EC:2.4.2.30 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

3T3-L1 preadipocytes have been shown to exhibit a transient increase in poly(ADP-ribose) polymerase (PARP) protein and activity, as well as an association of PARP with DNA polymerase alpha, within 12-24 h of exposure to inducers of differentiation, whereas 3T3-L1 cells expressing PARP antisense RNA showed no increase in PARP and are unable to complete the round of DNA replication required for differentiation into adipocytes. The role of PARP in differentiation-linked DNA replication has now been further clarified at both the cellular and enzymological levels. Flow cytometric analysis revealed that control 3T3-L1 cells progressed through one round of DNA replication prior to the onset of terminal differentiation, whereas cells expressing PARP antisense RNA were blocked at the G0/G1 phase of the cell cycle. Confocal microscope image analysis of control S phase cells demonstrated that PARP was localized within distinct intranuclear granular foci associated with DNA replication centers. On the basis of these results, purified replicative complexes from other cell types that had been characterized for their ability to catalyze viral DNA replication in vitro were analyzed for the presence of PARP. PARP exclusively copurified through a series of centrifugation and chromatography steps with core proteins of an 18-21S multiprotein replication complex (MRC) from human HeLa cells, as well as with the corresponding mouse MRC from FM3A cells. The MRC were shown to contain DNA polymerases alpha and delta, DNA primase, DNA helicase, DNA ligase, and topoisomerases I and II, as well as accessory proteins such as PCNA, RF-C, and RP-A. Finally, immunoblot analysis of MRCs from both cell types with monoclonal antibodies to poly (ADP-ribose) revealed the presence of approximately 15 poly(ADP-ribosyl)ated proteins, some of which were further confirmed to be DNA polymerase alpha, DNA topoisomerase I, and PCNA by immunoprecipitation experiments. These results suggest that PARP may play a regulatory role within the replicative apparatus as a molecular nick sensor controlling the progression of the replication fork or modulates component replicative enzymes or factors in the complex by directly associating with them or by catalyzing their poly(ADP-ribosyl)ation.
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PMID:The expression of poly(ADP-ribose) polymerase during differentiation-linked DNA replication reveals that it is a component of the multiprotein DNA replication complex. 879 42

The effect of RNA, DNA, and protein synthesis inhibitors on the subnuclear localization of poly(ADP-ribose) polymerase (PARP) was examined. Indirect immunofluorescence indicated that PARP was distributed throughout the nuclei but concentrated in nucleoli of MDBK, HeLa, and CHO cells. Treatment with the DNA synthesis inhibitor cytosine arabinoside or the protein synthesis inhibitor cycloheximide did not change the distribution of PARP. In contrast, incubation with the RNA-synthesis inhibitor 5,6-dichloro-1-beta-ribofuranosylbenzimidazole (DRB) caused PARP immunofluorescence to become evenly distributed throughout the nucleus. This phenomenon was observed after a 1-h incubation with a DRB concentration that inhibited [5,6-3H]uridine incorporation by 75%. Similar results were obtained with actinomycin D. Immunoblotting showed that the DRB treatment did not cause any changes in the integrity and content of PARP. Removal of DRB from the media allowed PARP to reaccumulate in nucleoli within 1 h, suggesting that the nucleolar localization of PARP is dependent upon active RNA synthesis.
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PMID:Alteration of the nucleolar localization of poly(ADP-ribose) polymerase upon treatment with transcription inhibitors. 880 61

