EC:2.4.2.30 - FACTA Search

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Query: EC:2.4.2.30 (PARP)
13,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The turnover of the homopolymer of ADP-ribose, which is known to be involved in many DNA-related functions, is controlled by 2 principal enzymes. Poly(ADP-ribose) polymerase (EC 2.4.2.30) synthesizes the polymer from NAD, and poly(ADP-ribose) glycohydrolase (PARG) is the major enzyme responsible for its catabolism (Thomassin et al. (1992) Biochim. Biophys. Acta 1137, 171-181). In vivo, poly(ADP-ribose) polymers constitute a heterogeneous population of branched polymers attaining sizes of 200-400 residues. They are rapidly degraded by PARG, displaying variable kinetic parameters as a function of polymer size. Several studies have suggested that PARG acts exoglycosidically on its substrate but others observed that it could act endo/exo-glycosidically. We analysed the mode of action of PARG under conditions most suitable for expression of all the activities of PARG, using HPLC purified long free polymer and very pure PARG. We conclusively show that on large free polymers, PARG exhibits endoglycosidic activity along with exoglycosidic activity. This endoglycosidic activity could have a significant role during cellular response to DNA damage.
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PMID:Mode of action of poly(ADP-ribose) glycohydrolase. 791 31

Poly(ADP-ribosyl)ation metabolism, a post-translational modification, involves two nuclear enzymes. Poly(ADP-ribose) polymerase (PARP) and poly(ADP-ribose) glycohydrolase (PARG) are responsible for the anabolism and catabolism of poly(ADP-ribose) polymer, respectively. PARG, despite being less abundant than PARP, is a crucial determinant of polymer metabolism which is known to be implicated in DNA repair and other cellular processes. Here, we describe modifications to improve the purification of PARG from calf thymus, in terms of both quantity and quality, which would allow biochemical and immunological studies. We also developed a zymogram to identify functional polypeptides exhibiting PARG activity. Purified and crude enzyme preparations from calf thymus were electrophoresed in two-dimensional gels. Samples were resolved on sodium dodecyl sulfate-polyacrylamide gel electrophoresis containing the polymer substrate in the form of automodified PARP after a nonequilibrium pH gradient electrophoresis. After renaturation of PARG in the gel, four isoforms of activity were clearly detected in the purified enzyme preparation. Even in the crude extract of the tissue, we could observe the major isoform of PARG. This technique will permit a better understanding of poly(ADP-ribose) catabolism and better characterization of PARG isoforms.
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PMID:Purification of poly(ADP-ribose) glycohydrolase and detection of its isoforms by a zymogram following one- or two-dimensional electrophoresis. 807 79

In order to study the possible functional relationship between poly(ADP-ribosyl)ation and spermatogenesis, the three main germinal cell types have been isolated and characterized as haploid spermatids and diploid and tetraploid spermatocytes. Purified germinal cell populations and rats of different age were used for activity-, immuno-, and Northern blot experiments, to determine at which level poly(ADPR)polymerase (PARP) is regulated at various stages of spermatogenesis. Poly(ADPR)glycohydrolase (PARG) activity was also determined, as was the subcellular distribution of both PARP and PARG enzymes. The results show that the maximum of both PARP amount and PARP activity can be detected on tetraploid spermatocytes which undergo meiotic division, whereas PARG activity does not differ in germinal cells; the cytoplasmic form of this enzyme is prevalent in testis. Moreover, a difference in timing was observed in maximal level between PARP expression, determined on testis from 60-day-old rats, and PARP activity, detected on testis from 30-day-old animals. It seems that different mechanisms modulate the poly(ADPribosyl)ation system during spermatogenesis. Regulation of the poly(ADPribose) turnover, variations of PARP amount, as well as changes of PARP transcription level, seem to accompany germinal cell differentiation, possibly being implicated in DNA replication, repair, and transcription.
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PMID:Poly(ADPribosyl)ation system in rat germinal cells at different stages of differentiation. 866 Sep 54

