Transcriptomics

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Shear stress activates YAP to promote motility in human prostate cancer cells


ABSTRACT: Biophysical features of the microenvironment such as stiffness of extracellular matrix (ECM), nanotopography, and biomechanical force are critical regulators of cellular potential and behavior, yet the effects of extrinsic mechanical cues on tumor cells remain poorly understood. Here we demonstrate that frictional force, or wall shear stress (WSS), caused by fluid flow supports invasive behavior in cancer cells through activation of negative effectors of the Hippo tumor suppressor pathway, YAP and TAZ. In biomimetic models of lymphatic vasculature, WSS stimulated motility. These effects were accompanied by YAP dephosphorylation at ser-127, YAP and TAZ nuclear localization, and transactivation of YAP/TAZ downstream targets, including CTGF, AMOTL2, and ANKRD1. YAP, but not TAZ, was strictly required for WSS-enhanced motility, as knockdown of YAP or blockade of YAP-TEAD interactions by a small molecule inhibitor, verteporfin, reduced cellular velocity to levels observed in static controls. YAP-mediated effects on motility were dependent upon Rho-associated kinase (ROCK) and LIM-domain kinase (LIMK), as pharmacological inhibition of their activity led to activation of the actin-severing protein cofilin and blocked YAP dephosphorylation by WSS, thereby impairing migration. These data provide a signaling mechanism whereby biomechanical forces may influence cancer cell metastasis and implicate YAP as a core component of mechanosensitive machinery that modulates cancer progression.

ORGANISM(S): Homo sapiens

PROVIDER: GSE73284 | GEO | 2017/03/08

SECONDARY ACCESSION(S): PRJNA296532

REPOSITORIES: GEO

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