MicroRNA‐221 promotes breast cancer resistance to adriamycin via modulation of PTEN/Akt/mTOR signaling

As a prevalent tumor among women, breast cancer is still an incurable disease due to drug resistance. In this study, we report microRNA‐221 to have a significant effect on breast cancer resistance to adriamycin. The microRNA‐221 is elevated in tumor tissue compared with nearby nontumor samples, as well as in breast cancer cell line with adriamycin resistance (MCF‐7/ADR) compared to its parental line (MCF‐7) and the normal breast epithelial cell line (MCF‐10A). Enforced level of microRNA‐221 promotes cancer resistance to adriamycin, which in turn sustains cell survival and exacerbates malignant formation. Reciprocally, the silence of microRNA‐221 in cancer cells augments the sensitivity to chemotherapy, thereby resulting in enhanced apoptosis of MCF‐7/ADR cells. Mechanistically, we identify PTEN as a direct target of microRNA‐221, which was conversely associated with a microRNA‐221 level in breast tumors. The knock‐down of PTEN partially reversed the stimulatory role of microRNA‐221 in the modulation of the Akt/mTOR signaling. Taken together, these findings suggest microRNA‐221 suppresses PTEN transcription and activates Akt/mTOR pathway, which in turn enhances breast cancer resistance to adriamycin and promotes cancer development. Our data thus illuminate the microRNA‐221/PTEN axis may act as a promising strategy for the treatment of chemotherapy‐resistant breast tumors.