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Cell-Sorting at the A/P Boundary in the Drosophila Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects of Hh Signaling
Non-intermingling, adjacent populations of cells define compartment boundaries; such boundaries are often essential for the positioning and the maintenance of tissue-organizers during growth. In the developing wing primordium of Drosophila melanogaster, signaling by the secreted protein Hedgehog (Hh...
Autores principales: | , , , , , |
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Formato: | Texto |
Lenguaje: | English |
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Public Library of Science
2011
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3072364/ https://www.ncbi.nlm.nih.gov/pubmed/21490725 http://dx.doi.org/10.1371/journal.pcbi.1002025 |
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author | Schilling, Sabine Willecke, Maria Aegerter-Wilmsen, Tinri Cirpka, Olaf A. Basler, Konrad von Mering, Christian |
author_facet | Schilling, Sabine Willecke, Maria Aegerter-Wilmsen, Tinri Cirpka, Olaf A. Basler, Konrad von Mering, Christian |
author_sort | Schilling, Sabine |
collection | PubMed |
description | Non-intermingling, adjacent populations of cells define compartment boundaries; such boundaries are often essential for the positioning and the maintenance of tissue-organizers during growth. In the developing wing primordium of Drosophila melanogaster, signaling by the secreted protein Hedgehog (Hh) is required for compartment boundary maintenance. However, the precise mechanism of Hh input remains poorly understood. Here, we combine experimental observations of perturbed Hh signaling with computer simulations of cellular behavior, and connect physical properties of cells to their Hh signaling status. We find that experimental disruption of Hh signaling has observable effects on cell sorting surprisingly far from the compartment boundary, which is in contrast to a previous model that confines Hh influence to the compartment boundary itself. We have recapitulated our experimental observations by simulations of Hh diffusion and transduction coupled to mechanical tension along cell-to-cell contact surfaces. Intriguingly, the best results were obtained under the assumption that Hh signaling cannot alter the overall tension force of the cell, but will merely re-distribute it locally inside the cell, relative to the signaling status of neighboring cells. Our results suggest a scenario in which homotypic interactions of a putative Hh target molecule at the cell surface are converted into a mechanical force. Such a scenario could explain why the mechanical output of Hh signaling appears to be confined to the compartment boundary, despite the longer range of the Hh molecule itself. Our study is the first to couple a cellular vertex model describing mechanical properties of cells in a growing tissue, to an explicit model of an entire signaling pathway, including a freely diffusible component. We discuss potential applications and challenges of such an approach. |
format | Text |
id | pubmed-3072364 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2011 |
publisher | Public Library of Science |
record_format | MEDLINE/PubMed |
spelling | pubmed-30723642011-04-13 Cell-Sorting at the A/P Boundary in the Drosophila Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects of Hh Signaling Schilling, Sabine Willecke, Maria Aegerter-Wilmsen, Tinri Cirpka, Olaf A. Basler, Konrad von Mering, Christian PLoS Comput Biol Research Article Non-intermingling, adjacent populations of cells define compartment boundaries; such boundaries are often essential for the positioning and the maintenance of tissue-organizers during growth. In the developing wing primordium of Drosophila melanogaster, signaling by the secreted protein Hedgehog (Hh) is required for compartment boundary maintenance. However, the precise mechanism of Hh input remains poorly understood. Here, we combine experimental observations of perturbed Hh signaling with computer simulations of cellular behavior, and connect physical properties of cells to their Hh signaling status. We find that experimental disruption of Hh signaling has observable effects on cell sorting surprisingly far from the compartment boundary, which is in contrast to a previous model that confines Hh influence to the compartment boundary itself. We have recapitulated our experimental observations by simulations of Hh diffusion and transduction coupled to mechanical tension along cell-to-cell contact surfaces. Intriguingly, the best results were obtained under the assumption that Hh signaling cannot alter the overall tension force of the cell, but will merely re-distribute it locally inside the cell, relative to the signaling status of neighboring cells. Our results suggest a scenario in which homotypic interactions of a putative Hh target molecule at the cell surface are converted into a mechanical force. Such a scenario could explain why the mechanical output of Hh signaling appears to be confined to the compartment boundary, despite the longer range of the Hh molecule itself. Our study is the first to couple a cellular vertex model describing mechanical properties of cells in a growing tissue, to an explicit model of an entire signaling pathway, including a freely diffusible component. We discuss potential applications and challenges of such an approach. Public Library of Science 2011-04-07 /pmc/articles/PMC3072364/ /pubmed/21490725 http://dx.doi.org/10.1371/journal.pcbi.1002025 Text en Schilling et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited. |
spellingShingle | Research Article Schilling, Sabine Willecke, Maria Aegerter-Wilmsen, Tinri Cirpka, Olaf A. Basler, Konrad von Mering, Christian Cell-Sorting at the A/P Boundary in the Drosophila Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects of Hh Signaling |
title | Cell-Sorting at the A/P Boundary in the Drosophila
Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects
of Hh Signaling |
title_full | Cell-Sorting at the A/P Boundary in the Drosophila
Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects
of Hh Signaling |
title_fullStr | Cell-Sorting at the A/P Boundary in the Drosophila
Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects
of Hh Signaling |
title_full_unstemmed | Cell-Sorting at the A/P Boundary in the Drosophila
Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects
of Hh Signaling |
title_short | Cell-Sorting at the A/P Boundary in the Drosophila
Wing Primordium: A Computational Model to Consolidate Observed Non-Local Effects
of Hh Signaling |
title_sort | cell-sorting at the a/p boundary in the drosophila
wing primordium: a computational model to consolidate observed non-local effects
of hh signaling |
topic | Research Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3072364/ https://www.ncbi.nlm.nih.gov/pubmed/21490725 http://dx.doi.org/10.1371/journal.pcbi.1002025 |
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