Conclusion
These novel findings for direct effects of celecoxib on mitochondria to induce metastatic cancer cell death via a ROS-dependent pro-oxidative mechanism provide supportive evidence for its combinatorial use as a chemosensitizing agent complementing chemotherapies to improve response rates in patients with advanced metastatic cancers.
Results
Celecoxib was unique among the NSAIDs in that it showed particular potency as a cytotoxic drug against the metastatic cancer cells with IC50 values in the low micromolar range. Celecoxib rapidly enhanced mitochondrial superoxide production in situ from cancer cells within minutes, leading to a decrease in cellular respiration and dissipation of the mitochondrial transmembrane potential (Δψm), followed by extensive ROS-dependent apoptosis of the metastatic cancer cells. Celecoxib also showed rapid and direct effects on isolated mitochondria, inducing extensive ROS production in a dose-dependent manner, whilst it inhibited respiration via Complex I or Complex II when tested in whole cells. Mitochondrial ROS production was necessary for the celecoxib induced cell death. Innovation and