Inhibition of Phospho-S6 Kinase, a Protein Involved in the Compensatory Adaptive Response, Increases the Efficacy of Paclitaxel in Reducing the Viability of Matrix-Attached Ovarian Cancer Cells.

Jeong In Choi,Hee-Jin Lee,Hae Nam Lee,Dae Woo Lee,Sang Hi Park,David Wai Chan

doi:10.1371/journal.pone.0155052

Jeong In Choi, Hee-Jin Lee + Show 4 more

Open Access

https://doi.org/10.1371/journal.pone.0155052

Copy DOI

Abstract

ObjectiveTo identify the proteins involved the compensatory adaptive response to paclitaxel in ovarian cancer cells and to determine whether inhibition of the compensatory adaptive response increases the efficacy of paclitaxel in decreasing the viability of cancer cells.MethodsWe used a reverse-phase protein array and western blot analysis to identify the proteins involved in the compensatory mechanism induced by paclitaxel in HeyA8 and SKOV3 ovarian cancer cells. We used a cell viability assay to examine whether inhibition of the proteins involved in the compensatory adaptive response influenced the effects of paclitaxel on cancer cell viability. All experiments were performed in three-dimensional cell cultures.ResultsPaclitaxel induced the upregulation of pS6 (S240/S244) and pS6 (S235/S236) in HeyA8 and SKOV3 cells, and pPRAS40 (T246) in HeyA8 cells. BX795 and CCT128930 were chosen as inhibitors of pS6 (S240/S244), pS6 (S235/S236), and pPRAS40 (T246). BX795 and CCT128930 decreased pS6 (S240/S244) and pS6 (S235/S236) expression in HeyA8 and SKOV3 cells. However, pPRAS40 (T246) expression was inhibited only by BX795 and not by CCT128930 in HeyA8 cells. Compared with paclitaxel alone, addition of BX795 or CCT128930 to paclitaxel was more effective in decreasing the viability of HeyA8 and SKOV3 cells.ConclusionAddition of BX795 or CCT128930 to inhibit pS6 (S240/S244) or pS6 (S235/S236) restricted the compensatory adaptive response to paclitaxel in HeyA8 and SKOV3 cells. These inhibitors increased the efficacy of paclitaxel in reducing cancer cell viability.

Highlights

Because of its tolerable side effects and high response rate, paclitaxel is used as a standard drug in the treatment of ovarian cancer
Paclitaxel induced the upregulation of phospho-S6 kinase (pS6) (S240/S244) and pS6 (S235/S236) in HeyA8 and SKOV3 cells, and pPRAS40 (T246) in HeyA8 cells
BX795 and CCT128930 were chosen as inhibitors of pS6 (S240/S244), pS6 (S235/S236), and pPRAS40 (T246)

Summary

Introduction

Because of its tolerable side effects and high response rate, paclitaxel is used as a standard drug in the treatment of ovarian cancer. The high recurrence and drug-resistance rates are major obstacles in the treatment of ovarian cancer. Second-line chemotherapy, which is less effective than the initial drugs, is used for patients who experience recurrence within 6 months after treatment. The compensatory adaptive response to chemotherapy in ovarian cancer is one cause of drug resistance. The compensatory adaptive response allows them to survive at drug therapy by reprogramming the cell signaling pathways and activating the survival mechanisms that lead to resistance. Combinations that include a second drug to inhibit the compensatory adaptive response may reduce the survival of cancer cells and increase the efficiency of cancer treatment

Methods

Results

Conclusion