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)

Protease-activated receptors (PARs) belong to the family of membrane receptors coupled to G-proteins; their presence is reported in a wide variety of cells. The object of this study was to demonstrate the presence of PAR-1 and PAR-2 in myenteric glia of the guinea pig, and to elucidate the cellular mechanisms that are triggered upon receptor activation. Thrombin and PAR-1 agonist peptide (PARP-1) activate PAR-1 with a maximum mean +/- SEM change in intracellular calcium concentration with respect to basal level (Delta[Ca2+]i) of 183 +/- 18 nm and 169 +/- 6 nm, respectively. Trypsin and PAR-2 agonist peptide (PARP-2) activate PAR-2 with a maximum Delta[Ca2+]i of 364 +/- 28 nm and 239 +/- 19 nm, respectively. Inhibition of phospholipase C by U73312 (1 microm) decreased the Delta[Ca2+]i due to PAR-1 activation from 167 +/- 10 nm to 87 +/- 6 nm. The PAR-2-mediated Delta[Ca2+]i decreased from 193 +/- 10 nm to 124 +/- 8 nm when phospholipase C activity was inhibited. Blockade of sphingosine kinase with dimethylsphingosine (1 microm) decreased the Delta[Ca2+]i due to PAR-2 activation from 149 +/- 19 nm to 67 +/- 1 nm, but did not influence the PAR-1-mediated Delta[Ca2+]i. PAR-1 and PAR-2 were localized in myenteric glia by immunolabeling. Our results indicate that PAR-1 and PAR-2 are present in myenteric glia of the guinea pig, and their activation leads to increases in intracellular calcium via different signal transduction mechanisms that involve activation of phospholipase C and sphingosine kinase.
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PMID:Presence of functionally active protease-activated receptors 1 and 2 in myenteric glia. 1239 May 17

In according with the mechanism for an adaptive response (AR) offered in [Bodnarchuk I.A.//Radiat. biologiya. Radioecologiya. 2002. V. 42. No. 1. P. 36-43], the low-dose irradiation of mammalian cells leads to the activation of such enzymes as Ras, ceramid-activated protein kinase, phospholipase C (PL C) and phosphatidilinostol 3-kinase (PI 3-K). All of them initiate apoptosis and eliminate the most radiosensitive cells form the population before the damaging irradiation. The function of PL C and PI 3-K accompanied by protein kinase C (PK C) activation. PK C activates transcription of the poly(ADP-ribose)polymerase (PARP) gene and DNA polymerase beta gene, and makes posttranslation activation of apurinic/apyrimidinic endonuclease APE, which are participating in the base excision repair (BER). PK C, APE and PARP activate the transcription factor p53, PK C and APE also activate the transcription factor AP-1, AP-1 and p53 take part in the initiation of nucleotide excision reapir (NER). The function of BER, NER and p53 after the damaging irradiation is accompanied by the G1-arrest of cell cycle progression. During G1-arrest there is p53-dependent activation of nonhomologous ends joining (NHEJ) and the inhibition of homologous recombination repair (HRR) of the DNA double-strand breaks takes place. Passing through the NHEJ the cells will outgo from G1-arrest and follow by HRR. AP-1 takes part in outgoing of cells from G1-arrest. So, the preliminary low-dose irradiation causes the decrease of quantity of cells died apoptotically after damaging irradiation as a result of inability to overcome G1-arrest. Thus, AR is the combination of processes: the removal of radiosensitive subpopulation of cells, and/or the activation of DNA repair, and/or the increase of cells ability to overcome the cell cycle delay.
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PMID:[Analysis of the role of DNA repair, regulation of cell cycle and apoptosis in the radiation-induced adaptive response of mammalian cells]. 1267 54

