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Morphogenetic Roles of Hydrostatic Pressure in Animal Development

Michel Bagnat, Bijoy Daga, Stefano Di Talia

2022Annual Review of Cell and Developmental Biology22 citationsDOIOpen Access PDF

Abstract

During organismal development, organs and systems are built following a genetic blueprint that produces structures capable of performing specific physiological functions. Interestingly, we have learned that the physiological activities of developing tissues also contribute to their own morphogenesis. Specifically, physiological activities such as fluid secretion and cell contractility generate hydrostatic pressure that can act as a morphogenetic force. Here, we first review the role of hydrostatic pressure in tube formation during animal development and discuss mathematical models of lumen formation. We then illustrate specific roles of the notochord as a hydrostatic scaffold in anterior-posterior axis development in chordates. Finally, we cover some examples of how fluid flows influence morphogenetic processes in other developmental contexts. Understanding how fluid forces act during development will be key for uncovering the self-organizing principles that control morphogenesis.

Topics & Concepts

MorphogenesisHydrostatic pressureBiologyCell biologyDevelopmental biologyNotochordAnatomyEmbryogenesisEmbryoGeneticsMechanicsPhysicsGeneHippo pathway signaling and YAP/TAZCellular Mechanics and InteractionsMicrotubule and mitosis dynamics
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