Objective: This study was to investigate the role of the PI3K/AKT/mTOR signaling in epithelial ovarian cancer development and its mechanism in cisplatin-based chemotherapy.
Study design: Western blot and RT-PCR were used to determine the expression of PI3K-p85 subunit at protein and mRNA levels in normal and cancerous ovarian epithelium. SKOV3/DDP cells and SKOV3/MCA (multicellular aggregates) were constructed as chemo-resistant models. The role and mechanism of AKT specific inhibitor or shRNA in different models before and after cisplatin treatment were determined by multiple cellular and molecular approaches such as cell growth assay, flow cytometry, and western blot.
Results: PI3K-p85 subunit was detected in 33 out of 39 epithelial ovarian cancer specimens at protein level, but not detected in normal ovarian epithelium. A significant over-expression of PI3K-p85 subunit at mRNA level was observed in tumor tissues, and an increasing trend in advanced stage was also observed. Elevated activation of the AKT/mTOR/Survivin signaling was detected in SKOV3/DDP cells and SKOV3/MCA. Down-regulation of AKT by triciribine or shRNA transfection could attenuate cisplatin resistance through mTOR/Survivin signaling.
Conclusions: The PI3K/AKT/mTOR signaling was involved in epithelial ovarian cancer development and cisplatin-based chemotherapy, and down-regulation of AKT could be an effective adjuvant antitumor therapy.