The unique signal transduction pathways that distinguish non-small cell lung carcinoma (NSCLC) from small cell lung carcinoma (SCLC) are poorly understood. We investigated the ability of edelfosine, an inhibitor of phosphatidylinositol-specific phospholipase C (PLC) to inhibit cell viability among four NSCLC cell lines and four SCLC cell lines. The differential sensitivity of cells to edelfosine's cytostatic and cytotoxic effects has been attributed to edelfosine-induced changes in the activities of many enzymes, including c-Jun NH2-terminal kinase (JNK), extracellular signal-regulated kinases (ERK), p38 kinase, and poly(ADP-ribose) polymerase (PARP). To investigate the role of these enzymes in edelfosine-induced cytotoxicity, we correlated edelfosine-induced changes in enzyme activity and cell viability among the different NSCLC and SCLC cell lines. We found that NSCLC cells are much more susceptible to the cytotoxic effects of this drug than are SCLC cells. Three out of the four edelfosine-sensitive NSCLC cell lines (NCI-H157, NCI-H520, NCI-H522) exhibit G2/M arrest, significant apoptosis and some degree of JNK activation in response to drug treatment. In contrast, none of the SCLC cell lines exhibit edelfosine-induced G2/M arrest or significant apoptosis. A comparison of the edelfosine-induced effects among the sensitive and resistant lung cancer lines indicates that there is little correlation between edelfosine-induced cytotoxicity and altered activities of JNK, ERK, p38, or cleavage of PARP. These results demonstrate that edelfosine-induced changes in JNK, ERK, p38, or PARP are not good predictors of cell susceptibility to edelfosine-induced cytotoxicity. Thus, edelfosine-induced inactivation of PLC may disrupt signaling cascades downstream of PLC that are unique to individual cellular environments. These findings also identify edelfosine as one of the few potential chemotherapeutic agents that has a greater cytotoxic effect against NSCLC cells than SCLC cells.
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PMID:Non-small and small cell lung carcinoma cell lines exhibit cell type-specific sensitivity to edelfosine-induced cell death and different cell line-specific responses to edelfosine treatment. 1285 88

Clostridium perfringens iota-toxin consists of two separate proteins identified as a cell binding protein, iota b (Ib), which forms high-molecular-weight complexes on cells generating Na(+)/K(+)-permeable pores through which iota a (Ia), an ADP-ribosyltransferase, presumably enters the cytosol. Identity of the cell receptor and membrane domains involved in Ib binding, oligomer formation, and internalization is currently unknown. In this study, Vero (toxin-sensitive) and MRC-5 (toxin-resistant) cells were incubated with Ib, after which detergent-resistant membrane microdomains (DRMs) were extracted with cold Triton X-100. Western blotting revealed that Ib oligomers localized in DRMs extracted from Vero, but not MRC-5, cells while monomeric Ib was detected in the detergent-soluble fractions of both cell types. The Ib protoxin, previously shown to bind Vero cells but not form oligomers or induce cytotoxicity, was detected only in the soluble fractions. Vero cells pretreated with phosphatidylinositol-specific phospholipase C before addition of Ib indicated that glycosylphosphatidyl inositol-anchored proteins were minimally involved in Ib binding or oligomer formation. While pretreatment of Vero cells with filipin (which sequesters cholesterol) had no effect, methyl-beta-cyclodextrin (which extracts cholesterol) reduced Ib binding and oligomer formation and delayed iota-toxin cytotoxicity. These studies showed that iota-toxin exploits DRMs for oligomer formation to intoxicate cells.
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PMID:Detergent-resistant membrane microdomains facilitate Ib oligomer formation and biological activity of Clostridium perfringens iota-toxin. 1503 42

Group I metabotropic glutamate (mGlu) receptors (i.e. mGlu1 and mGlu5) coupled to phospholipase C have been widely investigated for their possible role in excitotoxic and post-ischemic neuronal death. Recently, phospholipase C has been shown to directly stimulate the activity of poly(ADP-ribose) polymerase (PARP), a nuclear enzyme involved in DNA repair that has been proposed to play a key role in necrotic cell death. In this study, we investigated whether the stimulation of group I mGlu receptors leads to an increase in PARP activity, as detected by flow cytometry, immunodot blot and immunocytochemistry, both in baby hamster kidney cells transfected with mGlu1a or mGlu5a receptors and in cultured cortical cells. Our results show that the group I mGlu receptor agonist DHPG elicited a significant increase in PARP activity that was completely abolished by the administration of the mGlu1 antagonist 3-MATIDA and partially prevented, in cortical neurons, by the mGlu5 antagonist MPEP. To evaluate whether this pathway is involved in post-ischemic neuronal death, we used a sublethal model of oxygen-glucose deprivation in mixed cortical cell cultures. DHPG exacerbated neuronal death, and this effect was significantly prevented by the application of the PARP inhibitor DPQ. This novel pathway may contribute to the effects of mGlu1 receptors in the mechanisms leading to post-ischemic neuronal death.
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PMID:Group I metabotropic glutamate receptors stimulate the activity of poly(ADP-ribose) polymerase in mammalian mGlu1-transfected cells and in cortical cell cultures. 1602 54

