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)

Brefeldin A (BFA) is a fungal metabolite that exerts profound and generally inhibitory actions on membrane transport. At least some of the BFA effects are due to inhibition of the GDP-GTP exchange on the ADP-ribosylation factor (ARF) catalyzed by membrane protein(s). ARF activation is likely to be a key event in the association of non-clathrin coat components, including ARF itself, onto transport organelles. ARF, in addition to participating in membrane transport, is known to function as a cofactor in the enzymatic activity of cholera toxin, a bacterial ADP-ribosyltransferase. In this study we have examined whether BFA, in addition to inhibiting membrane transport, might affect endogenous ADP-ribosylation in eukaryotic cells. Two cytosolic proteins of 38 and 50 kDa were enzymatically ADP-ribosylated in the presence of BFA in cellular extracts. The 38-kDa substrate was tentatively identified as the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase. The BFA-binding components mediating inhibition of membrane traffic and stimulation of ADP-ribosylation appear to have the same ligand specificity. These data demonstrate the existence of a BFA-sensitive mono(ADP-ribosyl)transferase that may play a role in membrane movements.
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PMID:Stimulation of endogenous ADP-ribosylation by brefeldin A. 830 39

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

rho GDP dissociation inhibitor (GDI) is an inhibitory GDP/GTP exchange protein for a group of small GTP-binding proteins including at least rhoA p21, rhoB p21, rac1 p21, rac2 p21, and G25K. Microinjection of rho GDI into Swiss 3T3 cells made the cells round and refractile. This morphological change was accompanied by the disappearance of stress fibers. The rho GDI action was prevented by comicroinjection of rho GDI with the guanosine 5'-(3-O-thio)triphosphate (GTP gamma S)-bound form of rhoA p21, but not with the GTP gamma S-bound form of rhoA p21 lacking the C-terminal three amino acids, which was not post-translationally modified with lipids. The GTP gamma S-bound form of rac1 p21, the same form of G25K, the same form of smg p21B, or Ki-rasval12 p21 was ineffective. Microinjection of the bacterial ADP-ribosyltransferase C3 specific for rho p21 into Swiss 3T3 cells induced the similar changes of morphology and stress fibers. This C3 action was not prevented by comicroinjection of C3 with the GTP gamma S-bound form of rhoA p21, but was prevented by comicroinjection with the same form of a rhoA p21 mutant which was not ADP-ribosylated by C3. These results indicate that the rho GDI-rho p21 system regulates cell morphology presumably through the actomyosin system in Swiss 3T3 cells.
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PMID:Regulation of morphology by rho p21 and its inhibitory GDP/GTP exchange protein (rho GDI) in Swiss 3T3 cells. 841 55

Evidence is accumulating that rho p21, a ras p21-related small GTP-binding protein (G protein), regulates the actomyosin system. The actomyosin system is known to be essential for cell motility. In the present study, we examined the action of rho p21, its inhibitory GDP/GTP exchange protein (named rho GDI), its stimulatory GDP/GTP exchange protein (named smg GDS), and Clostridium botulinum ADP-ribosyltransferase C3, known to selectively ADP-ribosylate rho p21 and to impair its function, in cell motility (chemokinesis) of Swiss 3T3 cells. We quantitated the capacity of cell motility by measuring cell tracks by phagokinesis. Microinjection of the GTP gamma S-bound active form of rhoA p21 or smg GDS into Swiss 3T3 cells did not affect cell motility, but microinjection of rho GDI into the cells did inhibit cell motility. This rho GDI action was prevented by comicroinjection of rho GDI with the GTP gamma S-bound form of rhoA p21 but not with the same form of rhoA p21 lacking the C-terminal three amino acids which was not posttranslationally modified with lipids. The rho GDI action was not prevented by Ki-rasVal-12 p21 or any of the GTP gamma S-bound form of other small GTP-binding proteins including rac1 p21, G25K, and smg p21B. Among these small G proteins, rhoA p21, rac1 p21, and G25K are known to be substrates for rho GDI. The rho GDI action was not prevented by comicroinjection of rho GDI with smg GDS. Microinjection of C3 into Swiss 3T3 cells also inhibited cell motility. These results indicate that the rho GDI-rho p21 system regulates cell motility, presumably through the actomyosin system.
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PMID:Involvement of rho p21 and its inhibitory GDP/GTP exchange protein (rho GDI) in cell motility. 841 62

