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)

Poly(ADP-ribose) polymerase-1 (PARP-1) is a conserved nuclear protein present in nearly all eukaryotes. In mammalian cells, its abundant expression and its ability to specifically bind to DNA strand breaks make it an important enzyme in the rapid cellular response to DNA damage. Although the promoter regions of the three known mammalian PARP-1 genes, from human, rat and mouse, are different, they share common features, such as multiple GC-rich regions, lack of a functional TATA box, and presence of a putative initiator element. In this study, we analyzed the core promoter region of the rat PARP-1 gene, and show that it contains a functional initiator element surrounding the transcription start site. This core element lies within an approximately 40-base-pair region that is highly conserved in all three mammalian PARP-1 promoters. Furthermore, we show that other core elements located upstream and downstream of the PARP-1 initiator, including a functional Sp1 target site, synergize to regulate rat PARP-1 transcription. As the initiator region of all three PARP-1 gene promoters is highly conserved, their transcriptional regulation is likely achieved through similar mechanisms.
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PMID:A conserved initiator element on the mammalian poly(ADP-ribose) polymerase-1 promoters, in combination with flanking core elements, is necessary to obtain high transcriptional activity. 1524 15

Werner syndrome (WS) is a genetic premature aging disorder in which patients appear much older than their chronological age. The gene mutated in WS encodes a nuclear protein (WRN) which possesses 3'-5' exonuclease and ATPase-dependent 3'-5' helicase activities. The genomic instability associated with WS cells and the biochemical characteristics of WRN suggest that WRN plays a role in DNA metabolic pathways such as transcription, replication, recombination and repair. Recently we have identified poly(ADP-ribose) polymerase-1 (PARP-1) as a new WRN interacting protein. In this paper, we further mapped the interacting domains. We found that PARP-1 bound to the N-terminus of WRN and to the C-terminus containing the RecQ-conserved (RQC) domain. WRN bound to the N-terminus of PARP-1 containing DNA binding and BRCA1 C-terminal (BRCT) domains. We show that unmodified PARP-1 inhibited both WRN exonuclease and helicase activities, and to our knowledge is the only known WRN protein partner that inactivates both of the WRN's catalytic activities suggesting a biologically significant regulation. Moreover, this dual inhibition seems to be specific for PARP-1, as PARP-2 did not affect WRN helicase activity and only slightly inhibited WRN exonuclease activity. The differential effect of PARP-1 and PARP-2 on WRN catalytic activity was not due to differences in affinity for WRN or the DNA substrate. Finally, we demonstrate that the inhibition of WRN by PARP-1 was influenced by the poly(ADP-ribosyl)ation state of PARP-1. The biological relevance of the specific modulation of WRN catalytic activities by PARP-1 are discussed in the context of pathways in which these proteins may function together, namely in the repair of DNA strand breaks.
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PMID:Poly(ADP-ribose) polymerase 1 regulates both the exonuclease and helicase activities of the Werner syndrome protein. 1529 49

The efficient repair of DNA double-strand breaks (DSBs) is critical for the maintenance of genomic integrity. In mammalian cells, the nonhomologous end-joining process that represents the predominant repair pathway relies on the DNA-dependent protein kinase (DNA-PK) and the XRCC4-DNA ligase IV complex. Nonetheless, several in vitro and in vivo results indicate that mammalian cells use more than a single end-joining mechanism. While searching for a DNA-PK-independent end-joining activity, we found that the pretreatment of DNA-PK-proficient and -deficient rodent cells with an inhibitor of the poly(ADP-ribose) polymerase-1 enzyme (PARP-1) led to increased cytotoxicity of the highly efficient DNA double-strand breaking compound calicheamicin gamma1. In addition, the repair kinetics of the DSBs induced by calicheamicin gamma1 was delayed both in PARP-1-proficient cells pretreated with the PARP-1 inhibitor and in PARP-1-deficient cells. In order to get new insights into the mechanism of an alternative route for DSBs repair, we have established a new synapsis and end-joining two-step assay in vitro, operating on DSBs with either nuclear protein extracts or recombinant proteins. We found an end-joining activity independent of the DNA-PK/XRCC4-ligase IV complex but that actually required a novel synapsis activity of PARP-1 and the ligation activity of the XRCC1-DNA ligase III complex, proteins otherwise involved in the base excision repair pathway. Taken together, these results strongly suggest that a PARP-1-dependent DSBs end-joining activity may exist in mammalian cells. We propose that this mechanism could act as an alternative route of DSBs repair that complements the DNA-PK/XRCC4/ligase IV-dependent nonhomologous end-joining.
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PMID:Involvement of poly(ADP-ribose) polymerase-1 and XRCC1/DNA ligase III in an alternative route for DNA double-strand breaks rejoining. 1549 78

