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Ovarian Cancer Exosomes Trigger Differential Biophysical Response in Tumor-Derived Fibroblasts

Amy Huei‐Yi Lee, Deepraj Ghosh, Nhat D. Quach, Devin Schroeder, Michelle Dawson

2020Scientific Reports32 citationsDOIOpen Access PDF

Abstract

Exosomes are cell-secreted microvesicles that play important roles in epithelial ovarian cancer (EOC) progression, as they are constantly secreted into ascites fluids. While cells spontaneously release exosomes, alterations in intracellular calcium or extracellular pH can release additional exosomes. Yet, little is known about how these exosomes compare to those that are continuously released without stimulation and how they mediate cellular activities important in cancer progression. Here, we demonstrate that chelation of extracellular calcium leads to release of chelation-induced exosomes (CI-exosomes) from OVCAR-3 EOC cells. CI-exosomes display a unique miRNA profile compared to naturally secreted exosomes (SEC-exosomes). Furthermore, treatment with CI- and SEC-exosomes leads to differential biophysical and functional changes including, adhesion and migration in EOC-derived fibroblasts that suggest the development of a malignant tumor microenvironment. This result highlights how tumor environmental factors contribute to heterogeneity in exosome populations and how different exosome populations mediate diversity in stromal cell behavior.

Topics & Concepts

MicrovesiclesExosomeCell biologyStromal cellExtracellularTumor microenvironmentBiologyCancer researchmicroRNABiochemistryTumor cellsGeneExtracellular vesicles in diseaseMicroRNA in disease regulationCircular RNAs in diseases