EC:2.4.2.30 - FACTA Search

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Query: EC:2.4.2.30 (PARP)
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ADP-ribosylation factors (ARFs) are approximately 20-kDa guanine nucleotide-binding proteins that stimulate the ADP-ribosyltransferase activity of cholera toxin in vitro. Five different human ARFs have been identified by cDNA cloning. Northern analysis using ARF 3-specific oligonucleotides identified two mRNAs of 3.7 and 1.2 kilobases (kb). We report here the complete nucleotide sequence of the 3.7-kb ARF 3 mRNA derived from three overlapping cDNAs isolated from human hippocampus and fetal brain cDNA libraries, as well as the structure of human ARF 3 gene. Sequences of two overlapping genomic clones indicated that the ARF 3 gene spans approximately 18.3 kb and contains five exons and four introns. The conserved amino acid sequences involved in guanine nucleotide binding by ARF 3 are distributed among separate exons, as found in other GTP-binding protein genes. Translation initiates in exon 2 which includes the sequence GXXXXGK that probably participates in phosphate binding and GTP hydrolysis. The sequence DVGG in exon 3 coordinates binding of Mg2+ and the beta-phosphate of GDP. In the ARF 3 gene in contrast to those of other GTP-binding proteins, the sequence NKXD (which is thought to contribute to the specificity of interaction with the guanine ring) is divided between exons 4 and 5. The latter encodes the COOH-terminal 53 amino acids of ARF 3 and contains greater than 2500 base pairs of untranslated DNA. The sequence AATTAA is 19 bases 5' to the polyadenylation addition site of the 3.7-kb mRNA. Multiple transcription start sites were identified by primer extension and S1 and mung bean nuclease analyses. The 5'-flanking region of exon 1 contains neither a TATA nor a CAAT box, but is high in GC content (greater than 70%) and includes three potential Sp1-binding sites (GC box), consistent with the promoters described for several housekeeping genes. The 1.2-kb ARF 3 mRNA is shown to arise by use of an alternative polyadenylation signal (AACAAA) at nucleotide 1091 within the ARF 3 cDNA.
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PMID:Isolation and characterization of the human gene for ADP-ribosylation factor 3, a 20-kDa guanine nucleotide-binding protein activator of cholera toxin. 174 2

In bovine aortic smooth muscle, GTP-binding activity was equally distributed in the membrane and cytosol fractions. The most abundant GTP-binding proteins (G proteins) in each fraction were purified to near homogeneity and characterized. The most abundant G protein in the membrane fraction had a Mr value of about 22,000 (m22K G) as estimated on sodium dodecyl sulfate-polyacryl-amide gel electrophoresis (SDS-PAGE). m22K G and the human platelet smg p21, a ras p21 like G protein having the same effector domain as ras p21s, were eluted at the same retention time on C4 reversed-phase high performance liquid chromatography (HPLC). Moreover, m22K G was specifically recognized by an anti-smg p21 polyclonal antibody. m22K G was phosphorylated by cyclic AMP-dependent protein kinase with a stoichiometry of one phosphate/molecule of protein. The most abundant G protein in the cytosol fraction had a Mr value of about 21,000 (c21K G) as estimated on SDS-PAGE. c21K G was ADP-ribosylated by botulinum ADP-ribosyltransferase and about 0.4 mol of ADP-ribose was maximally incorporated into 1 mol of c21K G. c21K G and the bovine brain rhoA p21, another ras p21 like G protein, were eluted at the same retention time on C4 reversed-phase HPLC and migrated at the same position on two-dimensional gel electrophoresis. These results indicate that the major G proteins in the membrane and cytosol fractions of bovine aortic smooth muscle are smg p21 and rhoA p21, respectively. Possible roles of these G proteins in vascular smooth muscle are discussed.
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PMID:Small GTP-binding proteins in bovine aortic smooth muscle. 174 79

Ribosome-inactivating proteins (RIPs) are a group of proteins that inhibit protein synthesis in eucaryotic cells. While the biological effects have been well characterized, the underlying enzymatic mechanisms have not been elucidated until recently. Two different mechanisms have been identified. Plant and bacterial RIPs act as N-glycosidases. They cleave a single N-glycosidic bond between adenine and ribose at a specific nucleotide A-4324 of the 28S rRNA of the 60S ribosomal subunit. On the other hand, the fungal RIPs act as ribonucleases and cleave a single phosphodiester bond between G-4325 and A-4326 of the same rRNA, just one nucleotide away from the site of action of plant/bacterial RIPs. Other protein synthesis inhibitory proteins act by their ADP-ribosyltransferase activity which modify and thus inactivate elongation factor-2. Recently, some toxins have been shown to possess deoxyribonuclease activity which may also account for their toxicity.
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PMID:Minireview: enzymatic properties of ribosome-inactivating proteins (RIPs) and related toxins. 174 1