The response of human myeloid leukemia cells to treatment with 1-beta-arabinofuranosylcytosine (ara-C) includes the induction of apoptosis. Ara-C induced apoptosis is associated with proteolytic cleavage of poly(ADP-ribose) polymerase (PARP) and protein kinase C (PKC) delta. However, the signals involved in this response are unknown. The present studies show that ara-C treatment of U-937 cells is associated with induction of a protease activity that cleaves the tetrapeptides Ac-DEVD-pNA and Ac-DMOD-pNA found at the cleavage sites of PARP and PKC delta, respectively. The ara-C-induced protease activity was sensitive to overexpression of the anti-apoptotic protein Bcl-xL and the baculovirus protein p35. By contrast, overexpression of the cowpox virus protein CrmA blocked apoptosis induced by engagement of the Fas receptor but not that induced by ara-C. CrmA overexpression also had no detectable effect on ara-C-induced cleavage of PKC delta. The results further show that ara-C induces activation of the CPP32 protease by a CrmA-insensitive and p35-sensitive mechanism. Similar results were obtained with cisplatinum, etoposide, and camptothecin. These findings indicate that ara-C and other DNA-damaging agents activate a CrmA-insensitive apoptotic pathway involving CPP32 and that these signals differ from those associated with apoptosis induced by the Fas receptor.
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PMID:Activation of the CPP32 protease in apoptosis induced by 1-beta-D-arabinofuranosylcytosine and other DNA-damaging agents. 882 10

Ara-C has been shown to induce apoptosis of human acute myelogenous leukemia HL-60 cells. The DNA repair enzyme poly(ADP-ribose) polymerase (PARP) is known to be degraded during apoptosis. PARP as a substrate is cleaved by the Yama protease, encoded by the CPP32beta/Yama gene. Yama belongs to the interleukin 1beta converting enzyme/ced-3 family of cysteine proteases that are activated as a cascade, producing proteolytic cleavage of specific substrates that results in the morphological and biochemical features of apoptosis. In the present studies, we determined the effect of high intracellular levels of the antiapoptosis Bcl-2 or Bcl-xL protein on Yama protease activation and PARP degradation during Ara-C-induced apoptosis. For this, we utilized HL-60/Bcl-2, HL-60/Bcl-xL, or control HL-60/neo cells, which were created by transfection of the cDNA of the bcl-2, bcl-xL, or the neomycin-resistant genes, respectively. As compared to HL-60/neo, HL-60/Bcl-2 and HL-60/Bcl-xL cells have 5-fold greater expression of Bcl-2 and Bcl-xL, respectively. However, these cell lines have similar levels of p32Yama and PARP. Treatment with 10 or 100 microM Ara-C for 4 h produced DNA fragmentation and morphological features of apoptosis in HL-60/neo cells. This was associated with the cleavage and activation of p32Yama and PARP degradation but not with the induction of Yama mRNA. In contrast, in HL-60/Bcl-2 and HL-60/ Bcl-xL cells, Ara-C-induced p32Yama activation by its cleavage, PARP degradation and apoptosis were significantly inhibited. High Bcl-2 and Bcl-xL levels in these cells also inhibited Yama protease activity, PARP degradation, and apoptosis due to clinically relevant concentrations of etoposide and mitoxantrone. These results suggest that the activation of the Yama protease and PARP degradation are involved in Ara-C-, etoposide-, or mitoxantrone-induced apoptosis. In addition, they suggest that Bcl-2 and Bcl-xL antagonize drug-induced apoptosis by a mechanism that interferes in the activity of a key cysteine protease that is involved in the execution of apoptosis.
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PMID:Overexpression of Bcl-2 or Bcl-xL inhibits Ara-C-induced CPP32/Yama protease activity and apoptosis of human acute myelogenous leukemia HL-60 cells. 884 Sep 93

The vitamin nicotinamide can protect against oxidative stress-induced apoptosis in the brain when used as a precursor for nicotinamide adenine dinucleotide (NAD+). The intracerebroventricular administration of tertiary-butylhydroperoxide (t-buOOH) to mice was used to simulate physiologic oxidative stress and apoptosis which may occur in some neurodegenerative conditions. t-buOOH produced characteristic apoptotic nuclear degeneration in neurons with extensive fragmentation of DNA. In this report we show that the elevation of NAD+ by nicotinamide prevents DNA fragmentation during apoptosis or necrosis in the brain as stimulated by t-buOOH administration. NAD+ levels can be increased by 50% in the brain. This may prevent the critical depletion of NAD+ by poly(ADP-ribose) polymerase (PARP) and provide additional substrate during the repair of DNA. Nicotinamide may be of particular interest in the treatment of neurodegeneration.
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PMID:Nicotinamide as a precursor for NAD+ prevents apoptosis in the mouse brain induced by tertiary-butylhydroperoxide. 884 80

