PUBLICATION

3D cell segregation geometry and dynamics are governed by tissue surface tension regulation

Authors

Méhes, E., Mones, E., Varga, M., Zsigmond, Á., Biri-Kovács, B., Nyitray, L., Barone, V., Krens, G., Heisenberg, C.P., Vicsek, T.

ID

ZDB-PUB-230805-40

Date

2023

Source

Communications biology 6: 817817 (Journal)

Registered Authors

Barone, Vanessa, Heisenberg, Carl-Philipp, Krens, S. F. Gabby, Varga, Máté, Zsigmond, Aron

Keywords

none

MeSH Terms

Actomyosin*/metabolism
Animals
Cell Separation
Surface Tension
Zebrafish/metabolism
rho-Associated Kinases*/metabolism

PubMed

37542157 Full text @ Commun Biol

Abstract

Tissue morphogenesis and patterning during development involve the segregation of cell types. Segregation is driven by differential tissue surface tensions generated by cell types through controlling cell-cell contact formation by regulating adhesion and actomyosin contractility-based cellular cortical tensions. We use vertebrate tissue cell types and zebrafish germ layer progenitors as in vitro models of 3-dimensional heterotypic segregation and developed a quantitative analysis of their dynamics based on 3D time-lapse microscopy. We show that general inhibition of actomyosin contractility by the Rho kinase inhibitor Y27632 delays segregation. Cell type-specific inhibition of non-muscle myosin2 activity by overexpression of myosin assembly inhibitor S100A4 reduces tissue surface tension, manifested in decreased compaction during aggregation and inverted geometry observed during segregation. The same is observed when we express a constitutively active Rho kinase isoform to ubiquitously keep actomyosin contractility high at cell-cell and cell-medium interfaces and thus overriding the interface-specific regulation of cortical tensions. Tissue surface tension regulation can become an effective tool in tissue engineering.

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Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

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Mapping

Méhes et al., 2023 ZDB-PUB-230805-40 PMID:37542157

3D cell segregation geometry and dynamics are governed by tissue surface tension regulation

Méhes et al., 2023

ZDB-PUB-230805-40
PMID:37542157