All living systems evolved molecular mechanisms to respond to their physical surroundings, such as by tuning cell cycle progression as well as transport of different cargo across intracellular compartments. However,… Click to show full abstract
All living systems evolved molecular mechanisms to respond to their physical surroundings, such as by tuning cell cycle progression as well as transport of different cargo across intracellular compartments. However, it is difficult to determine if such responses are genetically programmed or purely resultant of physical forces. This study deploys a new confinement device that modulates chamber stiffness, curvature, and compression over epithelial tissue. Compression specifically regulated cell cycle progression, while increasing stiffness changed cell aspect ratio. The authors propose a new independent function of previous cooperative pathways that regulate long-range tissue scales (β-catenin) and local spatial changes (YAP/TAZ). This work represents a methodological advance in creating specific physical cues while measuring cellular processes, enabling many future studies combining other chemical and genetic perturbations.
               
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