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Fascin1 empowers YAP mechanotransduction and promotes cholangiocarcinoma development

Arianna Pocaterra, Gloria Scattolin, Patrizia Romani, Cindy Ament, Silvia Ribback, Xin Chen, Matthias Evert, Diego F. Calvisi, Sirio Dupont

2021Communications Biology15 citationsDOIOpen Access PDF

Abstract

Mechanical forces control cell behavior, including cancer progression. Cells sense forces through actomyosin to activate YAP. However, the regulators of F-actin dynamics playing relevant roles during mechanostransduction in vitro and in vivo remain poorly characterized. Here we identify the Fascin1 F-actin bundling protein as a factor that sustains YAP activation in response to ECM mechanical cues. This is conserved in the mouse liver, where Fascin1 regulates YAP-dependent phenotypes, and in human cholangiocarcinoma cell lines. Moreover, this is relevant for liver tumorigenesis, because Fascin1 is required in the AKT/NICD cholangiocarcinogenesis model and it is sufficient, together with AKT, to induce cholangiocellular lesions in mice, recapitulating genetic YAP requirements. In support of these findings, Fascin1 expression in human intrahepatic cholangiocarcinomas strongly correlates with poor patient prognosis. We propose that Fascin1 represents a pro-oncogenic mechanism that can be exploited during intrahepatic cholangiocarcinoma development to overcome a mechanical tumor-suppressive environment.

Topics & Concepts

MechanotransductionCarcinogenesisIntrahepatic CholangiocarcinomaCancer researchCell biologyPhenotypeBiologyProtein kinase BActinIn vivoMechanism (biology)Signal transductionCancerGenePathologyMedicineGeneticsPhilosophyEpistemologyHippo pathway signaling and YAP/TAZCellular Mechanics and InteractionsCaveolin-1 and cellular processes
Fascin1 empowers YAP mechanotransduction and promotes cholangiocarcinoma development | Litcius