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)

Activation of the nuclear enzyme poly(ADP-ribose) polymerase (PARP) is an early response of cells exposed to DNA-damaging compounds such as nitric oxide (NO) or reactive oxygen intermediates (ROI). Excessive poly-(ADP-ribose) formation by PARP has been assumed to deplete cellular NAD+ pools and to induce the death of several cell types, including the loss of insulin-producing islet cells in type I diabetes. In the present study we used cells from mice with a disrupted and thus inactivated PARP gene to provide direct evidence for a causal relationship between PARP activation, NAD+ depletion, and cell death. We found that mutant islet cells do not show NAD+ depletion after exposure to DNA-damaging radicals and are more resistant to the toxicity of both NO and ROI. These findings directly prove that PARP activation is responsible for most of the loss of NAD+ following such treatment. The ADP-ribosylation inhibitor 3-aminobenzamide partially protected islet cells with intact PARP gene but not mutant cells from lysis following either NO or ROI treatment. Hence the protective action of 3-aminobenzamide must be due to inhibition of PARP and does not result from its other pharmacological properties such as oxygen radical scavenging. Finally, the use of mutant cells an alternative pathway of cell death was discovered which does not require PARP activation and NAD+ depletion. In conclusion, the data prove the causal relationship of PARP activation and subsequent islet cell death and demonstrate the existence of an alternative pathway of cell death independent of PARP activation and NAD+ depletion.
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PMID:Inactivation of the poly(ADP-ribose) polymerase gene affects oxygen radical and nitric oxide toxicity in islet cells. 774 49

A full-length Arabidopsis thaliana cDNA (app) encoding a protein with high similarity (about 60%) to the catalytic domain of vertebrate poly(ADP-ribose) polymerase (PARP; EC 2.4.2.30) has been cloned. The N-terminal extension of the Arabidopsis protein shows similarities with domains of different nuclear and DNA binding proteins in agreement with nuclear localization and putative function of a plant PARP. APP is encoded by a single gene mapped at the top of chromosome 4 of the Arabidopsis genome and mRNA is abundant in cell suspension culture compared to its accumulation in whole plant.
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PMID:Characterization of an Arabidopsis thaliana cDNA homologue to animal poly(ADP-ribose) polymerase. 775 May 52

Poly(ADP-ribosyl)ation is a posttranslational modification of nuclear proteins catalyzed by poly(ADP-ribose) polymerase (PARP; EC 2.4.2.30), with NAD+ serving as the substrate. PARP is strongly activated upon recognition of DNA strand breaks by its DNA-binding domain. Experiments with low-molecular-weight inhibitors of PARP have led to the view that PARP activity plays a role in DNA repair and possibly also in DNA replication, cell proliferation, and differentiation. Accumulating evidence for nonspecific inhibitor effects prompted us to develop a molecular genetic system to inhibit PARP in living cells, i.e., to overexpress selectively the DNA-binding domain of PARP as a dominant negative mutant. Here we report on a cell culture system which allows inducible, high-level expression of the DNA-binding domain. Induction of this domain leads to about 90% reduction of poly(ADP-ribose) accumulation after gamma-irradiation and sensitizes cells to the cytotoxic effect of gamma-irradiation and of N-methyl-N'-nitro-N-nitrosoguanidine. In contrast, induction does not affect normal cellular proliferation or the replication of a transfected polyomavirus replicon. Thus, trans-dominant inhibition of the poly(ADP-ribose) accumulation occurring after gamma-irradiation or N-methyl-N'-nitro-N-nitrosoguanidine is specifically associated with a disturbance of the cellular recovery from the inflicted damage.
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PMID:trans-dominant inhibition of poly(ADP-ribosyl)ation sensitizes cells against gamma-irradiation and N-methyl-N'-nitro-N-nitrosoguanidine but does not limit DNA replication of a polyomavirus replicon. 776 Aug 11

