Differential altered expression of let-7a and miR-205 tumor-suppressor miRNAs in different subtypes of breast cancer under treatment with Taxol

Background.MicroRNAs (miRNAs) are small non-coding RNAs which have been considered as major players in the process of carcinogenesis and drug responsiveness of breast cancer. Objectives. In this study, we aimed to investigate the expression pattern of let-7a and miR-205 tumor-suppressor miRNAs in breast cancer cell lines under treatment with paditaxel. Material and methods. The half maximal inhibitory concentration (1C(50)) of paclitaxel was determined for 4 breast cancer cell lines, including MCF-7, MDA-MB-231, SKBR-3, and BT-474 by an MTT assay. The expression level of let-7a and miR-205, and then targets, K-RAS and HER3, was determined before and after treatment with paditaxel, using guantitative reverse transcriptase real-time polymerase chain reaction (gRT-PCR). Results. After treatment, the expression level of both let-7a and miR-205 was significantly increased in HER2-overexpressing cell line BT-474 (26.4- and 7.2-fold, respectively) In contrast, the HER2-negative cell lines MCF-7 and MDA-MB-231 showed a significantly decreased expression of both let-7a (30.3- and 13.5-fold, respectively) and miR-205 (20- and 18.1-fold, respectively) Controversially, SKBR-3 revealed a significantly decreased expression of both let-7a (1.3-fold) and miR-205 (1.3-fold). The expression level of K-Ras as a target of let-7a decreased in all cell lines significantly, but the pattern of alteration in the expression level of HER3 as a target of miR-205 in all cell lines was the reverse of the pattern of alteration in the expression level of miR-205. Conclusions. Our results confirmed a better response of HER2-overexpressing breast cancer to pacitaxel at the miRNA level. One putative reason could be the upregulation of tumor-suppressor miRNAs after treatment with pacitaxel. On the other hand, HER2-negative breast cancel cell lines showed a significantly decreased expression of tumor-suppressor miRNAs, a putative mechanism of resisting the therapy.