Sequential Activation of Poly(ADP-Ribose) Polymerase 1, Calpains, and Bax Is Essential in Apoptosis-Inducing Factor-Mediated Programmed Necrosis

Moubarak, Rana S.; Yuste, Vı́ctor J.; Artus, Cédric; Bouharrour, Aïda; Greer, Peter A.; Murcia, Josiane Ménissier‐de; Susin, Santos A.

doi:10.1128/mcb.02141-06

Cited by 294 publications

(355 citation statements)

References 89 publications

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“…In agreement with recent reports [19,20,32], PAR induces AIF release, which then translocates from mitochondria to the nucleus, leading to nuclear condensation and programmed cell death. Moreover, whether highdose-MNNG-mediated necrotic cell death is induced [20,32] or whether apoptotic cell death by low doses of the alkylating agent was analyzed, this did not change the death link between PARP-1 and mitochondrial AIF release. Thus, the PARP-1-generated death signal operates in both death pathways, although the pathways differ in substantial intermediary steps, such as the involvement of caspases.…”

supporting

confidence: 78%

“…In contrast to recently published data showing that MNNG-mediated necrosis proceeds in a caspaseindependent manner [32], we observed that PAR polymer-induced cell death in HeLa cells after low doses of MNNG treatment could be prevented by caspase inhibition. In addition, we observed caspase cleavage of PARP-1 as well as caspases-7 and -9 activation, in combination with the results of the ADP/ATP-ratio assay, further corroborating an apoptotic form of cell death after low doses of MNNG.…”

Section: Discussioncontrasting

confidence: 56%

“…In particular, PAR was found to mediate between DNA damage and the translocation of AIF from mitochondria to the nucleus. Another study focusing on MNNG-induced cell death and AIF release, suggested sequential activation of PARP-1, calpains, Bax and AIF in a single cell death pathway [32]. All of these studies were performed with high doses of MNNG (500 mM) inducing a caspase-independent necrotic form of programmed cell death.…”

Section: Discussionmentioning

confidence: 99%

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The roles of poly(ADP-ribose)-metabolizing enzymes in alkylation-induced cell death

Cohausz

Blenn

Malanga

et al. 2008

Cell. Mol. Life Sci.

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Abstract. Poly(ADP-ribose) (PAR) has been identified as a DNA damage-inducible cell death signal upstream of apoptosis-inducing factor (AIF). PAR causes the translocation of AIF from mitochondria to the nucleus and triggers cell death. In living cells, PAR molecules are subject to dynamic changes pending on internal and external stress factors. Using RNA interference (RNAi), we determined the roles of poly(ADP-ribose) polymerases-1 and -2 (PARP-1, PARP-2) and poly(ADP-ribose) glycohydrolase (PARG), the key enzymes configuring PAR molecules, in cell death induced by an alkylating agent. We found that PARP-1, but not PARP-2 and PARG, contributed to alkylation-induced cell death. Likewise, AIF translocation was only affected by PARP-1. PARP-1 seems to play a major role configuring PAR as a death signal involving AIF translocation regardless of the death pathway involved.

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supporting

confidence: 78%

Section: Discussioncontrasting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

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The roles of poly(ADP-ribose)-metabolizing enzymes in alkylation-induced cell death

Cohausz

Blenn

Malanga

et al. 2008

Cell. Mol. Life Sci.

