EC:2.4.2.30 - FACTA Search

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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)

Ligand binding to the platelet-derived growth factor (PDGF) receptor initiates a complex and diverging cascade of signaling pathways. GTP-binding proteins with intrinsic GTPase activity (G-proteins) frequently link cell surface receptors to intracellular signaling pathways, but no close associations of the PDGF receptor and any small G-proteins, nor any such associations activated by ligand binding to the receptor have been previously reported. We demonstrate that a small GTP-binding protein binds specifically to the murine and human PDGF type-beta receptor. In response to PDGF-BB stimulation, there is an increase in the amount of labeled small G-protein associated with the PDGF type-beta receptor. The GTP-binding protein did not undergo ligand-induced association with a mutant receptor protein that was unable to bind ATP. Proteolytic cleavage analysis, together with two-dimensional separation techniques, identified the small G-protein specifically associating with the PDGF type-beta receptor after ligand binding as a member of the Rho family. This was confirmed by demonstration that the small G-protein coimmunoprecipitated by the anti-PDGF receptor antibody was a substrate for the ADP-ribosyltransferase C3 exoenzyme. Thus, the PDGF type-beta receptor may form a complex with one or more small G-proteins upon binding PDGF-BB, and the Rho small G-protein is likely to be an important component of the proteins making up the multimeric signaling complex of the PDGF type-beta receptor.
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PMID:A small GTP-binding protein, Rho, associates with the platelet-derived growth factor type-beta receptor upon ligand binding. 761 21

Rho protein (rho p21), a p21ras-related small guanine nucleotide binding protein, regulates cytoskeletal organization in a number of different types of cells. Evidence has indicated that Clostridium botulinum-derived ADP-ribosyltransferase (C3 exoenzyme) specifically ADP-ribosylates rho p21 at Asn41 and renders it functionally inactive. In this study, we examined the involvement of rho p21 in osteoclastic bone resorption using the C3 exoenzyme. When osteoclast-like multinucleated cells obtained from cocultures of mouse osteoblastic cells and bone marrow cells were placed on dentine slices, they formed ringed structures of podosomes containing F-actin (corresponding to the clear zone) within 8 hours. Many resorption pits were formed on dentine slices after culture for 24 hours. The C3 exoenzyme at 0.15-10 micrograms/ml added to the culture medium disrupted the ringed structure of podosomes in osteoclast-like cells in a dose-dependent manner. Correspondingly, pit formation by osteoclast-like cells on dentine slices was dose-dependently inhibited also by adding the C3 exoenzyme. Microinjection of the C3 exoenzyme into osteoclast-like cells placed on culture dishes completely disrupted the ringed podosome structure within 20 minutes. The amount of the rho p21 which was ADP-ribosylated by the C3 exoenzyme in vitro was much greater in purified osteoclast-like cells than in osteoblastic cells. Prior exposure of the purified osteoclast-like cell preparation to the C3 exoenzyme in vivo markedly decreased the amount of unribosylated rho p21. This indicated that the C3 exoenzyme incorporated into osteoclast-like cells effectively ADP-ribosylates rho p21 in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The small GTP-binding protein, rho p21, is involved in bone resorption by regulating cytoskeletal organization in osteoclasts. 767 48

The ADP-ribosyltransferase produced by a pathogenic strain of Bacillus cereus was purified to near homogeneity. The transferase is a 28,000 Da molecular mass enzyme with a pI of 10.3. The specific enzyme activity is 7.0 nmol of ADP-ribose min-1 mg-1 with a Km for NAD of 0.3 microM. Partial amino acid sequence analysis of the exoenzyme reveals no significant homology to Clostridium botulinum C3 nor to Clostridium limosum exoenzyme. The novel exoenzyme selectively modifies the small GTP-binding proteins of the Rho family presumably at the same acceptor amino acid (Asn-41) as determined for C3. Besides cellular Rho, recombinant RhoA and -B are substrates for the exoenzyme. However, recombinant Rac1 and CDC42, although belonging to the Rho family, are not modified. B. cereus exoenzyme was photolabeled with [carbonyl-14C]NAD resulting in inhibition of ADP-ribosyltransferase and NAD-glycohydrolase activity. A glutamic acid residue was identified as part of the NAD-binding site which corresponds to Glu-174 of C3. This glutamic acid is located in a domain which shows high homology with the C-terminal part of C3 exoenzyme, C. limosum exoenzyme, and Staphylococcus aureus EDIN and which probably represents the catalytic site of the transferases. The data indicate that B. cereus exoenzyme is a novel member of the family of C3-like ADP-ribosyltransferases which share the same substrate protein Rho and which have an identical highly conserved catalytic domain.
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PMID:Rho-ADP-ribosylating exoenzyme from Bacillus cereus. Purification, characterization, and identification of the NAD-binding site. 781 16

