Exosomes Impact Survival to Radiation Exposure in Cell Line Models of Nervous System Cancer

Overview

Journal Oncotarget

Specialty Oncology

Date 2018 Dec 15

PMID 30546829

Citations 43

Authors

Oliver D Mrowczynski

Achuthamangalam B Madhankumar

Jeffrey M Sundstrom

Yuanjun Zhao

Yuka Imamura Kawasawa

Becky Slagle-Webb

Christine Mau

Russell A Payne

Elias B Rizk

Brad E Zacharia

James R Connor

Affiliations

Soon will be listed here.

Abstract

Radiation is utilized in the therapy of more than 50% of cancer patients. Unfortunately, many malignancies become resistant to radiation over time. We investigated the hypothesis that one method of a cancer cell's ability to survive radiation occurs through cellular communication via exosomes. Exosomes are cell-derived vesicles containing DNA, RNA, and protein. Three properties were analyzed: 1) exosome function, 2) exosome profile and 3) exosome uptake/blockade. To analyze exosome function, we show radiation-derived exosomes increased proliferation and enabled recipient cancer cells to survive radiation . Furthermore, radiation-derived exosomes increased tumor burden and decreased survival in an model. To address the mechanism underlying the alterations by exosomes in recipient cells, we obtained a profile of radiation-derived exosomes that showed expression changes favoring a resistant/proliferative profile. Radiation-derived exosomes contain elevated oncogenic miR-889, oncogenic mRNAs, and proteins of the proteasome pathway, Notch, Jak-STAT, and cell cycle pathways. Radiation-derived exosomes contain decreased levels of tumor-suppressive miR-516, miR-365, and multiple tumor-suppressive mRNAs. Ingenuity pathway analysis revealed the most represented networks included cell cycle, growth/survival. Upregulation of DNM2 correlated with increased exosome uptake. To analyze the property of exosome blockade, heparin and simvastatin were used to inhibit uptake of exosomes in recipient cells resulting in inhibited induction of proliferation and cellular survival. Because these agents have shown some success as cancer therapies, our data suggest their mechanism of action could be limiting exosome communication between cells. The results of our study identify a novel exosome-based mechanism that may underlie a cancer cell's ability to survive radiation.

Citing Articles

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