Three-dimensional Structure and Enzymatic Function of Proapoptotic Human p53-inducible Quinone Oxidoreductase PIG3

Porté, Sergio; Valencia, Eva; Yakovtseva, Evgenia A.; Borràs, Emma; Shafqat, N.; Debreczeny, Judit É.; Pike, Ashley C.W.; Oppermann, U.; Farrés, Jaume; Fita, Ignacio; Parés, Xavier

doi:10.1074/jbc.m109.001800

Cited by 54 publications

(59 citation statements)

References 59 publications

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“…Recent research reported that overexpression of PIG3 accumulates ROS in vivo and in vitro; while an inactive PIG3 mutant (Ser151Val) does not [3]. Our result, H 2 O 2 stimulating PIG3 expression, implied that ROS may also contribute to PIG3 induction by ionizing radiation via the oxidative DNA damage mechanism.…”

Section: Discussionsupporting

confidence: 54%

“…As consistent with its classification in the quinine oxidoreductase (QOR) family, PIG3 was confirmed an activity of NADPH dependent reductase with orthoquinones [3]. In addition, in vitro activation and in vivo overexpression of PIG3 was demonstrated to accumulate reactive oxygen species (ROS), while an inactive PIG3 mutant (Ser151Val) did not produce ROS in cells, indicating that enzymatic active protein is necessary for its function [3]. PIG3 was also recently demonstrated to contribute to early cellular response to DNA damage induced by UV radiation and the DNA damaging-chemical neocarzinostatin through recruiting 53BP1, Mre11, Rad50 and Nbs1 to the sites of DNA break lesions and modulating intra-S and G2/M phase checkpoint [4].…”

mentioning

confidence: 71%

“…The closest relative of PIG3 in mammals is zeta-Crystallin, an NADPH-quinone oxidoreductase and a potent generator of reactive oxygen species (ROS) [2]. As consistent with its classification in the quinine oxidoreductase (QOR) family, PIG3 was confirmed an activity of NADPH dependent reductase with orthoquinones [3]. In addition, in vitro activation and in vivo overexpression of PIG3 was demonstrated to accumulate reactive oxygen species (ROS), while an inactive PIG3 mutant (Ser151Val) did not produce ROS in cells, indicating that enzymatic active protein is necessary for its function [3].…”

mentioning

confidence: 84%

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p53-dependent upregulation of PIG3 transcription by γ-ray irradiation and its interaction with KAP1 in responding to DNA damage

Qin

Zhang

et al. 2011

Chin. Sci. Bull.

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PIG3 (p53-inducible gene 3), originally identified as one of a set of genes induced by p53 before the onset of apoptosis, was assumed to contribute to early cellular response to DNA damage. Here, we studied the relation between p53 status and the increased expression of PIG3 by ionizing radiation (IR), and the related clues regarding the involvement of PIG3 in the cellular response to IR-induced DNA damage signaling. We demonstrated that the pentanucleotide microsatellite sequence was responsible for the p53-dependent induction of PIG3 transcription after irradiation, while sequence upstream of PIG3 promoter could maintain the basal level of expression which was not inducible by irradiation. The interaction of PIG3 and the KRAB-ZFP-associated protein 1 (KAP1), a DNA damage response protein, was revealed. PIG3 nucleus foci were formed 15 min after γ-ray irradiation, and which were found to partially colocalize with the phospho-KAP-1 foci as well as γ-H2AX foci. Although the lac operator tagged EGFP based reporter system revealed that PIG3 does not remodel chromatin in large scale in the cells under normal growing condition, it indeed prompted the chromatin relaxation in the cellular response to DNA damage signaling. All these data suggest that PIG3 is involved in IR-induced DNA damage response, and which maybe partially attribute to its interaction with KAP1. The p53-inducible gene 3 (PIG3 or TP53I3) was originally identified as one of a set of genes induced by p53 before the onset of apoptosis [1]. The closest relative of PIG3 in mammals is zeta-Crystallin, an NADPH-quinone oxidoreductase and a potent generator of reactive oxygen species (ROS) [2]. As consistent with its classification in the quinine oxidoreductase (QOR) family, PIG3 was confirmed an activity of NADPH dependent reductase with orthoquinones [3]. In addition, in vitro activation and in vivo overexpression of PIG3 was demonstrated to accumulate reactive oxygen species (ROS), while an inactive PIG3 mutant (Ser151Val) did not produce ROS in cells, indicating that enzymatic active protein is necessary for its function [3]. PIG3 was also recently demonstrated to contribute to early cellular response to DNA damage induced by UV radiation and the DNA damaging-chemical neocarzinostatin through recruiting 53BP1, Mre11, Rad50 and Nbs1 to the sites of DNA break lesions and modulating intra-S and G2/M phase checkpoint [4]. A p53 dependent upregulation of PIG3 way demonstrated during p53-mediated growth arrest or under genotoxic stress [5]. Szak et al. [6] reported that increased p53 binding to PIG3, p21 and MDM2 promoters occurred in the human colorectal carcinoma cell line RKO within 2 h after p53 activation, but a lower p53 affinity was demonstrated for the consensus binding site in the PIG3 promoters compared to

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Section: Discussionsupporting

confidence: 54%

mentioning

confidence: 71%

mentioning

confidence: 84%

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p53-dependent upregulation of PIG3 transcription by γ-ray irradiation and its interaction with KAP1 in responding to DNA damage

Qin

Zhang

et al. 2011

Chin. Sci. Bull.

