Plumbagin induces apoptosis in lymphoma cells via oxidative stress mediated glutathionylation and inhibition of mitogen-activated protein kinase phosphatases (MKP1/2).

Maintaining cellular redox homeostasis is imperative for the survival and normal functioning of cells. This study describes the role and regulation of MAPKinases in oxidative stress mediated apoptosis. Plumbagin, a vitamin K3 analog and a pro-oxidant, was employed and it induced apoptosis in both mouse and human T-cell lymphoma cell lines via increased oxidative stress, caspase activity and loss of mitochondrial membrane potential. The pro-oxidant and cytotoxic effects of plumbagin were sensitive to antioxidants indicating a decisive role of cellular redox balance. Plumbagin induced persistent activation of JNK and pharmacological inhibition as well as shRNA-mediated JNK knock-down rescued cells from plumbagin-induced apoptosis. Further, plumbagin induced cytochrome c release, FasL expression and Bax levels via activation of JNK pathway. Exposure of lymphoma cells to plumbagin led to inhibition of total and specific phosphatase activity, increased total protein S-glutathionylation and induced glutathionylation of dual specific phosphatase- 1 and 4 (MKP-1 and MKP-2). The in vivo anti-tumor efficacy of plumbagin was demonstrated using a mouse model. In conclusion, oxidative stress mediated tumor cytotoxicity operates through sustained JNK activation via a novel redox-mediated regulation of MKP-1 and MKP-2.