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)

The 97-kDa protein Mtx21, derived from the 100-kDa mosquitocidal protein (Mtx) from Bacillus sphaericus SSII-1 by the deletion of the putative signal sequence, was expressed as a fusion protein with glutathione S-transferase in Escherichia coli, and the fusion protein was purified by affinity chromatography. The fusion protein bound to glutathione agarose was cleaved with thrombin to release the Mtx21 protein. The 97-kDa Mtx21 protein was found to be toxic to Culex quinquefasciatus larvae with a 50% lethal concentration of 15 ng/ml. Treating Mtx21 with crude mosquito larval gut extracts gave rise to two major peptides of 70 and 27 kDa. Treating the 97-kDa Mtx21 protein with trysin also gave rise to a similar proteolytic cleavage pattern. N-terminal sequencing showed that the 27-kDa peptide was derived from the N-terminal region of the 97-kDa protein and that the 70-kDa protein was from the C-terminal region of the 97-kDa protein. The 27-kDa peptide has all the previously identified regions of homology with the catalytic peptides of the ADP-ribosyltransferase toxins, such as pertussis toxin S1 peptide, while the 70-kDa peptide has three internal regions of homology.
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PMID:Proteolytic processing of the mosquitocidal toxin from Bacillus sphaericus SSII-1. 135 68

We demonstrate the possibility of automation of whole-cell functionality assays, e.g., mitogen-activated DNA synthesis, DNA repair synthesis, and assessment of drug-metabolizing enzymes, by use of magnetic separation technology. We have attached antibody-coupled magnetic microspheres to the surface of human T-lymphocytes before performing various assays. Evaluating the biological functions of T-cells estimated by the DNA-synthesis assays showed that the presence of antibody-coupled magnetic microspheres did not affect the results (P greater than 0.05). The concentration of adenosine diphosphate ribosyltransferase (EC 2.4.2.30) was shown to be influenced by the magnetic microspheres. However, the amount of enzyme activity induced by oxidative stress was not significantly altered. The results from assays of the phase II drug-metabolizing enzymes glutathione transferase (EC 2.5.1.18) and epoxide hydrolase (EC 3.3.2.3) as well as evaluation of the proliferative response of polyclonal activators (phytohemagglutinin, staphylococcal enterotoxin A, and pokeweed mitogen) support our conclusion that assays can be performed on viable magnetized cells. The use of magnetized cells holds promise for further applications in automated genotoxic and immunological cell assays of mononuclear leukocyte subsets. Laboratory robotics will be essential in bringing these assays into routine use.
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PMID:Magnetically tagged subsets of human lymphocytes for assays with laboratory robotics. 211 12

An activator of rat brain phospholipase D (PLD) that is distinct from the already identified PLD activator, ADP-ribosylation factor (ARF), was partially purified from bovine brain cytosol by a series of chromatographic steps. The partially purified preparation contained a 22-kDa substrate for Clostridium botulinum C3 exoenzyme ADP-ribosyltransferase, which strongly reacted with anti-rhoA p21 antibody, but not with anti-rac1 p21 or anti-cdc42Hs p21 antibody. Treatment of the partially purified PLD-activating factor with both C3 exoenzyme and NAD significantly inhibited the PLD-stimulating activity. These results suggest that rhoA p21 is, at least in part, responsible for the PLD-stimulating activity in the preparation. Recombinant isoprenylated rhoA p21 expressed in and purified from Sf9 cells activated rat brain PLD in a concentration- and GTP gamma S (guanosine 5'-O-(3-thiotriphosphate))-dependent manner. In contrast, recombinant non-isoprenylated rhoA p21 (fused to glutathione S-transferase) expressed in Escherichia coli failed to activate the PLD. This difference cannot be explained by a lower affinity of non-isoprenylated rhoA p21 for GTP gamma S, as the rates of [35S]GTP gamma S binding were very similar for both recombinant preparations and the GTP gamma S-bound form of non-isoprenylated rhoA p21 did not induce PLD activation. Interestingly, recombinant isoprenylated rhoA p21 and ARF synergistically activated rat brain PLD; a similar pattern was seen with the partially purified PLD-activating factor. The synergistic activation was inhibited by C3 exoenzyme-catalyzed ADP-ribosylation of recombinant isoprenylated rhoA p21 in a NAD-dependent manner. Inhibition correlated with the extent of ADP-ribosylation. These findings suggest that rhoA p21 regulates rat brain PLD in concert with ARF, and that isoprenylation of rhoA p21 is essential for PLD regulation in vitro.
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PMID:Synergistic activation of rat brain phospholipase D by ADP-ribosylation factor and rhoA p21, and its inhibition by Clostridium botulinum C3 exoenzyme. 759 44