Mono-ADP-ribosyltransferase (ART) 4 belongs to a family of ectoenzymes that catalyze the transfer of ADP-ribose from NAD+ to a target protein. ART4 could be detected on HEL cells and erythrocytes by FACS analysis while it was absent from activated monocytes, despite the presence of ART4 mRNA in these cells. The predicted glycosylphosphatidylinositol (GPI) linkage of ART4 could be verified by showing that treatment of erythrocytes, HEL cells and ART4-transfected HEK-293-T cells with phosphatidylinositol-specific phospholipase C results in a decrease in ART4 expression. Furthermore, an ART4 construct carrying an Ala285Val mutation that is critical for the formation of a GPI anchor failed to be expressed in transfected C-33A cells. Analysis of the gene structure revealed that the first of the three exons was at least 236 bp longer than previously published and that splicing occurred in the coding region of the mRNA from HEL cells and monocytes. When carrying out 5' inverse RACE-PCR we confirmed the existence of 5 ATGs in the 5' untranslated region (5'UTR). By deletion and site-directed mutagenesis of the ATGs, we showed that the first two ATGs impair translation and that both the 3rd and 5th ATG can be used for translation initiation after expression in C-33A cells. On analysis of the 3'UTR, which contains 2 adenylate/uridylate-rich elements (AREs), we detected one variant in monocytes that would be devoid of a GPI-anchor signal and thus could represent a secreted form of ART4. Thus, alternative splicing and the use of regulatory elements in the 5'UTR and 3'UTR represent means to control ART4 expression.
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PMID:Analysis of mono-ADP-ribosyltransferase 4 gene expression in human monocytes: splicing pattern and potential regulatory elements. 1614 Apr 4

Our previous studies indicated that Alzheimer's disease (AD) related amyloid beta peptide (Abeta) significantly altered muscarinic cholinergic receptor (mChR) signaling on the level of G protein regulated phospholipase C (PLC) leading to the lower formation of inositol-1,4,5-triphosphate (IP3) and diacylglycerol (DAG). Recent studies indicated that poly (ADP-ribose) polymerase-1 (PARP-1) is a new nuclear target in signal transduction pathway in the brain. In this study the effect of Abeta 25-35 (25 microM) and non-Abeta component of Alzheimer's disease amyloid (NAC, 10 microM) on mChR-dependent signaling to PARP-1 was determined. PARP-1 activity was estimated radiochemically using egzogenous substrate adenine[14C]NAD. The results showed that the non hydrolysable agonist of mChR, carbachol (1 mM) together with GTP(g)S (100 microM) stimulated PARP-1 activity in the hippocampus by about 100%. TMB-8, inhibitor of IP3 receptor decreased PARP-1 activation evoked by carbachol/GTP(g)S. Stimulation of mChR did not lead to free radicals generation but activate PARP-1 through IP3/Ca2+ regulated processes. This cholinergic receptor dependent PARP-1 activation was abolished by Abeta and NAC peptide. These toxic peptides themselves significantly stimulated PARP-1 activity by free radicals mediated DNA damage. These data indicated that Abeta and NAC peptide affected mChR-dependent signal transduction to PARP-1 probably through free radicals evoked inhibition of IP3 formation by phospholipase C.
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PMID:Alzheimer's disease related peptides affected cholinergic receptor mediated poly(ADP-ribose) polymerase activity in the hippocampus. 1624 7

ADP-ribosyltransferases (ARTs) are a family of enzymes that catalyze the covalent transfer of an ADP-ribose moiety, derived from NAD, to an amino acid of an acceptor protein, thereby altering its function. To date, little information is available on the protein target specificity of different ART family members. ART2 is a T-cell-specific transferase, attached to the cell surface by a glycosylphosphatidylinositol (GPI) anchor, and also found in serum. Here we investigated the role of ART2 localization in serum or on the cell surface, or solubilized with detergents or enzymes, on its target protein specificity. We found that detergent solubilization of cell membranes, or release of ART2 by phosphoinositide-specific phospholipase C treatment, altered the ability of ART2 to ADP-ribosylate high or low molecular weight histone proteins. Similarly, soluble recombinant ART2 (lacking the GPI anchor) showed a different histone specificity than did cell-bound ART2. When soluble ART2 was incubated with serum proteins in the presence of [32P]-labeled NAD, several serum proteins were ADP-ribosylated in a thiol-specific manner. Mass spectrometry of labeled proteins identified albumin and transferrin as ADP-ribosylated proteins in serum. Collectively, these studies reveal that the membrane or solution environment of ART2 plays a pivotal role in determining its substrate specificity.
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PMID:Substrate specificity of soluble and membrane-associated ADP-ribosyltransferase ART2.1. 1645 89