Although the mechanism of mammalian apoptosis has not been elucidated, a protease of the CED-3/ICE family is anticipated to be a component of the death machinery. Several lines of evidence predict that this protease cleaves the death substrate poly(ADP-ribose) polymerase (PARP) to a specific 85 kDa form observed during apoptosis, is inhibitable by the CrmA protein, and is distinct from ICE. We cloned a ced-3/ICE-related gene, designated Yama, that encodes a protein identical to CPP32 beta. Purified Yama was a zymogen that, when activated, cleaved PARP to generate the 85 kDa apoptotic fragment. Cleavage of PARP by Yama was inhibited by CrmA but not by an inactive point mutant of CrmA. Furthermore, CrmA blocked cleavage of PARP in cells undergoing apoptosis. We propose that Yama may represent an effector component of the mammalian cell death pathway and suggest that CrmA blocks apoptosis by inhibiting Yama.
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PMID:Yama/CPP32 beta, a mammalian homolog of CED-3, is a CrmA-inhibitable protease that cleaves the death substrate poly(ADP-ribose) polymerase. 777 19

The effect of inhibition of poly(ADP-ribose) polymerase (PARP) on the growth arrest and cell killing induced by N-methyl-N-nitrosourea (MNU) was studied in L929 fibroblasts. Depletion of NAD and ATP preceded the cell killing by a 1-h exposure to 10 or 15 mM MNU. 3-Aminobenzamide (ABA), an inhibitor of PARP, spared the depletion of NAD and ATP and prevented the cell killing. With 5 mM MNU, a depletion of NAD was promptly reversed, and there was no loss of ATP and no cell death. Aphidicolin, a DNA polymerase inhibitor, prevented the restoration of NAD, with resulting depletion of ATP and death of the cells, effects that were prevented by ABA. Azide together with 2-deoxyglucose depleted ATP, followed by a loss of NAD and cell death, changes that occurred in the absence of DNA single strand breaks (DNA SSB). ABA prevented the depletion of NAD, but not that of ATP, nor the cell killing. MNU (2.5 mM) inhibited cell growth without effect on the viability of the cells. ABA potentiated the cell growth inhibition. Thus, inhibition of PARP potentiates cell growth inhibition by limiting DNA repair mechanisms. Alternatively, inhibition of the DNA repair response to more extensive DNA damage prevents cell killing. The ATP depletion caused by poly(ADP-ribosyl)ation, rather than DNA SSB and the loss of NAD, is the more critical event in the cell killing.
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PMID:Growth inhibition and cell killing by N-methyl-N-nitrosourea: metabolic alterations that accompany poly(ADP-ribosyl)ation. 778 36

Low-dose gamma-irradiation of mouse embryonic fibroblast C3D2F1 3T3-a cells caused G1 arrest along with G2 arrest and inhibition of replicative DNA synthesis. When the cells were cultured in the presence of inhibitors of poly(ADP-ribose) polymerase [EC 2.4.2.30], such as 3-aminobenzamide, benzamide and luminol, G1 arrest of C3D2F1 3T3-a cells was suppressed and enhancement of G2 arrest was observed. In contrast, 3-aminobenzoic acid, a non-inhibitory analog of 3-aminobenzamide, did not suppress G1 arrest following gamma-irradiation. These results suggest that the poly(ADP-ribosyl)ation reaction is critical for the pathway of G1 arrest and is also involved in the pathway of G2 arrest.
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PMID:Suppression of G1 arrest and enhancement of G2 arrest by inhibitors of poly(ADP-ribose) polymerase: possible involvement of poly(ADP-ribosyl)ation in cell cycle arrest following gamma-irradiation. 782 93

Despite extensive studies on streptozotocin, alloxan and nitric oxide toxicity in pancreatic islets the mechanism of oxygen radical induced islet cell death has not been determined. The present study shows at the level of single cells that following exposure to oxygen radicals generated from xanthine oxidase DNA strand breaks occur in cell nuclei within 5-60 min and precede cell death by several hours. Similar kinetics were seen when treating islet cells with the alkylating agent streptozotocin. Immunofluorescence studies demonstrated the endogenous formation of ADP-ribose polymers in nearly all islet cell nuclei within minutes of treatment with xanthine oxidase, indicating activation of the enzyme poly(ADP-ribose) polymerase (PARP). Concomitantly, cellular NAD+ depletion was noted. Nicotinamide largely prevented NAD+ depletion and in parallel resulted in islet cell survival. These findings identify islet cell nuclear DNA as a primary target of oxygen radical toxicity and suggest related pathways of oxygen radical, nitric oxide and streptozotocin toxicity.
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PMID:Analysis of oxygen radical toxicity in pancreatic islets at the single cell level. 784 Sep 1