We made use of ADP-ribosylarginine hydrolase to detect arginine-ADP- ribosylated proteins. The hydrolase was expressed in Escherichia coli as a protein fused with glutathione S-transferase (GST). The fusion protein GST-ADP-ribosylarginine hydrolase catalyzed the hydrolysis of alpha-ADP-ribosylarginine to produce ADP-ribose and arginine. Casein ADP-ribosylated with [32P]NAD and chicken heterophil arginine-specific ADP-ribosyltransferase served as a substrate for the recombinant ADP-ribosylarginine hydrolase and the released ADP-ribose was determined. Protein ADP-ribosylated by cholera toxin could serve as substrate of the hydrolase but protein ADP-ribosylated by pertussis toxin, diphtheria toxin, or C(3) enzyme of Clostridium botulinum could not. The hydrolase did not release the radioactivity incorporated into isolated rat liver nuclei incubated with [(32)P]NAD or in bovine brain cytosol incubated with [(32)P]ADP-ribose. In homogenate of mouse heart which contained arginine-specific ADP-ribosyltransferase, labeling of a 55-kDa protein by incubation with [(32)P]NAD was removed by ADP-ribosylarginine hydrolase treatment; hence, the specific hydrolysis of ADP-ribose-arginine bond by GST-ADP-ribosylarginine hydrolase can be used to detect the arginine-ADP-ribosylated proteins in crude preparations. Arginine--ADP-ribosylated proteins in crude preparations. Arginine-ADP-ribosylated proteins in mouse spleen lymphocytes were identified using this method.
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PMID:Detection of arginine-ADP-ribosylated protein using recombinant ADP-ribosylarginine hydrolase. 867 89

Mono-ADP-ribosylation is a post-translational modification of proteins in which the ADP-ribose moiety of NAD is transferred to proteins and is responsible for the toxicity of some bacterial toxins (e.g. cholera toxin and pertussis toxin). NAD:arginine ADP-ribosyltransferases cloned from human and rabbit skeletal muscle and from mouse lymphoma (Yac-1) cells are glycosylphosphatidylinositol-anchored and have similar enzymatic and physical properties; transferases cloned from chicken heterophils and red cells have signal peptides and may be secreted. We report here the cloning and characterization of an ADP-ribosyltransferase (Yac-2), also from Yac-1 lymphoma cells, that differs in properties from the previously identified eukaryotic transferases. The nucleotide and deduced amino acid sequences of the Yac-1 and Yac-2 transferases are 58 and 33% identical, respectively. The Yac-2 protein is membrane-bound but, unlike the Yac-1 enzyme, appears not to be glycosylphosphatidylinositol-anchored. The Yac-1 and Yac-2 enzymes, expressed as glutathione S-transferase fusion proteins in Escherichia coli, were used to compare their ADP-ribosyltransferase and NAD glycohydrolase activities. Using agmatine as the ADP-ribose acceptor, the Yac-1 enzyme was predominantly an ADP-ribosyltransferase, whereas the transferase and NAD glycohydrolase activities of the recombinant Yac-2 protein were equivalent. The deduced amino acid sequence of the Yac-2 transferase contained consensus regions common to several bacterial toxin and mammalian transferases and NAD glycohydrolases, consistent with the hypothesis that there is a common mechanism of NAD binding and catalysis among ADP-ribosyltransferases.
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PMID:Cloning and characterization of a novel membrane-associated lymphocyte NAD:arginine ADP-ribosyltransferase. 870 12

