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)

Bovine brain microtubule protein, containing both tubulin and microtubule-associated proteins, undergoes ADP-ribosylation in the presence of [14C]NAD+ and a turkey erythrocyte mono-ADP-ribosyltransferase in vitro. The modification reaction could be demonstrated in crude brain tissue extracts where selective ADP-ribosylation of both the alpha and beta chains of tubulin and of the high molecular weight microtubule-associated protein MAP-2 occurred. In experiments with purified microtubule protein, tubulin dimer, the high molecular weight microtubule-associated protein MAP-2, and another high molecular weight mirotubule-associated protein which may be a MAP-1 species were heavily labeled. Tubulin and MAP-2 incorporated [14C]ADP-ribose to an average extent of approximately 2.4 and 30 mol of ADP-ribose/mol of protein, respectively. Assembly of microtubule protein into microtubules in vitro was inhibited by ADP-ribosylation, and incubation of assembled steady-state microtubules with ADP-ribosyltransferase and NAD+ resulted in rapid depolymerization of the microtubules. Thus, the eukaryotic enzyme can ADP-ribosylate tubulin and microtubule-associated proteins to much greater extents than previously observed with cholera and pertussis toxins, and the modification can significantly modulate microtubule assembly and disassembly.
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PMID:Microtubule protein ADP-ribosylation in vitro leads to assembly inhibition and rapid depolymerization. 173 82

We reported the purification and characterization of an arginine-specific ADP-ribosyltransferase and acceptor protein p33 in granules of chicken peripheral polymorphonuclear leukocytes (heterophils) [Mishima, K., Terashima, M., Obara, S., Yamada, K., Imai, K. & Shimoyama, M. (1991) J. Biochem. (Tokyo) 110, 388-394]. In the present study, we obtained evidence that chicken non-muscle beta/gamma-actin, skeletal muscle alpha-actin and smooth-muscle gamma-actin were ADP ribosylated by the heterophil ADP-ribosyltransferase. The stoichiometry of ADP-ribose incorporation into these actins was 1.2 mol, 1.0 mol and 2.0 mol ADP-ribose/mol of beta/gamma-actin, alpha-actin and gamma-actin, respectively. The optimal pH for the ADP ribosylation was at pH 8.5, with the respective actin. Km values for NAD were calculated to be 30 microM with beta/gamma-actin, 35 microM with alpha-actin and 20 microM with gamma-actin. The Km values for the actin isoforms were 15 microM for beta/gamma-actin, 2.5 microM for alpha-actin and 10 microM for gamma-actin. ADP ribosylation of actin inhibited its capacity to polymerize, as determined by the increase in fluorescence intensity with N-(1-pyrenyl)iodoacetamide-labelled actin. Filamentous actin (F-actin) polymerized with the respective actin isoform was also ADP ribosylated, although the extent of the modification of F-actin was lower than that of globular actin (G-actin). In situ ADP ribosylation of beta/gamma-actin was evidenced with chicken peripheral heterophils permeabilized with saponin. Thus, the endogenous ADP ribosylation of actin in the heterophils may be involved in the cellular processes such as phagocytosis, secretion and migration.
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PMID:ADP-ribosylation of actins by arginine-specific ADP-ribosyltransferase purified from chicken heterophils. 174 Jan 42