Recently, two deoxyribose analogs of beta NAD+ (2'-deoxy and 3'-deoxyNAD+) have been synthesized and purified in this laboratory. Whereas 2'-deoxyNAD+ was an efficient substrate for arg-specific mon(ADP-ribosyl) transferases, it was not a substrate for poly(ADP-ribose) polymerase (PARP). Instead, it was a non-competitive inhibitor of beta NAD+ in the ADP-ribose polymerization reaction catalyzed by PARP. Thus, 2'-deoxyNAD+ has been utilized to distinguish between mono(ADP-ribose) and poly(ADP-ribose) acceptor proteins. 2'-deoxyNAD+ has also been used to characterize the arg-specific mono(2'-deoxyADP-ribosyl)ation reaction of PARP with cholera toxin or avian mono(ADP-ribosyl)transferase. By contrast, 3'-deoxyNAD+ can effectively be utilized as a substrate by PARP. However, while the estimated Km and Kcat of polymerization with 3'-deoxyNAD+ were 20 microM and 0.11 moles/sec, the Km and Kcat with beta NAD+ as a substrate were 59 microM and 1.29 moles/sec, respectively. Determination of the average size of 3'-deoxyADP-ribose polymers indicated that chains no larger than four residues are synthesized with this substrate. Thus, the utilization of 3'-deoxyNAD+ has facilitated the electrophoretic identification of poly(ADP-ribose) acceptor proteins in mammalian chromatin.
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PMID:DeoxyNAD and deoxyADP-ribosylation of proteins. 789 66

In this minireview, we summarize recent advances on the enzymology of ADP-ribose polymer synthesis. First, a short discussion of the primary structure and cloning of poly(ADP-ribose) polymerase (PARP) [EC 2.4.2.30], the enzyme that catalyzes the synthesis of poly(ADP-ribose), is presented. A catalytic distinction between the multiple enzymatic activities of PARP is established. The direction of ADP-ribose chain growth as well as the molecular mechanism of the automodification reaction catalyzed by PARP are described. Current approaches to dissect ADP-ribose polymer synthesis into individual reactions of initiation, elongation and branching, as well as a partial mechanistic characterization of the ADP-ribose elongation reaction at the chemical level are also presented. Finally, recent developments in the catalytic characterization of PARP by site-directed mutagenesis are also briefly summarized.
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PMID:Enzymology of ADP-ribose polymer synthesis. 789 72

Homogeneously purified poly(ADP-ribose) polymerase (PARP) specifically stimulated the activity of immunoaffinity-purified calf or human DNA polymerase alpha by about 6 to 60-fold. Apparently, poly(ADP-ribosyl)ation of DNA polymerase alpha was not necessary for the stimulation. The effects of PARP on DNA polymerase alpha were biphasic: at very low concentrations of DNA, it rather inhibited its activity, whereas, at higher DNA concentrations, PARP greatly stimulated it. The autopoly(ADP-ribosyl)ation of PARP suppressed both its stimulatory and inhibitory effects. By immunoprecipitation with an anti-DNA polymerase alpha antibody, it was clearly shown that PARP may be physically associated with DNA polymerase alpha. Stimulation of DNA polymerase alpha may be attributed to the physical association between the two, rather than to the DNA-binding capacity of PARP, since the PARP fragment containing only the DNA binding domain showed little stimulatory activity. The existence of PARP-DNA polymerase alpha complexes were also detected in crude extracts of calf thymus.
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PMID:Interaction of poly(ADP-ribose)polymerase with DNA polymerase alpha. 789 73

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