Targeting mitosis by taxanes is one of the most common chemotherapeutic approaches in various malignant solid tumors, but cancer cells may survive antimitotic treatment with attainable in vivo concentrations due to mitotic slippage with a residual activity of the ubiquitin ligase anaphase-promoting complex (APC/C) and a continuous slow ubiquitin-proteasome-dependent cyclin B-degradation leading to mitotic exit. Therefore, blocking cyclin B-proteolysis via additional proteasome (PI) or APC/C-inhibition may have the potential to enhance tumor cell eradication by inducing a more robust mitotic block and mitotic cell death. Here, we analyzed this approach in different cell lines and more physiological patient-derived xenografts (PDX) from lung and breast cancer. The sequential combination of paclitaxel with the PI bortezomib enhanced cell death, but in contrast to the hypothesis during interphase and not in mitosis in both lung and breast cancer. APC/C-inhibition alone or in sequential combination with paclitaxel led to strong mitotic cell death in lung cancer. But in breast cancer, with high expression of the anti-apoptotic regulator Mcl-1, cell death in interphase was induced. Here, combined APC/C- and Mcl-1-inhibition with or without paclitaxel was highly lethal but still resulted in interphase cell death. Taken together, the combination of antimitotic agents with a clinically approved PI or inhibitors of the APC/C and Mcl-1 is a promising approach to improve treatment response in different solid tumors, even though they act entity-dependent at different cell cycle phases.
Keywords: APC/C; Antimitotic therapy; Mcl-1; cyclin B; proteasome inhibition.
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