Enterotoxin A is one of the major virulence factors of Clostridium difficile, and the causative agent of antibiotic-associated pseudomembranous colitis. In cell culture (NIH-3T3, rat basophilic leukemia cells) toxin A inhibits Clostridium botulinum ADP-ribosyltransferase C3 (C3)-catalyzed ADP-ribosylation of the low molecular mass GTP-binding Rho proteins. Rho participates in the regulation of the microfilament cytoskeleton. Decrease in ADP-ribosylation of Rho occurs in a time- and concentration-dependent manner and precedes the toxin A-induced destruction of the actin cytoskeleton. Action of toxin A is not due to proteolytical degradation of Rho or to an inherent ADP-ribosyltransferase activity of toxin A. Toxin A-induced decrease in ADP-ribosylation is observed also in cell lysates and with recombinant RhoA protein. A heat stable low molecular mass cytosolic factor is essential for the toxin effect on Rho. Thus, the enterotoxin (toxin A) resembles the effects of the C. difficile cytotoxin (toxin B) on Rho proteins (Just, I., G. Fritz, K. Aktories, M. Giry, M. R. Popoff, P. Boquet, S. Hegenbath, and C. Von Eichel-Streiber. 1994. J. Biol. Chem. 269:10706-10712). The data indicate that despite different in vivo effects, toxin A and toxin B act on the same cellular target protein Rho to elicit their toxic effects.
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PMID:The low molecular mass GTP-binding protein Rho is affected by toxin A from Clostridium difficile. 788 50

The susceptibility of various lines of cultured cells to botulinum ADP-ribosyltransferase, known as C3 exoenzyme, was examined. Human neuroblastoma GOTO cells were most sensitive. The C3 exoenzyme caused a change in cell shape that involved extension of neurites. The exoenzyme evoked the outgrowth of neurites from chick ganglion as effectively as nerve growth factor, suggesting that C3 exoenzyme possesses neurotropic activity. Experiments with 125I-labeled enzyme revealed that C3 exoenzyme was rapidly incorporated into cells but the number of incorporated enzyme molecules was small. Once C3 exoenzyme had been incorporated, ADP-ribosylation of the substrate (Rho protein) in GOTO cells occurred immediately and rapidly reached a maximum level. However, some of Rho proteins remained unmodified even after induction of the change in morphology. These findings suggest that ADP-ribosylation by C3 exoenzyme is directly associated with the differentiation of GOTO cells but that other events may also participate in this process.
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PMID:Morphological effects, rate of incorporation, and the enzymatic action of botulinum ADP-ribosyltransferase, known as C3 exoenzyme, on human neuroblastoma GOTO cells. 796 71

Rho proteins are involved in the regulation of the assembly of the microfilamental cellular network and are known to be specific substrates for the ADP-ribosyltransferase C3 from Clostridium botulinum. Here, we studied the distribution of Rho and Rho-regulating proteins in extracts from various rabbit tissues. The highest amounts of [32P]ADP-ribosylated proteins were detected in cell extracts from lung and kidney. Compared to these tissues, 50-95% reduced labeling of Rho proteins was observed in extracts from liver, spleen, brain, heart and muscle. The level of the C3-mediated [32P]ADP-ribosylation of Rho did not correlate with the amount of RhoA proteins detected by Western analysis. The relative amounts of [32P]ADP-ribosylated proteins located in cytosolic or membrane fractions, respectively, depended on the type of tissue investigated, indicating a tissue-specific variation in the subcellular distribution of Rho proteins. The same was true for the complexation of Rho with other factors and the expression of diverse Rho species. In respect to Rho-regulating proteins, extracts from lung and brain contained the highest amounts of guanine nucleotide dissociation-inhibitor proteins (Rho-GDI). The association of Rho with Rho-GDI however showed tissue specificity and did not correlate with Rho-GDI amounts. The highest Rho-GAP (GAP = GTPase-activating protein) activities were observed in extracts from lung, kidney and spleen, the lowest ones in extracts from muscle and heart. In total, our data demonstrate tissue-specific differences in the expression of RhoA, [32P]ADP-ribosylated proteins and Rho-regulating factors, indicating a tissue-specific variation in the activity and regulation of Rho proteins.
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PMID:Tissue-specific variations in the expression and regulation of the small GTP-binding protein Rho. 803 1

