In vitro, several data indicate that cell function can be regulated by the mechanical properties of cells and of the microenvironment. Cells measure these features by developing forces via their actomyosin cytoskeleton, and respond accordingly by transducing forces into biochemical signals that instruct cell behavior. Among these, the transcriptional coactivators YAP/TAZ recently emerged as key factors mediating multiple responses to actomyosin contractility. However, whether mechanical cues regulate adult liver tissue homeostasis, and whether this occurs through YAP/TAZ, remains largely unaddressed.
F-actin dynamics regulates mammalian organ growth and cell fate maintenance / Pocaterra, Arianna; Santinon, Giulia; Romani, Patrizia; Brian, Irene; Dimitracopoulos, Andrea; Ghisleni, Andrea; Carnicer-Lombarte, Alejandro; Forcato, Mattia; Braghetta, Paola; Montagner, Marco; Galuppini, Francesca; Aragona, Mariaceleste; Pennelli, Gianmaria; Bicciato, Silvio; Gauthier, Nils; Franze, Kristian; Dupont, Sirio. - In: JOURNAL OF HEPATOLOGY. - ISSN 0168-8278. - S0168-8278:19(2019), pp. 30144-30148. [10.1016/j.jhep.2019.02.022]
F-actin dynamics regulates mammalian organ growth and cell fate maintenance
Forcato, Mattia;Bicciato, Silvio;
2019
Abstract
In vitro, several data indicate that cell function can be regulated by the mechanical properties of cells and of the microenvironment. Cells measure these features by developing forces via their actomyosin cytoskeleton, and respond accordingly by transducing forces into biochemical signals that instruct cell behavior. Among these, the transcriptional coactivators YAP/TAZ recently emerged as key factors mediating multiple responses to actomyosin contractility. However, whether mechanical cues regulate adult liver tissue homeostasis, and whether this occurs through YAP/TAZ, remains largely unaddressed.
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