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“…Consistent with this phenotype, molecular analysis indicated that etoposide induced PAR ribosylation of proteins and the release of HMGB1 from the cells into the culture media (Figures 3b and c), two previously characterized hallmarks of programmed necrosis. 4,[18][19][20] In addition, the canonical apoptotic markers developed in response to the drug, including activation of the upstream initiator caspases2 and 9, and of the executioner caspases3 and 7 and the cleavage of their two substrates, PARP-1 and ICAD (Figure 3b and d). Also, fragmented nuclei and the release of cytochrome c from mitochondria to the cytosol were frequently detected (Supplementary Figure S5).…”

Section: Resultsmentioning

confidence: 99%

“…15 Next, the different components of this pathway (i.e., Atg5, DEDD, RHPN2) were knocked-down to assess their functional link to caspase3 activation. To this end, HeLa cells, which are rich in Cytokeratin, 18 were exposed to staurosporine, and caspase3 activation was quantified by the CaspaseGlo luminescent assay. We found that in this cellular setting the knock down of Atg5 reduced caspase3 activation, thus expanding the proapoptotic effects of Atg5 to other cell lines, and to another cell death-inducing agent (Figure 5d).…”

Section: Resultsmentioning

confidence: 99%

A systems level strategy for analyzing the cell death network: implication in exploring the apoptosis/autophagy connection

et al. 2010

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The mammalian cell death network comprises three distinct functional modules: apoptosis, autophagy and programmed necrosis. Currently, the field lacks systems level approaches to assess the extent to which the intermodular connectivity affects cell death performance. Here, we developed a platform that is based on single and double sets of RNAi-mediated perturbations targeting combinations of apoptotic and autophagic genes. The outcome of perturbations is measured both at the level of the overall cell death responses, using an unbiased quantitative reporter, and by assessing the molecular responses within the different functional modules. Epistatic analyses determine whether seemingly unrelated pairs of proteins are genetically linked. The initial running of this platform in etoposide-treated cells, using a few single and double perturbations, identified several levels of connectivity between apoptosis and autophagy. The knock down of caspase3 turned on a switch toward autophagic cell death, which requires Atg5 or Beclin-1. In addition, a reciprocal connection between these two autophagic genes and apoptosis was identified. By applying computational tools that are based on mining the protein-protein interaction database, a novel biochemical pathway connecting between Atg5 and caspase3 is suggested. Scaling up this platform into hundreds of perturbations potentially has a wide, general scope of applicability, and will provide the basis for future modeling of the cell death network. The process of programmed cell death (PCD) is driven by a network of proteins connected to each other in an intricate manner. Over the past two decades, many of the network's proteins (nodes) and the interactions among them (edges; mostly post-translation modifications) have been identified. The PCD network is turned on by well-defined input signals, such as activation of death receptors or exposure to DNA damaging agents. The efficiency of its performance determines the individual cell's probability to die, which, when assessed over a large population of cells, can be translated into the percent of cell death. Dying cells can display several distinct cell death phenotypes, each driven by a different subset of proteins and molecular pathways. Examples are the caspase-dependent apoptotic cell death, autophagic cell death and programmed necrosis. 1 Cells exposed to the same input signal can switch from one cell death modality to another in response to specific perturbations, 2-4 and in some cases, a mixed type of cell death can also be observed. [5][6][7] This led us to propose here a working model, according to which the proteins that mediate the three different cell death phenotypes should be integrated within a common network, and the corresponding subsets of proteins should be considered as functional modules within this global network. To study the network as a whole, new strategies capable of analyzing the connectivity within and between the functional modules are required.Here, we developed a platform for dissecting the network's a...

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Parthanatos: Poly ADP Ribose Polymerase ( PARP )‐Mediated Cell Death

Fatokun

2018

Apoptosis and Beyond

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Sequential Activation of Poly(ADP-Ribose) Polymerase 1, Calpains, and Bax Is Essential in Apoptosis-Inducing Factor-Mediated Programmed Necrosis

Cited by 294 publications

References 89 publications

The roles of poly(ADP-ribose)-metabolizing enzymes in alkylation-induced cell death

The roles of poly(ADP-ribose)-metabolizing enzymes in alkylation-induced cell death

A systems level strategy for analyzing the cell death network: implication in exploring the apoptosis/autophagy connection

Parthanatos: Poly ADP Ribose Polymerase ( PARP )‐Mediated Cell Death

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