Helix-loop-helix proteins constitute a family of transcription factors with the potential to form homo- and hetero-dimers mediated by the helix-loop-helix domain. Oncogenic mutations in such genes can disrupt the equilibrium of protein-protein interactions in the affected cell. In order to assess the biological consequences of such mutations, the full complement of interacting proteins must be known. To identify proteins interacting with the basic-helix-loop-helix domain of the ubiquitously expressed E47 protein, a 'sandwich'-screening procedure was developed which distinguishes between homo- and hetero-oligomers, and specifically excludes the detection of complexes which cannot bind DNA. Nine distinct cDNAs were identified which encode proteins with apparent basic-helix-loop-helix domains, including a novel clone termed eip1 which is distantly related in the basic-helix-loop-helix domain to the Drosophila enhancer-of-split m7 protein. Using epitope-tagging, interaction of E47 basic-helix-loop-helix protein with the eip1 protein encoded by this novel cDNA was confirmed by immunoprecipitation experiments in COS7 cells. Interaction was also observed in the yeast two-hybrid system. Three cDNAs encoding proteins without basic-helix-loop-helix domains were also found to interact in the sandwich-expression screen. Interactions with human PARP and mouse replication factor 1a were confirmed using glutathione transferase-tagged cDNAs. A cDNA encoding part of the nucleolin protein sequence interacted with the E47 basic-helix-loop-helix only when fused to a beta-galactosidase tag.
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PMID:Identification of interaction partners for the basic-helix-loop-helix protein E47. 905 Sep 88

Transfection of NMU (rat mammary adenocarcinoma) cells with NAD:arginine ADP-ribosyltransferase cDNAs from Yac-1 murine lymphoma cells or rabbit muscle increased NAD glycohydrolase and ADP-ribosyltransferase activities. The ADP-ribosyltransferase activity was released from transformed NMU cells by phosphatidylinositol-specific phospholipase C (PI-PLC) and hence glycosylphosphatidylinositol (GPI)-anchored, whereas the NAD glycohydrolase (NADase) activity remained cell-associated. By gel permeation chromatography, the size of the PI-PLC-released transferase was approximately 40 kDa and that of the detergent-solubilized NADase was approximately 100 kDa. Using polyclonal antibodies against rabbit muscle transferase on Western blots, approximately 18- and approximately 30-kDa band were visualized among proteins from the NADase fractions and 38-40-kDa bands with protein from the transferase fractions. Incubation of blots with [32P]NAD led to the incorporation of radioactivity into the immunoreactive transferase bands of 38 kDa and the immunoreactive NADase band of approximately 18 kDa. These data suggest that proteolysis of ADP-ribosyltransferase synthesized in transformed NMU cells might result in the formation of aggregates of an 18-kDa NAD glycohydrolase. A fusion protein with glutathione S-transferase linked to the amino terminus of Yac-1 transferase, from which the amino-terminal 121 amino acids had been deleted (GST-Yac-1-delta121), exhibited NADase, but not transferase, activity. The size of the recombinant fusion protein was similar to that of the proteolytic fragment seen in NMU cells transformed with transferase cDNA. These results are compatible with the conclusion that the NAD glycohydrolase activity was generated in NMU cells by proteolysis of ADP-ribosyltransferase, with release of a carboxyl-terminal fragment that possesses glycohydrolase but not transferase activity, i.e. the carboxyl-terminal portion of the transferase can exist as a catalytically active NADase.
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PMID:An 18-kDa domain of a glycosylphosphatidylinositol-linked NAD:arginine ADP-ribosyltransferase possesses NAD glycohydrolase activity. 908 12