We have reported the purification and characterization of arginine-specific ADP-ribosyltransferase from hen liver nuclei [Tanigawa, Y. et al. (1984) J. Biol. Chem. 259, 2022-2029] and the DNA-dependent mono(ADP-ribosyl)ation of p33, an acceptor protein in the nuclei [Mishima, K. et al. (1989) Eur. J. Biochem. 179, 267-273]. In the present study, we obtained evidence that among various tissues and cells from chicken, polymorphonuclear cells, so-called heterophils, possess both the ADP-ribosyltransferase and p33 at high levels. Percoll density gradient centrifugation of the postnuclear fraction of the heterophils revealed the co-localization of ADP-ribosyltransferase with p33 in the granule fraction. The enzyme and p33 were purified approximately 219- and 3.77-fold, respectively, from postnuclear pellet fraction to apparent homogeneity. The properties of heterophil ADP-ribosyltransferase and p33 were compared with those of the liver enzyme and p33. The molecular mass of the heterophil enzyme was estimated by SDS-polyacrylamide gel electrophoresis to be 27.5 kDa. The enzyme activity was stimulated by a sulfhydryl agent and inhibited by lysolecithin, NaCl, and inorganic phosphate. The mono(ADP-ribosyl)ation of p33 was markedly enhanced by polyanion, such as DNA, RNA, or poly(L-glutamate). SDS-polyacrylamide gel electrophoretic analysis after limited trypsin proteolysis of p33s, purified from chicken heterophils and liver, showed much the same pattern. Thus, it appears that ADP-ribosyltransferase and p33 present in heterophils are identical to those in the liver, respectively. p33 is considered to be an in situ substrate for ADP-ribosyltransferase, since it was specifically mono(ADP-ribosyl)ated in permeabilized heterophils.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Arginine-specific ADP-ribosyltransferase and its acceptor protein p33 in chicken polymorphonuclear cells: co-localization in the cell granules, partial characterization, and in situ mono(ADP-ribosyl)ation. 176 68

The monoclonal antibody termed 1B7 neutralizes pertussis toxin in vivo in cell culture systems and can also passively protect mice from a challenge with live Bordetella pertussis (9). It has been suggested that most other independently derived neutralizing monoclonal antibodies recognizing the S1 subunit apparently recognize the same epitope as 1B7, and that the S1 subunit contains only one immunodominant protective epitope (1). These antibodies have been termed Class A antibodies (8) and inhibit the ADP-ribosyltransferase but not the NAD glycohydrolase activity of the toxin (7). We are testing the hypothesis that immunization with inactivated preparations of pertussis toxin that lead to protection are associated with the production of Class A antibodies. If true, then identification of Class A antibodies in sera might provide a serological correlate of protection. If false, then development of assays designed to detect the important protective antibodies are necessary. Our initial results suggest that Class A antibodies are not the predominant neutralizing antibody in mice immunized with vaccines containing formalin-treated pertussis toxin.
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PMID:Evaluation of antibodies elicited by immunization with pertussis toxin. 177 8

Pretreatment of rho protein purified from pig brain cytosol with EDTA (3 mM) for 10 min at 30 degrees C inhibited its ADP-ribosylation by Clostridium botulinum C3 ADP-ribosyltransferase by more than 90%. The EDTA effect was not caused by alteration of C3. GDP or GDP beta S present during the pretreatment period completely prevented the decrease in ADP-ribosylation with half-maximal and maximal effects at 3 and 300 microM, respectively. GTP or GTP gamma S were less efficacious in preventing the decrease in ADP-ribosylation, but were more potent (half-maximal and maximal effects at 0.1 and 3 microM, respectively). [32P]ADP-ribose incorporated in pig brain rho by C3 was de-ADP-ribosylated by the enzyme in the presence of nicotinamide and at low pH. Concomitantly, [32P]NAD was formed. The pH optima for ADP-ribosylation and de-ADP-ribosylation were pH 7.5 and 5.5, respectively. De-ADP-ribosylation was most efficient with nicotinamide, less effective with 3-acetylpyridine and not observed with 3-aminopyridine, 4-aminopyridine, 4-acetylpyridine and isonicotinic acid. As observed for the ADP-ribosylation, the de-ADP-ribosylation by C3 was maximal with the GDP-bound form of rho and blocked after EDTA treatment.
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PMID:ADP-ribosylation and de-ADP-ribosylation of the rho protein by Clostridium botulinum exoenzyme C3. Regulation by EDTA, guanine nucleotides and pH. 182 95

