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Reactive oxygen species and mitochondrial sensitivity to oxidative stress determine induction of cancer cell death by p21
Authors:Masgras Ionica  Carrera Samantha  de Verdier Petra J  Brennan Paul  Majid Aneela  Makhtar Wan  Tulchinsky Eugene  Jones George D D  Roninson Igor B  Macip Salvador
Affiliation:Department of Biochemistry, University of Leicester, Leicester LE1 9HN, United Kingdom.
Abstract:p21(Waf1/Cip1/Sdi1) is a cyclin-dependent kinase inhibitor that mediates cell cycle arrest. Prolonged p21 up-regulation induces a senescent phenotype in normal and cancer cells, accompanied by an increase in intracellular reactive oxygen species (ROS). However, it has been shown recently that p21 expression can also lead to cell death in certain models. The mechanisms involved in this process are not fully understood. Here, we describe an induction of apoptosis by p21 in sarcoma cell lines that is p53-independent and can be ameliorated with antioxidants. Similar levels of p21 and ROS caused senescence in the absence of significant death in other cancer cell lines, suggesting a cell-specific response. We also found that cells undergoing p21-dependent cell death had higher sensitivity to oxidants and a specific pattern of mitochondrial polarization changes. Consistent with this, apoptosis could be blocked with targeted expression of catalase in the mitochondria of these cells. We propose that the balance between cancer cell death and arrest after p21 up-regulation depends on the specific effects of p21-induced ROS on the mitochondria. This suggests that selective up-regulation of p21 in cancer cells could be a successful therapeutic intervention for sarcomas and tumors with lower resistance to mitochondrial oxidative damage, regardless of p53 status.
Keywords:Apoptosis   Cancer Therapy   Oxidative Stress   p53   Reactive Oxygen Species (ROS)   Senescence   p21
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