Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming

Nunes Pinheiro DC, Kardos R, Hannezo EB, Heisenberg C-PJ. 2022. Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming. Nature Physics. 18(12), 1482–1493.

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Journal Article | Published | English

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Abstract
Embryo development requires biochemical signalling to generate patterns of cell fates and active mechanical forces to drive tissue shape changes. However, how these processes are coordinated, and how tissue patterning is preserved despite the cellular flows occurring during morphogenesis, remains poorly understood. Gastrulation is a crucial embryonic stage that involves both patterning and internalization of the mesendoderm germ layer tissue. Here we show that, in zebrafish embryos, a gradient in Nodal signalling orchestrates pattern-preserving internalization movements by triggering a motility-driven unjamming transition. In addition to its role as a morphogen determining embryo patterning, graded Nodal signalling mechanically subdivides the mesendoderm into a small fraction of highly protrusive leader cells, able to autonomously internalize via local unjamming, and less protrusive followers, which need to be pulled inwards by the leaders. The Nodal gradient further enforces a code of preferential adhesion coupling leaders to their immediate followers, resulting in a collective and ordered mode of internalization that preserves mesendoderm patterning. Integrating this dual mechanical role of Nodal signalling into minimal active particle simulations quantitatively predicts both physiological and experimentally perturbed internalization movements. This provides a quantitative framework for how a morphogen-encoded unjamming transition can bidirectionally couple tissue mechanics with patterning during complex three-dimensional morphogenesis.
Publishing Year
Date Published
2022-12-01
Journal Title
Nature Physics
Publisher
Springer Nature
Acknowledgement
We thank K. Sampath, A. Pauli and Y. Bellaїche for feedback on the manuscript. We also thank the members of the Heisenberg group, in particular A. Schauer and F. Nur Arslan, for help, technical advice and discussions, and the Bioimaging and Life Science facilities at IST Austria for continuous support. We thank C. Flandoli for the artwork in the figures. This work was supported by postdoctoral fellowships from EMBO (LTF-850-2017) and HFSP (LT000429/2018-L2) to D.P. and the European Union (European Research Council starting grant 851288 to É.H. and European Research Council advanced grant 742573 to C.-P.H.).
Volume
18
Issue
12
Page
1482-1493
ISSN
eISSN
IST-REx-ID

Cite this

Nunes Pinheiro DC, Kardos R, Hannezo EB, Heisenberg C-PJ. Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming. Nature Physics. 2022;18(12):1482-1493. doi:10.1038/s41567-022-01787-6
Nunes Pinheiro, D. C., Kardos, R., Hannezo, E. B., & Heisenberg, C.-P. J. (2022). Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming. Nature Physics. Springer Nature. https://doi.org/10.1038/s41567-022-01787-6
Nunes Pinheiro, Diana C, Roland Kardos, Edouard B Hannezo, and Carl-Philipp J Heisenberg. “Morphogen Gradient Orchestrates Pattern-Preserving Tissue Morphogenesis via Motility-Driven Unjamming.” Nature Physics. Springer Nature, 2022. https://doi.org/10.1038/s41567-022-01787-6.
D. C. Nunes Pinheiro, R. Kardos, E. B. Hannezo, and C.-P. J. Heisenberg, “Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming,” Nature Physics, vol. 18, no. 12. Springer Nature, pp. 1482–1493, 2022.
Nunes Pinheiro DC, Kardos R, Hannezo EB, Heisenberg C-PJ. 2022. Morphogen gradient orchestrates pattern-preserving tissue morphogenesis via motility-driven unjamming. Nature Physics. 18(12), 1482–1493.
Nunes Pinheiro, Diana C., et al. “Morphogen Gradient Orchestrates Pattern-Preserving Tissue Morphogenesis via Motility-Driven Unjamming.” Nature Physics, vol. 18, no. 12, Springer Nature, 2022, pp. 1482–93, doi:10.1038/s41567-022-01787-6.
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2023-01-27
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