Poly(ADP-ribose) polymerase-1 (PARP-1), nuclear protein of higher eukaryotes, specifically detects strand breaks in DNA. When bound to DNA strand breaks, PARP-1 is activated and catalyzes synthesis of poly(ADP-ribose) covalently attached to the row of nuclear proteins, with the main acceptor being PARP-1 itself. This protein participates in a majority of DNA dependent processes: repair, recombination; replication: cell death: apoptosis and necrosis. Poly(ADP-ribosyl)ation of proteins is considered as mechanism, which signals about DNA damage and modulate protein functioning in response to genotoxic impact. The main emphasis is made on the roles of PARP-1 and poly(ADP-ribosyl)ation in base excision repair (BER), the process, which provides repair of DNA breaks. The main proposed functions of PARP-1 in this process are: factor initiating assemblage of protein complex of BER; temporary protection of DNA ends; modulation of chromatin structure via poly(ADP-ribosyl)ation of histones; signaling function in detection of the levels of DNA damage in cell.
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PMID:[Poly(ADP-ribose) polymerase-1 as a regulator of protein-nucleic acid interactions in the processes responding to genotoxic action]. 1555 86

The cardiotoxicity of adriamycin limits its clinical use as a powerful drug for solid tumors and malignant hematological disease. Although the precise mechanism by which it causes cardiac damage is not yet known, it has been suggested that apoptosis is the principal process in adriamycin-induced cardiomyopathy, which involves DNA fragmentation, cytochrome C release, and caspase activation. However, there has been no direct evidence for the critical involvement of caspase-3 in adriamycin-induced apoptosis. To determine the requirements for the activation of caspase-3 in adriamycin-treated cardiac cells, the effect of a caspase inhibitor on the survival of and apoptotic changes in H9c2 cells was examined. Exposure of H9c2 cells to adriamycin resulted in a time- and dose-dependent cell death, and the cleavage of pro-caspase-3 and of the nuclear protein poly (ADP'ribose) polymerase (PARP). However, neither the reduction of cell viability nor the characteristic morphological changes induced by adriamycin were prevented by pretreatment with the general caspase inhibitor z-VAD.FMK. In contrast, caspase inhibition effectively blocked the apoptosis induced by H202 in H9c2 cells, as determined by an MTT assay or microscopy. We also observed that p53 expression was increased by adriamycin, and this increase was not affected by the inhibition of caspase activity, suggesting a role for p53 in adriamycin-induced caspase-independent apoptosis in cardiac toxicity.
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PMID:Induction of caspase-independent apoptosis in H9c2 cardiomyocytes by adriamycin treatment. 1579 49

In coeliac disease (CD) there is an inflammatory status of the intestinal mucosa because of a high expression of proinflammatory mediators. The nuclear protein poly (ADP-ribose) polymerase-1 (PARP-1) has been implicated in the initial inflammatory response by modulating transcription of inflammation-related genes. The aim of this work was to investigate the role of PARP-1 gene promoter region haplotypes in relation to coeliac disease susceptibility. We analysed a coeliac population consisting of a case-control panel with 120 CD patients and 311 healthy blood donors. A CA microsatellite, as haplotype-defining variant of the whole PARP-1 promoter, was typed using a polymerase chain reaction (PCR) method combined with fluorescence technology. We considered two promoter haplotypes: A defined by short CA alleles (83-87 bp) and B defined by long CA alleles (89-101 bp). Haplotype A was significantly increased within the coeliac patients group (P = 0.007 OR 1.6 95%CI 1.12-2.35). Additionally, we observed a significant dose effect, showing homozygous individuals for haplotype A higher risk for CD susceptibility (P = 0.007, OR 1.79 95%CI 1.14-2.82). Our results provide the first evidence that PARP-1 haplotypes are related with coeliac disease susceptibility.
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PMID:Poly (ADP-ribose) polymerase-1 haplotypes are associated with coeliac disease. 1602 92

BAL1 (B-aggressive lymphoma 1) was originally identified as a risk-related gene in diffuse large B-cell lymphoma. BAL1 encodes a nuclear protein with N-terminal macro domains and a putative C-terminal poly(ADP-ribose) polymerase (PARP) active site. Macro domains are sequences homologous to the non-histone region of histone macroH2A. Several lines of evidence suggest that these domains may modulate transcription, including a high concentration of histone macroH2A in the inactive X chromosome, direct interference with transcription factor binding in a positioned nucleosome, and structural similarity to DNA binding domains. Poly(ADP-ribosyl)ation is a critical post-translational modification that regulates chromatin configuration and transcription. In this report we describe two additional BAL family members, BAL2 and BAL3, with N-terminal macro domains and putative C-terminal PARP active sites and assess the function of these specific regions in BAL family members. Herein, we demonstrate that BAL macro domains repress transcription when tethered to a promoter. In addition, we show that BAL2 and BAL3, but not BAL1, exhibit PARP activity. In agreement with these data, BAL1 lacks several critical donor and acceptor residues that are conserved in the BAL2 and -3 PARP active sites. Of interest, BAL family members with inactive or functional PARP domains differed in their ability to repress transcription. BAL family members are the only described proteins with both PARP and macro domains, underscoring the potential functional significance of this unique combination.
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PMID:B-aggressive lymphoma family proteins have unique domains that modulate transcription and exhibit poly(ADP-ribose) polymerase activity. 1606 77