Cytotoxic necrotizing factor type 2 (CNF2) produced by Escherichia coli strains isolated from intestinal and extraintestinal infections is a dermonecrotic toxin of 110 kDa. We cloned the CNF2 gene from a large plasmid carried by an Escherichia coli strain isolated from a lamb with septicemia. Hydropathy analysis of the deduced amino acid sequence revealed a largely hydrophilic protein with two potential hydrophobic transmembrane domains. The N-terminal half of CNF2 showed striking homology (27% identity and 80% conserved residues) to the N-terminal portion of Pasteurella multocida toxin. Methylamine protection experiments and immunofluorescence studies suggested that CNF2 enters the cytosol of the target cell through an acidic compartment and induces the reorganization of actin into stress fibers. Since the formation of stress fibers in eukaryotic cells involves Rho proteins, we radiolabeled these small GTP-binding proteins from CNF2-treated and control cells with a Rho-specific ADP-ribosyltransferase. The [32P]ADP-ribosylated Rho proteins from CNF2-treated cells migrated slightly more slowly in SDS/PAGE than did the labeled proteins from the control cells. This shift in mobility of Rho proteins in SDS/PAGE was also observed when CNF2 and the RhoA protein were coexpressed in E. coli. We propose that Rho proteins are the targets of CNF2 in mammalian cells.
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PMID:Cytotoxic necrotizing factor type 2 produced by virulent Escherichia coli modifies the small GTP-binding proteins Rho involved in assembly of actin stress fibers. 817 Sep 93

The highly homologous Rho proteins RhoA, RhoB and RhoC are low-molecular-mass GTP-binding proteins. They are selectively ADP-ribosylated by Clostridium botulinum ADP-ribosyltransferase C3 (C3 exoenzyme). The biological function of the Rho proteins is still unclear; there is evidence that they are involved in the regulation of the filamental network of cells. Here we report that C3 exoenzyme-like toxins ADP-ribosylate small GTP-binding proteins in bovine spermatozoa and inhibit sperm motility. These findings indicate that Rho proteins which reportedly regulate the microfilament system are basically involved in sperm motility.
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PMID:ADP-ribosylation of Rho proteins inhibits sperm motility. 822 22

Four monoclonal antibodies that inhibited ADP-ribosylation of 23 kDa protein(s) of ascidian eggs catalyzed by Clostridium botulinum ADP-ribosyltransferase C3 were produced. They also inhibited C3-catalyzed ADP-ribosylation of the 24 kDa protein of rat liver cytosol. By the immunoprecipitation technique, it was found that they recognized small GTP-binding proteins of ascidian eggs and mammalian brains, but did not interact with the rat brain activator of the ADP-ribosyltransferase reaction. The antibody can also immunoprecipitate recombinant Rho A irrespective as to whether the Rho A is the GDP-bound form or the GTPrS-bound form. Thus the antibodies are novel and useful tools in analyzing the physiological roles of the Rho family of GTP-binding proteins.
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PMID:Production of monoclonal antibodies that inhibit ADP-ribosylation of small GTP-binding proteins catalyzed by Clostridium botulinum ADP-ribosyltransferase C3. 840 81

Clostridium limosum ADP-ribosyltransferase modifies low molecular mass GTP-binding proteins of the Rho subtype family. Here we cloned and sequenced the gene of the transferase and expressed it in Escherichia coli. The gene encodes a protein of 250 amino acids (M(r) = 27,840), with a putative signal peptide of 45 amino acids, that shows about 60-65% identity with C3 transferases from Clostridium botulinum. The mature C. limosum transferase was expressed as a maltose-binding fusion protein in E. coli and purified to apparent homogeneity. To study the functional role of Glu174 of C. limosum transferase, which was recently photoaffinity-labeled with [carbonyl-14C]NAD [Jung, M., et al. (1993) J. Biol. Chem. 268, 23215-23218], two mutants E174D and E174Q were constructed by a polymerase chain reaction-based system. The E174D and E174Q mutants showed a dramatic decrease in kcat, but no major changes in Km,NAD. Furthermore, replacement of Glu174 by aspartic acid and glutamine largely reduced and completely blocked UV-induced incorporation of [carbonyl-14C]NAD into the transferase. The data indicate that Glu174 is an active site residue of C. limosum transferase.
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PMID:Active site mutation of the C3-like ADP-ribosyltransferase from Clostridium limosum--analysis of glutamic acid 174. 855 86

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