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Extracellular matrix in multicellular aggregates acts as a pressure sensor controlling cell proliferation and motility

Monika E. Dolega, Sylvain Monnier, Benjamin Brunel, Jean‐François Joanny, Pierre Recho, Giovanni Cappello

2021eLife76 citationsDOIOpen Access PDF

Abstract

Imposed deformations play an important role in morphogenesis and tissue homeostasis, both in normal and pathological conditions. To perceive mechanical perturbations of different types and magnitudes, tissues need appropriate detectors, with a compliance that matches the perturbation amplitude. By comparing results of selective osmotic compressions of CT26 mouse cells within multicellular aggregates and global aggregate compressions, we show that global compressions have a strong impact on the aggregates growth and internal cell motility, while selective compressions of same magnitude have almost no effect. Both compressions alter the volume of individual cells in the same way over a shor-timescale, but, by draining the water out of the extracellular matrix, the global one imposes a residual compressive mechanical stress on the cells over a long-timescale, while the selective one does not. We conclude that the extracellular matrix is as a sensor that mechanically regulates cell proliferation and migration in a 3D environment.

Topics & Concepts

MotilityExtracellular matrixMulticellular organismCell biologyExtracellularMorphogenesisHomeostasisBiophysicsCellMatrix (chemical analysis)ChemistryBiologyBiochemistryChromatographyGeneCellular Mechanics and Interactions3D Printing in Biomedical ResearchTendon Structure and Treatment
Extracellular matrix in multicellular aggregates acts as a pressure sensor controlling cell proliferation and motility | Litcius