PolyADP-ribosylation is a transient posttranslational modification of proteins, mainly catalyzed by poly(ADP-ribose)polymerase-1 (PARP-1). This highly conserved nuclear protein is activated rapidly in response to DNA nick formation and promotes a fast DNA repair. Here, we examine a possible association between polyADP-ribosylation and the activity of neurotrophins and neuroprotective peptides taking part in life-or-death decisions in mammalian neurons. The presented results indicate an alternative mode of PARP-1 activation in the absence of DNA damage by neurotrophin-induced signaling mechanisms. PARP-1 was activated in rat cerebral cortical neurons briefly exposed to NGF-related nerve growth factors and to the neuroprotective peptides NAP (the peptide NAPVSIPQ, derived from the activity-dependent neuroprotective protein ADNP) and ADNF-9 (the peptide SALLRSIPA, derived from the activity-dependent neurotrophic factor ADNF) In addition, polyADP-ribosylation was involved in the neurotrophic activity of NGF-induced and NAP-induced neurite outgrowth in differentiating pheochromocytoma 12 cells as well as in the neuroprotective activity of NAP in neurons treated with the Alzheimer's disease neurotoxin beta-amyloid. A fast loosening of the highly condensed chromatin structure by polyADP-ribosylation of histone H1, which renders DNA accessible to transcription and repair, may underlie the role of polyADP-ribosylation in neurotrophic activity.
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PMID:PolyADP-ribosylation is involved in neurotrophic activity. 1609 93

One-hundred twenty-four proteins have been identified in the soluble nuclear protein mixture from MCF-7 human breast cancer cells, of which more than 90% are classically categorized as nuclear proteins. Proteins were also studied from three drug resistant MDF-7 lines, selected previously from the same parent line by exposure to etoposide, to mitoxantrone, or to adriamycin in the presence of verapamil. Both quantitative gel comparisons and stable isotope labeling were used to identify a total of fourteen proteins whose abundances are altered by more than 2-fold in the three resistant lines. Several cytoskeleton proteins, cytokeratin 8, cytokeratin 19, septin 2, and alpha tropomyosin, are decreased in common across the three resistant cell lines. PARP-l (poly[ADP-ribosyl]transefrase or connexion) is found to be less abundant in all three resistant lines. Nucleolin is more abundant in lines resistant to etoposide and mitoxantrone, while the mitotic checkpoint protein BUB 3 is more abundant in the line resistant to adriamycin/verapamil.
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PMID:Proteomic evidence for roles for nucleolin and poly[ADP-ribosyl] transferase in drug resistance. 1621 10

Diabetes mellitus compromises nitric oxide (NO)-mediated endothelium-dependent relaxation of blood vessels, which has been linked to the excessive generation of reactive oxygen species. There are also deleterious effect on nitrergic innervation, contributing to autonomic neuropathy symptoms such as impotence and gastroporesis. Poly(ADP-ribose) polymerase (PARP) is a nuclear protein stimulated by DNA damage, caused, for example, by oxidative stress. Activation has been linked to impaired endothelial nitric oxide synthase (eNOS)-mediated vasodilation in experimental diabetes. There is no information on the potential role of PARP in nitrergic nerve dysfunction, therefore, the aim was to examine the effects of PARP inhibition, using 3-aminobenzamide (3-AB) on neurally mediated gastric fundus relaxation in streptozotocin-induced diabetic rats. Eight weeks of diabetes caused a 42.5% deficit in maximum relaxation of in vitro gastric fundus strips to electrical stimulation of the non-adrenergic non-cholinergic innervation. This was largely prevented or corrected (4 weeks of treatment following 4 weeks of untreated diabetes) by 3-AB. Diabetes also markedly attenuated the maintenance of relaxation responses to prolonged stimulation, and this was partially corrected by 3-AB treatment. Experiments in the presence of the NOS inhibitor, N(G)-nitro-L-arginine, and/or blockade of the co-transmitter, vasoactive intestinal polypeptide, by alpha-chymotrypsin, showed that the beneficial effects of 3-AB were primarily due to improved nitrergic neurotransmission. Thus, PARP plays an important role in defective nitrergic neurotransmission in experimental diabetes, which may have therapeutic implications for treatment of aspects of diabetic autonomic neuropathy.
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PMID:Effects of poly(ADP-ribose) polymerase inhibition on dysfunction of non-adrenergic non-cholinergic neurotransmission in gastric fundus in diabetic rats. 1664 48

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