Mechanochemical Symmetry Breaking in Hydra Aggregates

Overview

Journal Biophys J

Publisher Cell Press

Specialty Biophysics

Date 2015 May 9

PMID 25954896

Citations 10

Authors

Moritz Mercker

Alexandra Kothe

Anna Marciniak-Czochra

Affiliations

Soon will be listed here.

Abstract

Tissue morphogenesis comprises the self-organized creation of various patterns and shapes. Although detailed underlying mechanisms are still elusive in many cases, an increasing amount of experimental data suggests that chemical morphogen and mechanical processes are strongly coupled. Here, we develop and test a minimal model of the axis-defining step (i.e., symmetry breaking) in aggregates of the Hydra polyp. Based on previous findings, we combine osmotically driven shape oscillations with tissue mechanics and morphogen dynamics. We show that the model incorporating a simple feedback loop between morphogen patterning and tissue stretch reproduces a wide range of experimental data. Finally, we compare different hypothetical morphogen patterning mechanisms (Turing, tissue-curvature, and self-organized criticality). Our results suggest the experimental investigation of bigger (i.e., multiple head) aggregates as a key step for a deeper understanding of mechanochemical symmetry breaking in Hydra.

Citing Articles

Mechanical characterization of regenerating Hydra tissue spheres.

Perros T, Biquet-Bisquert A, Ben Meriem Z, Delarue M, Joseph P, Marcq P Biophys J. 2024; 123(13):1792-1803.

PMID: 38783602 PMC: 11267430. DOI: 10.1016/j.bpj.2024.05.022.

Hydrostatic pressure as a driver of cell and tissue morphogenesis.

Chugh M, Munjal A, Megason S Semin Cell Dev Biol. 2022; 131:134-145.

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The Wnt-specific astacin proteinase HAS-7 restricts head organizer formation in Hydra.

Ziegler B, Yiallouros I, Trageser B, Kumar S, Mercker M, Kling S BMC Biol. 2021; 19(1):120.

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Pattern regulation in a regenerating jellyfish.

Sinigaglia C, Peron S, Eichelbrenner J, Chevalier S, Steger J, Barreau C Elife. 2020; 9.

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Elongation and shape changes in organisms with cell walls: A dialogue between experiments and models.

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