scaffolds were compared by a Fourier method with surfaces that minimize area under the given adhesion and volume constraints. For the minimized surface model, we found marked differences to the experimentally observed cell shapes, which necessitated the use of more advanced shape models. We used different variants of the cellular Potts model, which effectively includes both surface and bulk contributions. The simulations revealed that the Hamiltonian with linear area energy outperformed the elastic area constraint in accurately modelling the 3D shapes of cells in structured environments. Explicit modelling the nucleus did not improve the accuracy of the simulated cell shapes. Overall, our work identifies effective methods for accurately modelling cellular shapes in complex environments.


Verlagsausgabe §
DOI: 10.5445/IR/1000170081
Veröffentlicht am 18.04.2024
Originalveröffentlichung
DOI: 10.1371/journal.pcbi.1011412
Scopus
Zitationen: 2
Dimensions
Zitationen: 2
Cover der Publikation
Zugehörige Institution(en) am KIT Institut für Biologische und Chemische Systeme (IBCS)
Zoologisches Institut (ZOO)
Publikationstyp Zeitschriftenaufsatz
Publikationsmonat/-jahr 04.2024
Sprache Englisch
Identifikator ISSN: 1553-7358
KITopen-ID: 1000170081
HGF-Programm 47.14.02 (POF IV, LK 01) Information Storage and Processing in the Cell Nucleus
Erschienen in PLOS Computational Biology
Verlag Public Library of Science (PLoS)
Band 20
Heft 4
Seiten Art.-Nr.: e1011412
Vorab online veröffentlicht am 04.04.2024
Nachgewiesen in Scopus
Web of Science
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