Cell Cycle Dynamics Control Fluidity of the Developing Mouse Neuroepithelium

Overview

Journal Nat Phys

Specialty Biophysics

Date 2023 Jul 17

PMID 37456593

Authors

Laura Bocanegra-Moreno

Amrita Singh

Edouard Hannezo

Marcin Zagorski

Anna Kicheva

Affiliations

Soon will be listed here.

Abstract

As developing tissues grow in size and undergo morphogenetic changes, their material properties may be altered. Such changes result from tension dynamics at cell contacts or cellular jamming. Yet, in many cases, the cellular mechanisms controlling the physical state of growing tissues are unclear. We found that at early developmental stages, the epithelium in the developing mouse spinal cord maintains both high junctional tension and high fluidity. This is achieved via a mechanism in which interkinetic nuclear movements generate cell area dynamics that drive extensive cell rearrangements. Over time, the cell proliferation rate declines, effectively solidifying the tissue. Thus, unlike well-studied jamming transitions, the solidification uncovered here resembles a glass transition that depends on the dynamical stresses generated by proliferation and differentiation. Our finding that the fluidity of developing epithelia is linked to interkinetic nuclear movements and the dynamics of growth is likely to be relevant to multiple developing tissues.

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