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

Two enzymatic activities of the nuclear enzyme poly(ADP-ribose) polymerase or transferase (ADPRT, EC 2.4.2.30), a DNA-associating abundant nuclear protein with multiple molecular activities, have been determined in HL60 cells prior to and after their exposure to 1 microM retinoic acid, which results in the induction of differentiation to mature granulocytes in 4-5 days. The cellular concentration of immunoreactive ADPRT protein molecules in differentiated granulocytes remained unchanged compared to that in HL60 cells prior to retinoic acid addition (3.17 +/- 1.05 ng/10(5) cells), as did the apparent activity of poly(ADP-ribose) glycohydrolase of nuclei. On the other hand, the poly(ADP-ribose) synthesizing capacity of permeabilized cells or isolated nuclei decreased precipitously upon retinoic acid-induced differentiation, whereas the NAD glycohydrolase activity of nuclei significantly increased. The nuclear NAD glycohydrolase activity was identified as an ADPRT-catalyzed enzymatic activity by its unreactivity toward ethenoadenine NAD as a substrate added to nuclei or to purified ADPRT. During the decrease in in vitro poly(ADP-ribose) polymerase activity of nuclei following retinoic acid treatment, the quantity of endogenously poly(ADP-ribosylated) ADPRT significantly increased, as determined by chromatographic isolation of this modified protein by the boronate affinity technique, followed by gel electrophoresis and immunotransblot. When homogenous isolated ADPRT was first ADP-ribosylated in vitro, it lost its capacity to catalyze further polymer synthesis, whereas the NAD glycohydrolase function of the automodified enzyme was greatly augmented. Since results of in vivo and in vitro experiments coincide, it appears that in retinoic acid-induced differentiated cells (granulocytes) the autopoly(ADP-ribosylated) ADPRT performs a predominantly, if not exclusively, NAD glycohydrolase function.
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PMID:Cellular regulation of ADP-ribosylation of proteins. IV. Conversion of poly(ADP-ribose) polymerase activity to NAD-glycohydrolase during retinoic acid-induced differentiation of HL60 cells. 184 25

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

When the homogenate prepared from immature rat testes was incubated with [32P]NAD, several proteins (90, 39 and 20 kDa) were ADP-ribosylated in the absence of bacterial toxins. This observation suggested the existence of an endogenous ADP-ribosyltransferase and substrates. The data that the digested product by phosphodiesterase of ADP-ribosylated 20 kDa protein was 5'-AMP suggested that 20 kDa protein was mono(ADP-ribosyl)ated. In addition, the mono(ADP-ribosyl)ation of 20 kDa protein was enhanced by guanine nucleotides such as GTP, GDP and GTP[gamma S], and decreased by the concentrations of 10 mM Mg2+. In contrast, the incorporation of ADP-ribose moiety from NAD to both 90 and 39 kDa proteins was not changed by guanine nucleotides. On the other hand, mono(ADP-ribosyl)ation of 20 kDa protein was not observed in the homogenate prepared from other tissues of the same rats. Furthermore, we found that mono(ADP-ribosyl)ation of 20 kDa protein was decreased with the maturation of the rats and that an endogenous mono(ADP-ribosyl)transferase and 20 kDa protein were located in the nuclei.
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PMID:Reduction of mono(ADP-ribosyl)ation of 20 kDa protein with maturation in rat testis: involvement of guanine nucleotides. 189 5

We have identified a guanidine group specific ADP-ribosyltransferase activity, capable of transferring an ADP-ribose group from NAD to a low molecular weight guanidine compound [p-(nitrobenzylidine)amino]guanidine and proteins such as histone and poly-L-arginine, in a variety of murine cell lines. The enzyme activity appears to be associated with an integral membrane protein of apparent molecular weight 30-33 kDa. Incubation of the viable cells in isotonic phosphate buffered saline with [32P]NAD results in the incorporation of label into cellular proteins. Dimethyl sulfoxide treatment of the cells downregulates the transferase activity as well as the ADP-ribosylation of cell proteins with extracellular NAD.
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PMID:Guanidine group specific ADP-ribosyltransferase in murine cells. 190 5

An arginine-specific ADP-ribosyltransferase, named ADP-ribosyltransferase A, was partially purified from human platelets using polyarginine as an ADP-ribose acceptor. When human platelet membranes were incubated with the transferase A in the presence of NAD+, Gs, a stimulatory guanine nucleotide-binding protein of the adenylate cyclase was specifically mono-ADP-ribosylated. ADP-ribose transfer to Gs by this enzyme was suppressed when membranes were pre-ADP-ribosylated by cholera toxin. Incubation of membranes with the transferase A resulted in activation of the adenylate cyclase system. This stimulatory effect of the transferase A on the adenylate cyclase system was inhibited by the presence of polyarginine. These results indicate a role of ADP-ribosyltransferase A in regulation of the adenylate cyclase system via endogenous mono-ADP-ribosylation of Gs.
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PMID:Mono-ADP-ribosylation of Gs by an eukaryotic arginine-specific ADP-ribosyltransferase stimulates the adenylate cyclase system. 190 36

