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      Sequential activation of poly(ADP-ribose) polymerase 1, calpains, and Bax is essential in apoptosis-inducing factor-mediated programmed necrosis.

      Molecular and Cellular Biology
      Alkylating Agents, pharmacology, Alkylation, drug effects, Animals, Apoptosis Inducing Factor, metabolism, Calpain, Caspases, Cell Death, Cell Nucleus, Cytosol, DNA, Enzyme Activation, Fibroblasts, cytology, enzymology, Methylnitronitrosoguanidine, Mice, Mitochondria, Models, Biological, Necrosis, pathology, Poly(ADP-ribose) Polymerases, Protein Transport, Tumor Suppressor Protein p53, bcl-2 Homologous Antagonist-Killer Protein, bcl-2-Associated X Protein

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          Abstract

          Alkylating DNA damage induces a necrotic type of programmed cell death through the poly(ADP-ribose) polymerases (PARP) and apoptosis-inducing factor (AIF). Following PARP activation, AIF is released from mitochondria and translocates to the nucleus, where it causes chromatin condensation and DNA fragmentation. By employing a large panel of gene knockout cells, we identified and describe here two essential molecular links between PARP and AIF: calpains and Bax. Alkylating DNA damage initiated a p53-independent form of death involving PARP-1 but not PARP-2. Once activated, PARP-1 mediated mitochondrial AIF release and necrosis through a mechanism requiring calpains but not cathepsins or caspases. Importantly, single ablation of the proapoptotic Bcl-2 family member Bax, but not Bak, prevented both AIF release and alkylating DNA damage-induced death. Thus, Bax is indispensable for this type of necrosis. Our data also revealed that Bcl-2 regulates N-methyl-N'-nitro-N'-nitrosoguanidine-induced necrosis. Finally, we established the molecular ordering of PARP-1, calpains, Bax, and AIF activation, and we showed that AIF downregulation confers resistance to alkylating DNA damage-induced necrosis. Our data shed new light on the mechanisms regulating AIF-dependent necrosis and support the notion that, like apoptosis, necrosis could be a highly regulated cell death program.

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