Epithelial cells lining human airways and cells recruited to airways participate in the innate immune response in part by releasing human neutrophil peptides (HNP). Arginine-specific ADP-ribosyltransferases (ART) on the surface of these cells can catalyze the transfer of ADP-ribose from NAD to proteins. We reported that ART1, a mammalian ADP-ribosyltransferase, present in epithelial cells lining the human airway, modified HNP-1, altering its function. ADP-ribosylated HNP-1 was identified in bronchoalveolar lavage fluid (BALF) from patients with asthma, idiopathic pulmonary fibrosis, or a history of smoking (and having two common polymorphic forms of ART1 that differ in activity), but not in normal volunteers or patients with lymphangioleiomyomatosis. Modified HNP-1 was not found in the sputum of cystic fibrosis patients or in leukocyte granules of normal volunteers. The finding of ADP-ribosyl-HNP-1 in BALF but not in leukocyte granules suggests that the modification occurred in the airway. Most of the HNP-1 in the BALF from individuals with a history of smoking was, in fact, mono- or di-ADP-ribosylated. ART1 synthesized in Escherichia coli, glycosylphosphatidylinositol-anchored ART1 released with phosphatidylinositol-specific phospholipase C from transfected NMU cells, or ART1 expressed endogenously on C2C12 myotubes modified arginine 14 on HNP-1 with a secondary site on arginine 24. ADP-ribosylation of HNP-1 by ART1 was substantially greater than that by ART3, ART4, ART5, Pseudomonas aeruginosa exoenzyme S, or cholera toxin A subunit. Mouse ART2, which is an NAD:arginine ADP-ribosyltransferase, was able to modify HNP-1, but to a lesser extent than ART1. Although HNP-1 was not modified to a significant degree by ART5, it inhibited ART5 as well as ART1 activities. Human beta-defensin-1 (HBD1) was a poor transferase substrate. Reduction of the cysteine-rich defensins enhanced their ability to serve as ADP-ribose acceptors. We conclude that ADP-ribosylation of HNP-1 appears to be primarily an activity of ART1 and occurs in inflammatory conditions and disease.
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PMID:ADP-ribosyltransferase-specific modification of human neutrophil peptide-1. 1662 71

The transient receptor potential (TRP) protein superfamily is a diverse group of voltage-independent calcium-permeable cation channels expressed in mammalian cells. These channels have been divided into six subfamilies, and two of them, TRPC and TRPM, have members that are widely expressed and activated by oxidative stress. TRPC3 and TRPC4 are activated by oxidants, which induce Na(+) and Ca(2+) entry into cells through mechanisms that are dependent on phospholipase C. TRPM2 is activated by oxidative stress or TNFalpha, and the mechanism involves production of ADP-ribose, which binds to an ADP-ribose binding cleft in the TRPM2 C-terminus. Treatment of HEK 293T cells expressing TRPM2 with H(2)O(2) resulted in Ca(2+) influx and increased susceptibility to cell death, whereas coexpression of the dominant negative isoform TRPM2-S suppressed H(2)O(2)-induced Ca(2+) influx, the increase in [Ca(2+)](i), and onset of apoptosis. U937-ecoR monocytic cells expressing increased levels of TRPM2 also exhibited significantly increased [Ca(2+)](i) and increased apoptosis after treatment with H(2)O(2) or TNFalpha. A dramatic increase in caspase 8, 9, 3, 7, and PARP cleavage was observed in TRPM2-expressing cells, demonstrating a downstream mechanism through which cell death is mediated. Inhibition of endogenous TRPM2 function through three approaches, depletion of TRPM2 by RNA interference, blockade of the increase in [Ca(2+)](i) through TRPM2 by calcium chelation, or expression of the dominant negative splice variant TRPM2-S protected cell viability. H(2)O(2) and amyloid beta-peptide also induced cell death in primary cultures of rat striatal cells, which endogenously express TRPM2. TRPM7 is activated by reactive oxygen species/nitrogen species, resulting in cation conductance and anoxic neuronal cell death, which is rescued by suppression of TRPM7 expression. TRPM2 and TRPM7 channels are physiologically important in oxidative stress-induced cell death.
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PMID:The role of TRP channels in oxidative stress-induced cell death. 1668 99

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