The Role of Cytonemes and Diffusive Transport in the Establishment of Morphogen Gradients

Jay Stotsky; Hans G. Othmer

doi:10.1007/s11538-024-01388-9

The Role of Cytonemes and Diffusive Transport in the Establishment of Morphogen Gradients

Jay Stotsky, Hans G. Othmer

School of Mathematics

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Abstract

Spatial distributions of morphogens provide positional information in developing systems, but how the distributions are established and maintained remains an open problem. Transport by diffusion has been the traditional mechanism, but recent experimental work has shown that cells can also communicate by filopodia-like structures called cytonemes that make direct cell-to-cell contacts. Here we investigate the roles each may play individually in a complex tissue and how they can jointly establish a reliable spatial distribution of a morphogen. To this end, we formulate models that capture fundamental aspects of various cytoneme-based transport mechanisms. In simple cases, exact solutions are attainable, and in more complex cases, we discuss results of numerical simulations.

Original language	English (US)
Article number	21
Journal	Bulletin of mathematical biology
Volume	87
Issue number	2
DOIs	https://doi.org/10.1007/s11538-024-01388-9
State	Published - Feb 2025

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive licence to the Society for Mathematical Biology 2024.

Keywords

Biological transport phenomena
Cytoneme

PubMed: MeSH publication types

Journal Article

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10.1007/s11538-024-01388-9

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abstract = "Spatial distributions of morphogens provide positional information in developing systems, but how the distributions are established and maintained remains an open problem. Transport by diffusion has been the traditional mechanism, but recent experimental work has shown that cells can also communicate by filopodia-like structures called cytonemes that make direct cell-to-cell contacts. Here we investigate the roles each may play individually in a complex tissue and how they can jointly establish a reliable spatial distribution of a morphogen. To this end, we formulate models that capture fundamental aspects of various cytoneme-based transport mechanisms. In simple cases, exact solutions are attainable, and in more complex cases, we discuss results of numerical simulations.",

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AB - Spatial distributions of morphogens provide positional information in developing systems, but how the distributions are established and maintained remains an open problem. Transport by diffusion has been the traditional mechanism, but recent experimental work has shown that cells can also communicate by filopodia-like structures called cytonemes that make direct cell-to-cell contacts. Here we investigate the roles each may play individually in a complex tissue and how they can jointly establish a reliable spatial distribution of a morphogen. To this end, we formulate models that capture fundamental aspects of various cytoneme-based transport mechanisms. In simple cases, exact solutions are attainable, and in more complex cases, we discuss results of numerical simulations.

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The Role of Cytonemes and Diffusive Transport in the Establishment of Morphogen Gradients

Abstract

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