The effects of cholera toxin, a secretory product of Vibrio cholerae, result from ADP-ribosylation of the stimulatory guanine nucleotide-binding (Gs) protein of the adenylyl cyclase system. Cholera toxin A subunit (CTA) also uses agmatine, a simple guanidino compound, several proteins unrelated to Gs, and CTA itself as alternative ADP-ribose acceptors. The effects of toxin occur in the jejunum presumably at body core temperature. With agmatine as a model substrate, the optimal temperature for CTA-catalyzed ADP-ribosylation was 25-30 degrees C, and that for CTA-catalyzed auto-ADP-ribosylation was 20-25 degrees C. Both activities were significantly less at 37 degrees C, reflecting lower initial velocities, not heat-inactivation of the toxin. All the transferase activities of CTA are enhanced by ADP-ribosylation factors (ARFs), approximately 20-kDa guanine nucleotide-binding proteins that are ubiquitous in mammalian cells. Phospholipids and a soluble brain ARF, in a GTP-dependent manner, activated toxin NAD:agmatine ADP-ribosyltransferase activity; their simultaneous effect was maximal at physiological temperatures (approximately 37 degrees C). At lower temperatures, the stimulation by ARF was much less. There were similar effects on other toxin-catalyzed reactions, notably, the ADP-ribosylation of Gs alpha and the hydrolysis of NAD. Thus, host factors, such as ARF and phospholipid, synergistically increase cholera toxin activity at 37 degrees C and may be important in toxin action in the mammalian gut.
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PMID:Effects of temperature on ADP-ribosylation factor stimulation of cholera toxin activity. 842 66

Evidence is accumulating that the rho family, a member of the ras p21-related small GTP-binding protein superfamily, regulates cell morphology, cell motility, and smooth muscle contraction through the actomyosin system. The actomyosin system is also known to be essential for cytoplasmic division of cells (cytokinesis). In this study, we examined the action of rho p21, its inhibitory GDP/GTP exchange protein, named rho GDI, its stimulatory GDP/GTP exchange protein, named smg GDS, and botulinum ADP-ribosyltransferase C3, known to selectively ADP-ribosylate rho p21 and to impair its function, in the cytoplasmic division using Xenopus embryos. The sperm-induced cytoplasmic division of Xenopus embryos was not affected by microinjection into the embryos of either smg GDS or the guanosine-5'-(3-O-thio)triphosphate (GTP gamma S)-bound form of rhoA p21, one member of the rho family, but completely inhibited by microinjection of rho GDI or C3. Under these conditions, nuclear division occurred normally but the furrow formation, which was induced by the contractile ring consisting of actomyosin just beneath the plasma membrane, was impaired. Comicroinjection of rho GDI with the GTP gamma S-bound form of rhoA p21 prevented the rho GDI action. Moreover, the sperm-induced cytoplasmic division of Xenopus embryos was inhibited by microinjection into the embryos of the rhoA p21 pre-ADP-ribosylated by C3 which might serve as a dominant negative inhibitor of endogenous rho p21. These results indicate that rho p21 together with its regulatory proteins regulates the cytoplasmic division through the actomyosin system.
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PMID:Regulation of cytoplasmic division of Xenopus embryo by rho p21 and its inhibitory GDP/GTP exchange protein (rho GDI). 843 90

ADP-ribosylation factors (ARFs) are a family of approximately 20-kDa guanine nucleotide-binding proteins that stimulate the ADP-ribosyltransferase activities of cholera toxin in vitro and function in protein trafficking in vivo. The six cloned mammalian ARFs can be grouped into three classes based on size and sequence identity. ARF 2 is a class I ARF, whose approximately 2.6-kilobase mRNA exhibits species and tissue selective expression and is developmentally regulated in rat brain. Here we report the sequence, structure, and functional promoter region of the bovine ARF 2 gene, which was facilitated by constructing a composite cDNA. The ARF 2 cDNA, constructed from a partial cDNA clone and polymerase chain reaction-amplified fragments from reverse-transcribed poly(A)+ RNA, was approximately 2270 base pairs (bp) (minus the poly(A) tail). In the 3'-untranslated region, there are two potential polyadenylation signals, ATTAAA and AATAAA, at positions 1064 and 2232, respectively, and two ATTTA motifs, believed to signal mRNA degradation, at positions 2115 and 2165. The ARF 2 gene, represented in three overlapping genomic clones, spans approximately 20 kilobase pairs with five exons and four introns. Consensus sequences for guanine nucleotide-binding and GTP hydrolysis are in separate exons, except for the NKXD sequence, which is divided by intron 4. There are multiple transcriptional initiation sites. Transient transfection of embryonic trachea cells with deletion constructs defined the functional promoter region to be within 400 bp upstream of the most 5' site of transcription initiation. This 400-bp region lacks a TATA-like sequence but contains six inverted CCAAT boxes, four potential Sp1-binding sites, and a potential AP-2-binding site. Although the pattern of expression of ARF 2 is unique among the ARFs, the structures of the class I ARF genes are conserved among its members and across species.
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PMID:Characterization of the gene for ADP-ribosylation factor (ARF) 2, a developmentally regulated, selectively expressed member of the ARF family of approximately 20-kDa guanine nucleotide-binding proteins. 844 65