We have developed a novel enzyme assay that allows the simultaneous determination of noncovalent interactions of poly(ADP-ribose) with nuclear proteins as well as poly(ADP-ribose) glycohydrolase (PARG) activity by high resolution polyacrylamide gel electrophoresis. ADP-ribose chains between 2 and 70 residues in size were enzymatically synthesized with pure poly(ADP-ribose) polymerase (PARP) and were purified by affinity chromatography on a boronate resin following alkaline release from protein. This preparation of polymers of ADP-ribose was used as the enzyme substrate for purified PARG. We also obtained the nuclear matrix fraction from rat liver nuclei and measured the enzyme activity of purified PARG in the presence or absence of either histone proteins or nuclear matrix proteins. Both resulted in a marked inhibition of PARG activity as determined by the decrease in the formation of monomeric ADP-ribose. The inhibition of PARG was presumably due to the non-covalent interactions of these proteins with free ADP-ribose polymers. Thus, the presence of histone and nuclear matrix proteins should be taken into consideration when measuring PARG activity.
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PMID:Measurement of poly(ADP-ribose) glycohydrolase activity by high resolution polyacrylamide gel electrophoresis: specific inhibition by histones and nuclear matrix proteins. 1033 32

We have recently described the isolation and characterization of bovine cDNA encoding poly(ADP-ribose) glycohydrolase (PARG). We describe here the preparation and characterization of antibodies to PARG. These antibodies have been used to demonstrate the presence of multiple forms of PARG in tissue and cell extracts from bovine, rat, mouse, and insects. Our results indicate that multiple forms of PARG previously reported could result from a single gene. Analysis of PARG in cells in which poly(ADP-ribose) polymerase (PARP) has been genetically inactivated indicates that the cellular content of PARG is regulated independently of PARP.
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PMID:Molecular heterogeneity and regulation of poly(ADP-ribose) glycohydrolase. 1033 41

The concerted action of poly(ADP-ribose) polymerase (PARP) which synthesizes the poly(ADP-ribose) (pADPr) in response to DNA strand breaks and the catabolic enzyme poly(ADP-ribose) glycohydrolase (PARG) determine the level of polymer and the rate of its turnover. In the present study, we have shown that the quail myoblast cells have high levels of basal polymer as compared to the murine C3H10T1/2 fibroblasts. We have conducted this study to investigate how such differences influence polymer synthesis and its catabolism in the cells in response to DNA damage by alkylating agent. In quail myoblast cells, the presence of high MNNG concentration such as 200 microM for 30 min induced a marginal decrease of 15% in the NAD content. For C3H10T1/2 cell line, 64 microM MNNG provoked a depletion of NAD content by approximately 50%. The induction of the polymer synthesis in response to MNNG treatment was 6-fold higher in C3H10T1/2 cells than in quail myoblast cells notwithstanding the fact that 3-fold higher MNNG concentration was used for quail cells. The polymer synthesis thus induced in quail myoblast cells had a 4-5 fold longer half life than those induced in C3H10T1/2 cells. To account for the slow turnover of the polymer in the quail myoblast cells, we compared the activities of the polymer catabolizing enzyme (PARG) in the two cell types. The quail myoblast cells had about 25% less activity of PARG than the murine cells. This difference in activity is not sufficient to explain the large difference of the rate of catabolism between the two cell types implicating other cellular mechanisms in the regulation of pADPr turnover.
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PMID:Poly(ADP-ribose) turnover in quail myoblast cells: relation between the polymer level and its catabolism by glycohydrolase. 1033 49

Poly(ADP-ribose) glycohydrolase (PARG) digests poly(ADP-ribose), which is synthesized by poly(ADP-ribose) polymerase (PARP) after DNA damage. We mapped the human poly(ADP-ribose) glycohydrolase gene to chromosome 10q11.23-21.1 by fluorescence in situ hybridization analysis. Since chromosomal rearrangements in thyroid papillary carcinoma and loss of heterozygosity in glioblastoma are frequently observed in this region, genetic alteration of PARG could be implicated in these diseases.
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PMID:The human poly(ADP-ribose) glycohydrolase maps to chromosome 10q11.23-21.1 by fluorescence in situ hybridization. 1036 63

