F-actin dynamics regulates mammalian organ growth and cell fate maintenance

细胞生物学 机械转化 焦点粘着 肌动蛋白 河马信号通路 收缩性 肝细胞 生物 肌动蛋白细胞骨架 肝细胞生长因子 细胞骨架 化学 细胞 信号转导 体外 内分泌学 生物化学 受体
作者
Arianna Pocaterra,Giulia Santinon,Patrizia Romani,Irene Brian,Andrea Dimitracopoulos,Andrea Ghisleni,Alejandro Carnicer‐Lombarte,Mattia Forcato,Paola Braghetta,Marco Montagner,Francesca Galuppini,Mariaceleste Aragona,Gianmaria Pennelli,Silvio Bicciato,Nils C. Gauthier,Kristian Franze,Sirio Dupont
出处
期刊:Journal of Hepatology [Elsevier BV]
卷期号:71 (1): 130-142 被引量:67
标识
DOI:10.1016/j.jhep.2019.02.022
摘要

Background & Aims

In vitro, cell function can be potently regulated by the mechanical properties of cells and of their microenvironment. Cells measure these features by developing forces via their actomyosin cytoskeleton, and respond accordingly by regulating intracellular pathways, including the transcriptional coactivators YAP/TAZ. Whether mechanical cues are relevant for in vivo regulation of adult organ homeostasis, and whether this occurs through YAP/TAZ, remains largely unaddressed.

Methods

We developed Capzb conditional knockout mice and obtained primary fibroblasts to characterize the role of CAPZ in vitro. In vivo functional analyses were carried out by inducing Capzb inactivation in adult hepatocytes, manipulating YAP/Hippo activity by hydrodynamic tail vein injections, and treating mice with the ROCK inhibitor, fasudil.

Results

We found that the F-actin capping protein CAPZ restrains actomyosin contractility: Capzb inactivation alters stress fiber and focal adhesion dynamics leading to enhanced myosin activity, increased traction forces, and increased liver stiffness. In vitro, this rescues YAP from inhibition by a small cellular geometry; in vivo, it induces YAP activation in parallel to the Hippo pathway, causing extensive hepatocyte proliferation and leading to striking organ overgrowth. Moreover, Capzb is required for the maintenance of the differentiated hepatocyte state, for metabolic zonation, and for gluconeogenesis. In keeping with changes in tissue mechanics, inhibition of the contractility regulator ROCK, or deletion of the Yap1 mechanotransducer, reverse the phenotypes emerging in Capzb-null livers.

Conclusions

These results indicate a previously unsuspected role for CAPZ in tuning the mechanical properties of cells and tissues, which is required in hepatocytes for the maintenance of the differentiated state and to regulate organ size. More generally, it indicates for the first time that mechanotransduction has a physiological role in maintaining liver homeostasis in mammals.

Lay summary

The mechanical properties of cells and tissues (i.e. whether they are soft or stiff) are thought to be important regulators of cell behavior. Herein, we found that inactivation of the protein CAPZ alters the mechanical properties of cells and liver tissues, leading to YAP hyperactivation. In turn, this profoundly alters liver physiology, causing organ overgrowth, defects in liver cell differentiation and metabolism. These results reveal a previously uncharacterized role for mechanical signals in the maintenance of adult liver homeostasis.
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