Cholera toxin and Escherichia coli heat-labile enterotoxin (LT) exert their effects on cells through ADP-ribosylation of guanine nucleotide-binding proteins. Both toxins consist of one A subunit, which is an ADP-ribosyltransferase, and five B (or binding) subunits. Their enzymatic activities are latent; activation requires reduction and proteolysis, resulting in a catalytically active A1 protein and a much smaller A2 protein. These ADP-ribosyltransferases are activated by GTP-dependent 20-kDa ADP-ribosylation factors or ARFs. To determine if proteolysis plus reduction is required for appearance of the ARF allosteric site as well as for catalytic activity, an inactive mutant of LT, LT(E112K), with replacement of glutamate by lysine at position 112 of its A subunit, was utilized as a competitor in cholera toxin ADP-ribosyltransferase assays containing limiting amounts of ARF. LT(E112K) required trypsinization and reduction to become a potent, concentration-dependent inhibitor. Inhibition was reversed by increasing concentrations of ARF. Reduction or trypsinization alone did not generate an inhibitory form of LT(E112K). These studies are consistent with the conclusion that the ARF site is not expressed in the latent toxin. Both trypsinization and reduction are required for expression of a functional ARF binding site as well as for catalytic activity.
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PMID:Interaction of ADP-ribosylation factor with Escherichia coli enterotoxin that contains an inactivating lysine 112 substitution. 845 9

Exoenzyme S (ExoS), which has been implicated as a virulence factor of Pseudomonas aeruginosa, catalyzes transfer of the ADP-ribose moiety of NAD+ to many eukaryotic cellular proteins. Its preferred substrates include Ras and several other 21- to 25-kDa GTP-binding proteins. ExoS absolutely requires a ubiquitous eukaryotic protein factor, termed FAS (factor activating ExoS), for enzymatic activity. Here we describe the cloning and expression of a gene encoding FAS from a bovine brain cDNA library and demonstrate that purified recombinant FAS produced in Escherichia coli activates ExoS in a defined cell-free system. The deduced amino acid sequence of FAS shows that the protein (245 residues, calculated molecular mass 27,743 Da) belongs to a highly conserved, widely distributed eukaryotic protein family, collectively designated as 14-3-3 proteins. Various functions have been reported for members of the 14-3-3 family, including phospholipase A2 activity and regulation of tyrosine hydroxylase, tryptophan hydroxylase, and, possibly, protein kinase C activities. Identification of FAS as a 14-3-3 protein establishes an additional function for this family of proteins--the activation of an exogenous ADP-ribosyltransferase. Elucidation of the precise role of FAS in activating ExoS will contribute to understanding the molecular mechanisms by which P. aeruginosa causes disease.
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PMID:The eukaryotic host factor that activates exoenzyme S of Pseudomonas aeruginosa is a member of the 14-3-3 protein family. 846 Jan 41

ADP-ribosylation factors (ARFs), a family of approximately 20-kDa guanine nucleotide-binding proteins that activate cholera toxin ADP-ribosyltransferase in vitro, have been implicated in intracellular protein trafficking and are thought to cycle between cytosolic and membrane compartments. Although isolated predominantly as soluble proteins, ARFs associate with membranes and phospholipids in a GTP-dependent manner. In contrast to other small GTP-binding proteins, ARFs are NH2 terminally myristoylated. Using a bacterial expression system, recombinant myristoylated and non-myristoylated human ARF5 were produced to investigate the role of myristoylation in its association with Golgi. The recombinant ARFs (myristoylated and non-myristoylated) exhibited similar biochemical activity as measured by GTP binding and in vitro activation of cholera toxin. Myristoylated ARF5, however, demonstrated a temperature- and GTP-dependent association with Golgi membranes, whereas non-myristoylated ARF did not bind to Golgi under any of the experimental conditions. These data indicate that myristoylation is necessary, although not sufficient, for membrane attachment, but is not necessary for activation of cholera toxin.
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PMID:Effect of myristoylation on GTP-dependent binding of ADP-ribosylation factor to Golgi. 846 39

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