Intracellularly, the anticancer drug taxol induces tubulin polymerization and mitotic arrest, followed by apoptosis. The DNA repair enzyme poly(ADP-ribose) polymerase (PARP) and lamins are known to be degraded during apoptosis. PARP is a substrate for the Yama protease, which is encoded by the CPP32 beta/ Yama gene, whereas lamins are degraded by the Yama and lamin proteases. In the present studies, we determined the effects of enforced overexpression of the antiapoptosis Bcl-xL protein on taxol-mediated microtubule and cell cycle perturbations, as well as on taxol-induced apoptosis and associated Yama protease activity in human myeloid leukemia HL-60 cells. Our data demonstrate that high Bcl-xL levels do not affect the microtubular bundling or mitotic arrest due to taxol but significantly inhibit the morphological, flow cytometric, and DNA fragmentation features associated with taxol-induced apoptosis. This resulted in a significant improvement in the survival of taxol-treated cells that possess high Bcl-xL levels. In the control HL-60 cells, following taxol treatment, whereas the mRNA of Yama was not induced, taxol-induced apoptosis was associated with Yama activation and PARP as well as lamin B1 degradation. These features were blocked by coculture of these cells with the cysteine protease inhibitor YVAD-cmk as well as in cells with overexpression of Bcl-xL. These results suggest that Bcl-xL antagonizes taxol-induced apoptosis by a mechanism that interferes with the activation of a key protease involved in the execution of apoptosis.
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PMID:Bcl-xL overexpression inhibits taxol-induced Yama protease activity and apoptosis. 885 5

O6-benzylguanine (O6-BG) and 3-aminobenzamide (3-AB) inhibit the DNA repair proteins O6-alkylguanine-DNA alkyltransferase (AGT) and poly(ADP-ribose) polymerase (PARP) respectively. The effect of O6-BG and/or 3-AB on temozolomide and 1,3-bis(2-chloroethyl)-nitrosourea (BCNU) cytotoxicity, was assessed in seven human tumour cell lines: six with an AGT activity of > 80 fmol mg-1 protein (Mer+) and one with an AGT activity of < 3 fmol mg-1 protein (Mer-). Three of the Mer+ cell lines (LS174T, DLD1 and HCT116) were considered to exhibit resistance to methylation by a mismatch repair deficiency (MMR-), each being known to exhibit microsatellite instability, and DLD1 and HCT116 having well-characterised defects in DNA mismatch binding. Potentiation was defined as the ratio between an IC50 achieved without and with a particular inhibitor treatment. Temozolomide or BCNU cytotoxicity was not potentiated by either inhibitor in the Mer- cell line. Preincubation with O6-BG (100 microM for 1 h) was found to potentiate the cytotoxicity of temozolomide by 1.35- to 1.57-old in Mer+/MMR+ cells, but had no significant effect in Mer+/MMR- cells. In comparison, O6-BG pretreatment enhanced BCNU cytotoxicity by 1.94- to 2.57-fold in all Mer+ cell lines. Post-incubation with 3-AB (2 mM, 48 h) potentiated temozolomide by 1.35- to 1.59-fold in Mer+/MMR+ cells, and when combined with O6-BG pretreatment produced an effect which was at least additive, enhancing cytotoxicity by 1.97- to 2.16-fold. 3-AB treatment also produced marked potentiation (2.20- to 3.12-fold) of temozolomide cytotoxicity in Mer+/MMR- cells. In contrast, 3-AB produced marginal potentiation of BCNU cytotoxicity in only three cell lines (1.19- to 1.35-fold), and did not enhance the cytotoxicity of BCNU with O6-BG treatment in any cell line. These data suggest that the combination of an AGT and PARP inhibitor may have a therapeutic role in potentiating temozolomide activity, but that the inhibition of poly(ADP-ribosyl)ation has little effect on the cytotoxicity of BCNU.
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PMID:3-aminobenzamide and/or O6-benzylguanine evaluated as an adjuvant to temozolomide or BCNU treatment in cell lines of variable mismatch repair status and O6-alkylguanine-DNA alkyltransferase activity. 885 70