We investigated the endogenous GTP-dependent ADP-ribosylation of the alpha-subunit of the stimulatory guanyl-nucleotide-binding protein (Gs alpha) concomitant with an increase of basal adenylyl cyclase activity in chicken spleen cell membranes. When these membranes were incubated with [adenylate-32P]NAD, there was significant incorporation of [32P]ADP-ribose into a 45-kDa acceptor protein in the membranes. This reaction was inhibited when 20 mM arginine was present during the incubation. When the membranes were incubated with unlabelled NAD, subsequent ADP ribosylation by cholera toxin was diminished significantly. Thus, chicken spleen cell membranes have the potential to endogenously ADP-ribosylate the arginine residue of Gs alpha. The endogenous ADP-ribosylation Gs alpha was enhanced by the addition of 0.1 mM GTP or 0.1 mM guanosine 5'-[gamma-thio]triphosphate (GTP[S]), but not 0.1 mM GDP, 0.1 mM ATP or 0.1 mM ADP. The endogenous GTP-dependent ADP-ribosylation of Gs alpha stimulated basal adenylyl cyclase activity. Furthermore, NAD-induced stimulation of basal adenylyl cyclase activity was suppressed, when the membranes were incubated with NAD in the presence of novobiocin, an inhibitor of arginine-specific ADP-ribosyltransferase. These data represent the first demonstration that a eukaryotic cell membrane contains an ADP-ribosyltransferase which can catalyze the endogenous GTP-dependent ADP-ribosylation of the arginine residue of Gs alpha and that this modification enhances basal adenylyl cyclase activity in the membrane. In light of this evidence, the possible control of basal adenylyl cyclase activity via endogenous GTP-dependent ADP-ribosylation in eukaryotic cells warrants further attention.
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PMID:Evidence for the endogenous GTP-dependent ADP-ribosylation of the alpha-subunit of the stimulatory guanyl-nucleotide-binding protein concomitant with an increase in basal adenylyl cyclase activity in chicken spleen cell membrane. 190 78

Previous studies of the S1 subunit of pertussis toxin, an NAD(+)-dependent ADP-ribosyltransferase, suggested that a small amino-terminal region of amino acid sequence similarity to the active fragments of both cholera toxin and Escherichia coli heat-labile enterotoxin represents a region containing critical active-site residues that might be involved in the binding of the substrate NAD+. Other studies of two other bacterial toxins possessing ADP-ribosyltransferase activity, diphtheria toxin and Pseudomonas exotoxin A, have revealed the presence of essential glutamic acid residues vicinal to the active site. To help determine the relevance of these observations to activities of the enterotoxins, the A-subunit gene of the E. coli heat-labile enterotoxin was subjected to site-specific mutagenesis in the region encoding the amino-terminal region of similarity to the S1 subunit of pertussis toxin delineated by residues 6 through 17 and at two glutamic acid residues, 110 and 112, that are conserved in the active domains of all of the heat-labile enterotoxin variants and in cholera toxin. Mutant proteins in which arginine 7 was either deleted or replaced with lysine exhibited undetectable levels of ADP-ribosyltransferase activity. However, limited trypsinolysis of the arginine 7 mutants yielded fragmentation kinetics that were different from that yielded by the wild-type recombinant subunit or the authentic A subunit. In contrast, mutant proteins in which glutamic acid residues at either position 110 or 112 were replaced with aspartic acid responded like the wild-type subunit upon limited trypsinolysis, while exhibiting severely depressed, but detectable, ADP-ribosyltransferase activity. The latter results may indicate that either glutamic acid 110 or glutamic acid 112 of the A subunit of heat-labile enterotoxin is analogous to those active-site glutamic acids identified in several other ADP-ribosylating toxins.
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PMID:Effect of site-directed mutagenic alterations on ADP-ribosyltransferase activity of the A subunit of Escherichia coli heat-labile enterotoxin. 190 25


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