Objective: Our aim was to investigate the biological function and mechanism of action of miR-513a-3p in ovarian cancer cells.
Materials and methods: In this study, qRT-PCR, Western blots, and immunohistochemistry experiments were among the methods used to examine the expression of miR-513a-3p, HOXB7, and related transcripts within ovarian cancer cells. An MTT assay was conducted to evaluate the viability of ovarian cancer cells in the presence of cisplatin. Transwell and wound-healing assays were performed to examine cell migration and invasion. Dual-Luciferase reporter assays were used to evaluate interactions among the aforementioned target genes. In vivo tumorigenesis experiments were conducted to verify biological effects of miR-513a-3p and HOXB7.
Results: HOXB7 expression was relatively higher and MiR-513a-3p expression was relatively lower in ovarian cancer cells. Down-regulated expression of miR-513a-3p promoted cell movement via its ability to regulate epithelial-mesenchymal transition (EMT). Furthermore, decreased expression of miR-513a-3p resulted in increased sensitivity to cisplatin and resulted in poor prognosis in ovarian cancer patients who had relapsed after treatment with cisplatin. However, HOXB7 reversed the impact of miR-513a-3p in ovarian cancer cells. These results suggested that miR-513a-3p altered EMT mediated by HOXB7 and cisplatin-resistance.
Conclusions: MiR-513a-3p plays a critical role in promoting sensitivity to cisplatin and tumorigenesis via targeting HOXB7 in ovarian cancer.