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“…Polyak et al [7] showed that redox active transcripts (PIGs) were markedly increased in p53-expressing cells. Recently, the enzymatic function of PIG3 was characterized as a prooxidant oxido-reductase and PIG3-induced ROS generation was detected in human colon cancer cells infected with virus carrying the PIG3 gene [20]. Sablina et al [21] also showed an increased ROS generation in lung carcinoma cells overexpressing the PIG3 gene, but they showed an even higher ROS production after infection with the PUMA gene.…”

Section: Discussionmentioning

confidence: 99%

p53-Mediated Oxidative Stress and Tubular Injury in Rats with Glycerol-Induced Acute Kidney Injury

et al. 2010

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Background/Aims: p53 is a transcriptional factor that responds to severe cell damage promoting the transcription of proapoptotic and prooxidant genes. In this study, we evaluated the role of p53 activation in glycerol-induced acute kidney injury (Gly-AKI). Methods: Rats were treated with p53 inhibitor (pifithrin-α) in the moment we injected glycerol. Renal function, renal histology (HE), TUNEL labeling, cleaved caspase-3 staining, renal p53, Bax, PUMA, Bcl-2, p21 and survivin expressions, renal lipid and DNA oxidative markers, and the expression of antioxidant enzymes (Mn-SOD, HO-1, and NAD(P)H:quinone-oxidoreductase-1) were evaluated. Results: Gly-AKI rats showed an increased renal expression of phosphorylated-p53. The p53 inhibitor attenuated renal impairment and significantly reduced tubular injury. The expression of the oxidative markers was significantly reduced in treated rats. Proapoptotic and prooxidant proteins Bax and PUMA were overexpressed in Gly-AKI rats and reduced in treated rats. On the contrary, antiapoptotic Bcl-2, p21, and survivin showed a tendency to increase in treated rats. The antioxidant enzymes’ expression remained elevated or increased in treated rats. Conclusion: On the whole, p53 inhibition was protective in the short term. The oxidative stress subsided and the transcription tipped toward prosurvival genes; consequently tubular injury was attenuated in treated rats.

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“…Activated p53 increases cellular ROS levels by enhancing the transcription of proapoptotic genes, such as PIGs and Bax (Polyak et al, 1997;Kirkland et al, 2002). PIG3 shows sequence similarity with NQO, and influences the production of intracellular ROS (Porte et al, 2009). Thus, although PIG3 expression alone is insufficient to induce apoptosis (Polyak et al, 1997), PIG3 may be one of the factors involved in p53-induced apoptosis through ROS generation.…”

Section: Pig3 Is Involved In the Cell-cycle Checkpoint Pathwaymentioning

confidence: 99%

The p53-inducible gene 3 (PIG3) contributes to early cellular response to DNA damage

et al. 2009

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The p53-inducible gene 3 (PIG3) is originally isolated as a p53 downstream target gene, but its function remains unknown. Here, we report a role of PIG3 in the activation of DNA damage checkpoints, after UV irradiation or radiomimetic drug neocarzinostatin (NCS). We show that depletion of endogenous PIG3 sensitizes cells to DNA damage agents, and impaired DNA repair. PIG3 depletion also allows for UV-and NCS-resistant DNA synthesis and permits cells to progress into mitosis, indicating that PIG3 knockdown can suppress intra-S phase and G2/M checkpoints. PIG3-depleted cells show reduced Chk1 and Chk2 phosphorylation after DNA damage, which may directly contribute to checkpoint bypass. PIG3 exhibited diffuse nuclear staining in the majority of untreated cells and forms discrete nuclear foci in response to DNA damage. PIG3 colocalizes with c-H2AX and 53BP1 to sites of DNA damage after DNA damage, and binds to a c-H2AX. Notably, PIG3 depletion decreases the efficient induction and maintenance of H2AX phosphorylation after DNA damage. Moreover, PIG3 contributes to the recruitment of 53BP1, Mre11, Rad50 and Nbs1 to the sites of DNA break lesions in response to DNA damage. Our combined results suggest that PIG3 is a critical component of the DNA damage response pathway and has a direct role in the transmission of the DNA damage signal from damaged DNA to the intra-S and G2/M checkpoint machinery in human cells.

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Three-dimensional Structure and Enzymatic Function of Proapoptotic Human p53-inducible Quinone Oxidoreductase PIG3

Cited by 54 publications

References 59 publications

p53-dependent upregulation of PIG3 transcription by γ-ray irradiation and its interaction with KAP1 in responding to DNA damage

p53-dependent upregulation of PIG3 transcription by γ-ray irradiation and its interaction with KAP1 in responding to DNA damage

p53-Mediated Oxidative Stress and Tubular Injury in Rats with Glycerol-Induced Acute Kidney Injury

The p53-inducible gene 3 (PIG3) contributes to early cellular response to DNA damage

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