Poly(ADP-ribose) polymerase (PARP) is now recognized as an important mediator of cell death, but a role for poly(ADP-ribose) glycohydrolase (PARG) in cell death has not previously been described. PARG is the key enzyme degrading ADP-ribose polymers produced by PARP. Here we report effects of the PARG inhibitor gallotannin on oxidative cell death. Pre-incubation of cultured murine astrocytes with as little as 100 nM gallotannin produced significant reductions in H2O2-induced cell death assessed both 24 and 72 h after H2O2 exposure. Gallotannin was more than 10-fold more potent than the PARP inhibitor benzamide in preventing H2O2-induced cell death. These results provide the first evidence that PARG inhibitors could be used to prevent oxidative cell death.
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PMID:The poly(ADP-ribose) glycohydrolase inhibitor gallotannin blocks oxidative astrocyte death. 1084 43

Poly(ADPR)polymerase (PARP) is a chromatin-associated enzyme with a presumptive role in DNA repair during replication and recovery from strand breaks caused by genotoxic agents. It catalyses the attachment and elongation of ADPribose polymers (pADPR) to a variety of acceptor proteins (including PARP itself, and histones) and is particularly active in the testis where its expression varies according to the stage of germ cell differentiation. PARP degradation is also one of the classic indicators of apoptosis. In this investigation we have examined the effects of heat stress on the adult rat testis with respect to the concentration and activity of PARP, the nature of the pADRP nuclear acceptor proteins, the length of ADPR polymers and the activity of the ADPR depolymerizing enzyme, poly(ADPR)glycohydrolase (PARG). Our results show a significant reduction in the concentration and activity of PARP 4 and 8 days after artificial cryptorchidism, but no significant changes were observed in PARG activity or in pADPR length. Unexpectedly, the apoptotic degradation of PARP was not detected following heat stress. These results confirm that PARP gene expression is developmentally regulated during spermatogenesis and indicate that it is suppressed coincidentally with the loss of meiotic spermatocytes during artificial cryptorchidism.
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PMID:Heat stress reduces poly(ADPR)polymerase expression in rat testis. 1087 42

Poly(ADP-ribose) glycohydrolase (PARG) is responsible for the catabolism of poly(ADP-ribose) synthesized by poly(ADP-ribose) polymerase (PARP-1) and other PARP-1-like enzymes. In this work, we report that PARG is cleaved during etoposide-, staurosporine-, and Fas-induced apoptosis in human cells. This cleavage is concomitant with PARP-1 processing and generates two C-terminal fragments of 85 and 74 kDa. In vitro cleavage assays using apoptotic cell extracts showed that a protease of the caspase family is responsible for PARG processing. A complete inhibition of this cleavage was achieved at nanomolar concentrations of the caspase inhibitor acetyl-Asp-Glu-Val-Asp-aldehyde, suggesting the involvement of caspase-3-like proteases. Consistently, recombinant caspase-3 efficiently cleaved PARG in vitro, suggesting the involvement of this protease in PARG processing in vivo. Furthermore, caspase-3-deficient MCF-7 cells did not show any PARG cleavage in response to staurosporine treatment. The cleavage sites identified by site-directed mutagenesis are DEID(256) downward arrow V and the unconventional site MDVD(307) downward arrow N. Kinetic studies have shown similar maximal velocity (V(max)) and affinity (K(m)) for both full-length PARG and its apoptotic fragments, suggesting that caspase-3 may affect PARG function without altering its enzymatic activity. The early cleavage of both PARP-1 and PARG by caspases during apoptosis suggests an important function for poly(ADP-ribose) metabolism regulation during this cell death process.
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PMID:Caspase-3-mediated processing of poly(ADP-ribose) glycohydrolase during apoptosis. 1105 13

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