Generating Active T1 Transitions Through Mechanochemical Feedback

Overview

Journal Elife

Specialty Biology

Date 2023 Apr 11

PMID 37039463

Authors

Rastko Sknepnek

Ilyas Djafer-Cherif

Manli Chuai

Cornelis Weijer

Silke Henkes

Affiliations

Soon will be listed here.

Abstract

Convergence-extension in embryos is controlled by chemical and mechanical signalling. A key cellular process is the exchange of neighbours via T1 transitions. We propose and analyse a model with positive feedback between recruitment of myosin motors and mechanical tension in cell junctions. The model produces active T1 events, which act to elongate the tissue perpendicular to the main direction of tissue stress. Using an idealised tissue patch comprising several active cells embedded in a matrix of passive hexagonal cells, we identified an optimal range of mechanical stresses to trigger an active T1 event. We show that directed stresses also generate tension chains in a realistic patch made entirely of active cells of random shapes and leads to convergence-extension over a range of parameters. Our findings show that active intercalations can generate stress that activates T1 events in neighbouring cells, resulting in tension-dependent tissue reorganisation, in qualitative agreement with experiments on gastrulation in chick embryos.

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