Poly(ADP-ribose) polymerase (PARP) has been suggested to play a regulatory role in vivo, in DNA replication and/or DNA repair based mainly on its capacity to bind to DNA strand breaks. This interaction is modulated through auto poly(ADP-ribosylation). However, the biological function of PARP may also involve interactions with proteins such as topoisomerase I or DNA polymerase alpha, which may or may not be themselves ADP-ribosylated. Using the yeast two-hybrid method search for other proteins interacting with PARP, we have isolated a full-length cDNA clone coding for a protein of 158 amino acid residues. This amino acid sequence is 66 and 56% identical to yeast ubiquitin-conjugating enzymes Hus5 and Ubc9 of Schizosaccharomyces pombe and Saccharomyces cerevisiae, respectively. Moreover, we have demonstrated that the expressed protein complements a S. cerevisiae yeast strain deficient for Ubc9. The protein encoded by the isolated cDNA is thus a new human counterpart of the ubiquitin-conjugating enzyme family and has been called hUbc9. The hubc9 gene locus has been assigned to the chromosomal location 16p13.2-p13.3. By means of two-hybrid analysis it was discovered that hUbc9 interacts with the automodification domain of PARP. This interaction was further confirmed using GST (glutathione-S-transferase) tagged fusion proteins: (i) in vivo, by transfecting cos7 cells with hUbc9 cloned in an eukaryotic expression vector, and (ii) in vitro, by mixing purified PARP with hUbc9 purified and expressed in bacteria. The possible significance and function of this interaction is discussed while taking into account the possible intracellular role of hUbc9.
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PMID:Poly(ADP-ribose) polymerase interacts with a novel human ubiquitin conjugating enzyme: hUbc9. 919 46

mRNA from human polymorphonuclear neutrophil leucocytes (PMNs) was probed with cDNA encoding human skeletal muscle arginine-specific ADP-ribosyltransferase (ART1). A single 2.6-kb transcript was identified, which was similar in size to that observed in human skeletal muscle RNA. An 872-bp cDNA fragment, corresponding to the amino acid sequence of the processed human skeletal muscle enzyme, was generated by reverse transcription-PCR amplification of RNA from human PMNs, and was found to be identical to the ART1 cDNA derived from human skeletal muscle. ART1 was expressed as a fusion protein with glutathione S-transferase (GST) in insect cells, and antibodies were raised against the fusion protein in a rabbit. Following removal of GST immunoreactivity by immunoprecipitation, these antibodies were used to measure the abundance of immunoreactive ART1 on the surface of PMNs. Exposure of PMNs to formyl-Met-Leu-Phe (FMLP) was followed by a rapid increase in the abundance of cell surface ART1 (T1/2 = 1.9 min), and the concentration of FMLP for half-maximum response was 28.6 nM. Similar responses were observed after exposure of the cells to platelet-activating factor or interleukin-8, and we conclude that some of the effects of these chemotaxins are mediated by translocation of an intracellular pool of ART1 to its site of catalytic activity on the outer aspect of the plasma membrane.
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PMID:Chemotaxin-dependent translocation of immunoreactive ADP-ribosyltransferase-1 to the surface of human neutrophil polymorphs. 1009 75

In this study, both NIH3T3 and Bcl-2 transfected NIH3T3 cells were examined for their propensity to undergo nitroso compound-induced apoptosis. Bcl-2-expressing NIH3T3 prevented N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)- and S-nitrosoglutathione (GSNO)-induced apoptosis as compared with the control NIH3T3 cells. Flow cytometry revealed that NIH3T3 cells treated with MNNG undergo apoptotic death, which occurred after G2-M arrest in the second cycle of cell proliferation. The mechanism of MNNG-induced NIH3T3 cells apoptosis was observed throughout the activation of caspase-3 protease, PARP degradation and cytochrome c release; it was independent of p53 activation. Glutathione-S-transferanse pi (GST pi) is activated through the transcription activation of antioxidant response element (ARE) during MNNG- and GSNO-induced cell apoptosis. Moreover, overexpression of Bcl-2 in NIH3T3 cells can prevent these features of cell death. Furthermore, both MNNG- and GSNO-induced apoptosis of NIH3T3 cells were accompanied with a decrease in the level of glutathione (GSH); whereas Bcl-2 overexpression led to an increase in total cellular glutathione. MNNG was metabolized rapidly to nitric oxide that reacted with glutathione under the catalysis of GSH transferase in NIH3T3 cell to form GSNO. In short, the production of GSNO in cells was found capable of apoptosis initiation while the overexpression of Bcl-2 can prevent MNNG-mediated cell apoptosis through the elevation of glutathione levels.
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PMID:Suppression of N-methyl-N'-nitro-N-nitrosoguanidine- and S-nitrosoglutathione-induced apoptosis by Bcl-2 through inhibiting glutathione-S-transferase pi in NIH3T3 cells. 1059 28

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