Membrane-associated tumor necrosis factor (TNF) and soluble TNF were compared as to their lytic activities, and as to the kinetics of their expression by macrophages activated with LPS and/or IFN-gamma in the presence or absence of cycloheximide. EL 4 tumor cells, resistant and sensitive to lysis by recombinant TNF or membrane-associated TNF (paraformaldehyde (PF)-fixed activated macrophages) were used as targets. In the presence of cycloheximide the TNF-resistant S-EL4 cells were lysed by both TNFs. PF-fixed macrophages was cytolytic after 1 hr activation but not after 3 or more hours of activation. Their activity was totally inhibited by anti-TNF antibodies and was a composite of transmembrane (integral) TNF and soluble TNF conjugated to macrophage membrane TNF receptors. Treatment of the macrophages with glycine pH 3.0 buffer dissociated the conjugated TNF without affecting the integral membrane TNF. When macrophages were activated with LPS +/- IFN-gamma in the presence of cycloheximide or activated just with IFN-gamma their activity after fixation with paraformaldehyde was no longer detected. Nonfixed macrophages under these conditions still remained cytotoxic. Tumor cell susceptibility to membrane-associated TNF activity, in contrast to recombinant (soluble) TNF, was greatly reduced in the presence of nicotinamide, an inhibitor of ADP-ribosyltransferase, suggesting that the mechanisms of lysis by these TNFs may be different. The lytic activity of both TNFs was found to be receptor-dependent in that tumor cells, whose TNF binding sites were "down-regulated" by TPA, were rendered resistant to lysis by both membrane-associated and soluble TNFs.
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PMID:Cytolytic activities of activated macrophages versus paraformaldehyde-fixed macrophages; soluble versus membrane-associated TNF. 183 87

A cosmid library was prepared from a partial BamHI digest of total DNA from Bacillus sphaericus SSII-1. Two hundred fifty Escherichia coli clones were screened for toxicity against larvae of the mosquito Culex quinquefasciatus. One toxic clone, designated pKF2, was chosen for further study. Two toxic subclones, designated pXP33 and pXP34, obtained by ligating PstI-derived fragments of pKF2 into pUC18, contained the same 3.8-kb fragment, but in opposite orientations. Sequence analysis revealed the presence of an open reading frame corresponding to a 100-kDa protein and the 3' end of a further open reading frame having significant homology to open reading frames of transposons Tn501 and Tn21. The sequence of the SSII-1 toxin was compared with those of known toxins and was found to show regional homology to those of ADP-ribosyltransferase toxins. The distribution of the toxin gene among other B. sphaericus strains was examined.
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PMID:Cloning, sequencing, and expression of a gene encoding a 100-kilodalton mosquitocidal toxin from Bacillus sphaericus SSII-1. 184 May 81

Trypsin digestion of pertussis toxin (PT) preferentially cleaved the S1 subunit at Arg-218 without detectable degradation of the B oligomer. The fragment produced, termed the tryptic S1 fragment, appears to remain associated with the B oligomer. Chymotrypsin digestion of PT also preferentially cleaved the S1 subunit without detectable degradation of the B oligomer. The chymotryptic S1 fragment possessed a slightly lower apparent molecular weight than the tryptic S1 fragment and was more accessible to the respective protease. Trypsin- and chymotrypsin-treated PT and PT required the presence of dithiothreitol and ATP for optimal enzymatic activity. Trypsin-treated PT showed approximately a 2-4-fold higher level of expression of ADP-ribosyltransferase and NAD-glycohydrolase activities than PT. Chymotrypsin-treated PT also exhibited approximately a 2-fold greater level of ADP-ribosyltransferase activity than PT. The observed increase in activity of protease-treated PT was due primarily to a shorter time for activation in PT mediated ADP-ribosylation of transducin. In addition, trypsin-digested PT possessed the same cytotoxic potential for Chinese hamster ovary cell clustering as PT. One possible role for the generation of a proteolytic fragment of the S1 subunit of PT would be to produce a catalytic fragment with increased efficiency for ADP-ribosylation of G proteins in vivo.
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PMID:Protease treatment of pertussis toxin identifies the preferential cleavage of the S1 subunit. 185 Jul 38

We have used site-directed insertion and point mutagenesis in an attempt to increase the cytotoxic potency and receptor-binding affinity of the diphtheria-toxin-related interleukin-2 (IL-2) fusion toxins. Previous studies have demonstrated that both the DAB486-IL-2 and DAB389-IL-2 forms of the fusion toxin consist of three functional domains: the N-terminal fragment-A-associated ADP-ribosyltransferase, the hydrophobic-membrane-associating domains, and the C-terminal receptor-binding domain of human IL-2. By insertion mutagenesis we have increased the apparent flexibility of the polypeptide chain between the membrane-associating domains and the receptor-binding domain of this fusion toxin. In comparison to DAB486-IL-2, the cytotoxic potency of the insertion mutants was increased by approximately 17-fold for high-affinity IL-2-receptor-bearing cell lines in vitro. Moreover, competitive displacement experiments using [125I]rIL-2 demonstrate that the increase in cytotoxic potency correlates with an increase in receptor-binding affinity for both the high and intermediate forms of the IL-2 receptor.
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PMID:Protein engineering of diphtheria-toxin-related interleukin-2 fusion toxins to increase cytotoxic potency for high-affinity IL-2-receptor-bearing target cells. 188 72

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