Acquired multidrug resistance (MDR) is the main mechanism of chemotherapeutic drugs resistance. Nevertheless, the mechanisms of MDR are complex and still not very clear. Recently, including our previous study, several studies have revealed that macroautophagy (here referred to as autophagy) induced by anti-cancer drugs in breast cancer cells may facilitate the development of resistance to epirubicin (EPI), paclitaxel (PTX), tamoxifen or herceptin. Whereas there are a few studies on the relationship between autophagy and MDR, especially the studies designed directly employing induced resistant breast cancer cells. Based on previous study, we explored the relationship between autophagy and MDR. The results showed that induced EPI-resistant MCF-7er and SK-BR-3er cells were simultaneously resistant to PTX and vinorelbine (NVB), which demonstrated that the cells obtained MDR phenotype. Furthermore, PTX and NVB could also induce autophagy in MCF7er and SK-BR-3er cells, and the induced autophagy protected the cells from apoptosis, which facilitated the development of resistance to PTX and NVB. Thus, autophagy promoted the development of MDR in breast cancer cells through inhibition of apoptosis. In addition, we found that P-glycoprotein (Pgp) was overexpressed in MCF-7er and SK-Br-3er cells. And we preliminarily investigated the relationship between autophagy and P-glycoprotein (Pgp). The results showed that the expression of the protein did not obviously change despite the inhibition of autophagy. Therefore, the role of Pgp in the development of MDR might be independent of autophahy. Also this finding implies that autophagy might be a target to overcome MDR in breast cancer cells, and clinical use autophagy inhibitors might be one of the important strategies for overcoming MDR in breast cancer therapy.
Key words: autophagy, apoptosis, multidrug resistance, breast cancer, chemotherapyEpirubicin (EPI), paclitaxel (PTX) and vinorelbine (NVB) are active drugs against breast cancer, and are often used clinically for first-or second-line treatment of breast cancer [1]. Unfortunately, the acquired resistance of breast cancer cells to these drugs seriously limited their use. The mechanisms of resistance are complex and still not entirely clear. It is considered that acquired multidrug resistance (MDR) is the main mechanism of chemotherapeutic drugs resistance [2,3]. However, the molecular mechanisms of MDR are numerous. Among these mechanisms, the one that is the most important and the most studied is ATP-binding cassette (ABC) transporters, which locate on plasma membrane and extrude a broad spectrum of drugs from the cells [4,5,6]. P-glycoprotein (Pgp, also known as ABCB1 or MDR1), the best studied one of the ABC transporter family, may lead to resistance of anticancer drugs through dramatically decreasing the cellular accumulation of a variety of drugs including EPI, PTX and NVB [4,5,6]. It has been proved that the overexpression of Pgp is a main mechanism of MDR [4].Autophagy is a process of cellular catabolic degradation...
