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The role of Piezo1 mechanotransduction in high-grade serous ovarian cancer: Insights from an in vitro model of collective detachment

Hannah M. Micek, Ning Yang, Mayuri Dutta, Lauren Rosenstock, Yicheng Ma, Caitlin Hielsberg, Molly McCord, Jacob Notbohm, Stephanie M. McGregor, Pamela K. Kreeger

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

Slowing peritoneal spread in high-grade serous ovarian cancer (HGSOC) would improve patient prognosis and quality of life. HGSOC spreads when single cells and spheroids detach, float through the peritoneal fluid and take over new sites, with spheroids thought to be more aggressive than single cells. Using our in vitro model of spheroid collective detachment, we determine that increased substrate stiffness led to the detachment of more spheroids. We identified a mechanism where Piezo1 activity increased MMP-1/MMP-10, decreased collagen I and fibronectin, and increased spheroid detachment. Piezo1 expression was confirmed in omental masses from patients with stage III/IV HGSOC. Using OV90 and CRISPR-modified PIEZO1 −/− OV90 in a mouse xenograft model, we determined that while both genotypes efficiently took over the omentum, loss of Piezo1 significantly decreased ascitic volume, tumor spheroids in the ascites, and the number of macroscopic tumors in the mesentery. These results support that slowing collective detachment may benefit patients and identify Piezo1 as a potential therapeutic target.

Topics & Concepts

MechanotransductionSerous ovarian cancerPIEZO1In vitroOvarian cancerSerous fluidMedicineCell biologyBiologyCancerInternal medicineGeneticsIon channelReceptorMechanosensitive channelsErythrocyte Function and PathophysiologyCellular Mechanics and InteractionsMicrofluidic and Bio-sensing Technologies
The role of Piezo1 mechanotransduction in high-grade serous ovarian cancer: Insights from an in vitro model of collective detachment | Litcius