Treatment of C57B1/6 mice with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) reduced striatal dopamine and cortical noradrenaline levels by 77-83% and 43-46%, respectively, at 7 days post-treatment. Co-treatments with five different inhibitors of poly(ADP-ribose) polymerase (PARP), including benzamide, significantly prevented the MPTP-induced catecholamine depletions. Benzamide was present in the striatum, 30 min after single i.p. injection, at low millimolar concentrations known to selectively inhibit PARP in vitro. The protective activities of benzamide and its derivatives paralleled their in vitro efficacies and potencies both as neuroprotective agents and as inhibitors of PARP, while the activity of 1,5-dihydroxyisoquinoline, a structurally-unrelated compound, did not. In naive animals, the PARP inhibitors by themselves did not alter striatal dopamine levels at 7 days post-treatment. However, in acute studies, 1,5-dihydroxyisoquinoline and nicotinamide caused marked alterations in striatal dopamine metabolite levels; on the contrary, benzamide and its amino-derivatives showed little or no effect on dopamine metabolism. These results indicate that, although these compounds might act at other sites in addition to PARP, PARP inhibitors possess neuroprotective potential in vivo and suggest a role for PARP in MPTP neurotoxicity.
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PMID:Poly(ADP-ribose) polymerase inhibitors protect against MPTP-induced depletions of striatal dopamine and cortical noradrenaline in C57B1/6 mice. 887 97

Incubation of cultured rat hepatocytes with sodium nitroprusside or SIN-1, two nitric oxide (NO) donors, inhibited the mitogenic action of hepatocyte growth factor in a dose-dependent manner. The addition of 100 microM reduced hemoglobin, which is known to absorb NO, or the presence of 20 microM 1,5-isoquinolinediol, a poly(ADP-ribose) polymerase (PARP) inhibitor, decreased the cytostatic effects of SIN-1. By labeling the hepatocytes with [2-3H]adenine we studied whether nitric oxide induces ADP-ribosylation of proteins in a whole-cell system. At 0.4 mM, sodium nitroprusside increased the [3H]adenine labeling of two proteins of 116 and 130-135 kDa. This effect was time-dependent and was detected after 2 h. Only the 116-kDa protein was recognized by three different antibodies against poly (ADP-ribose) polymerase in Western blot assays. These results demonstrate that NO has antimitogenic effects in cultured hepatocytes and that its action could be mediated by PARP activation.
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PMID:Nitric oxide inhibits DNA synthesis and induces activation of poly(ADP-ribose) polymerase in cultured rat hepatocytes. 889 65

Previous studies have indicated that the activation of poly(ADP-ribose) polymerase (PARP), an enzyme involved in DNA plasticity-related phenomena, is an early event occurring in glutamate-induced neurotoxicity in vitro, and that inhibitors of PARP, including benzamide, are protective against both glutamate- and methamphetamine (METH)-induced neurotoxicity in vitro. To evaluate a central neuroprotective potential of benzamide in vivo, the present study examined the effect of benzamide on the nigrostriatal dopamine toxicity (i.e., long-lasting striatal dopamine depletion) induced by METH in the C57B1/6N mouse. Intraperitoneal injection of METH at 2-h intervals (4 injections of 5 mg/kg, 4 injections of 10 mg/kg, or 2 injections of 20 mg/kg) dose-dependently reduced the levels of striatal dopamine in male C57B1/6N mice by up to 53% at 7 days post-treatment. Administration of benzamide (2 injections of 160 mg/kg spaced by a 4 interval) during the different METH treatment protocols partially and significantly attenuated the METH-induced dopamine depletions. Benzamide (160 mg/kg i.p.) by itself had no acute effect on striatal dopamine metabolism and did not reduce body temperature. The concentrations of benzamide measured in the striatum at different times following this same dose of drug were in a range (0.09-0.64 mM) reported in in vitro studies to be both neuroprotective and effective in inhibiting PARP activity. These results indicate a neuroprotective potential of benzamide in vivo and suggest a role of PARP in METH neurotoxicity.
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PMID:Benzamide, an inhibitor of poly(ADP-ribose) polymerase, attenuates methamphetamine-induced dopamine neurotoxicity in the C57B1/6N mouse. 891 77

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