부산대학교 도서관

Summary: Tumor-initiating cells (TICs) contribute to drug resistance and tumor recurrence in cancers, thus experimental approaches to dissect the complexity of TICs are required to design successful TIC therapeutic strategies. Here, we show that miRNA-3′ UTR sensor vectors can be used as a pathway-based method to identify, enrich, and analyze TICs from primary solid tumor patient samples. We have found that an miR-181ahigh subpopulation of cells sorted from primary ovarian tumor cells exhibited TIC properties in vivo, were enriched in response to continuous cisplatin treatment, and showed activation of numerous major stem cell regulatory pathways. This miRNA-sensor-based platform enabled high-throughput drug screening leading to identification of BET inhibitors as transcriptional inhibitors of miR-181a. Taken together, we provide a valuable miRNA-sensor-based approach to broaden the understanding of complex TIC regulatory mechanisms in cancers and to identify miRNA-targeting drugs. : In this article, DiFeo and colleagues have utilized a miRNA 3′ UTR biosensor to study tumor-initiating cells in ovarian cancer and develop a high-throughput platform to uncover miRNA-targeting drugs. They have identified miR-181a as a potent driver of tumor initiation, which can be regulated by BET inhibitors, thus introducing a previously unknown biomarker for these drugs. Keywords: ovarian cancer, tumor-initiating cells, miRNA sensor, miR-181a, tumor heterogeneity, BET inhibitors