EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

ADP-ribosylation factor (ARF) is a ubiquitous, highly conserved 21-kDa GTP-binding protein, first identified in animal cells as the cofactor required for the in vitro ADP-ribosylation of the stimulatory regulatory subunit of adenylate cyclase, Gs, by cholera toxin. As the relevance of this activity to in vivo function is unknown, we have taken advantage of the conserved nature of ARF to study its function in Saccharomyces cerevisiae. Yeast cells bearing an arf1 null mutation display a number of phenotypes suggesting a defect in the secretory pathway. Secreted invertase is only partially glycosylated, and there is a small internal accumulation of invertase. Genetic experiments revealed interactions between ARF1 and other genes known to be involved in the secretory pathway, including YPT1, which encodes a different GTP-binding protein. In accord with these genetic results, immunofluorescence and immunoelectron microscopy show that ARF protein is localized to the Golgi apparatus in mammalian cells, in particular to the cytosolic surface of predominantly cis-Golgi membranes. Together, these results indicate that ARF functions in intracellular protein transport to or within the Golgi apparatus, a role not predicted by the previous in vitro biochemical studies.
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PMID:ADP-ribosylation factor is functionally and physically associated with the Golgi complex. 210 1

The aim of the present study was to investigate whether or not alterations of Gs alpha can be detected with cholera toxin-induced ADP-ribosylation in myocardial membranes from patients with heart failure. Therefore, Gs alpha was radiolabeled by cholera toxin-catalzyed (32P)ADP-ribosylation with (32P)NAD as substrate. In membranes from left ventricular myocardium of six patients with dilated cardiomyopathy classified as NYHA IV and three samples from two non-failing donor hearts, labeling was too weak to allow detection of possible changes in the amount of Gs alpha. Therefore, the cytosolic small molecular weight G protein ARF (ADP-ribosylation factor), a cofactor for cholera toxin-induced ADP-ribosylation of Gs alpha, was partially purified from bovine cerebral cortex. ARF activity was quantified by its ability to enhance auto-ADP-ribosylation of cholera toxin A1-subunit. Gs alpha was identified by comparing the ADP-ribosylation patterns of myocardial membranes, membranes prepared from human leukemia (HL 60) and S 49 mouse lymphoma wild type cells (45 kDa-band present) with membranes of the Gs alpha-deficient S 49 variant cyc- (45 kDa-band missing). In the presence of ARF, specific radiolabeling of the Mr 45,000 subtype of Gs alpha was markedly enhanced. The amounts of Gs alpha as measured by cholera toxin-dependent (32P)-ADP-ribosylation in the presence of ARR were similar in failing and nonfailing human hearts. It is concluded that factors other than Gs alpha are responsible for the altered regulation of the adenylate cyclase complex in heart failure. Moreover, by enhancing cholera toxin-catalyzed ADP-ribosylation, endogenous ADP-ribosylation factor from bovine brain appears to be a useful tool to study Gs alpha even in tissues in which the labeling of Gs alpha is rather weak.
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PMID:Improvement of cholera toxin-catalyzed ADP-ribosylation by endogenous ADP-ribosylation factor from bovine brain provides evidence for an unchanged amount of Gs alpha in failing human myocardium. 210 80

When guanosine 5'-(3-O-[35S]thio)triphosphate (GTP gamma S)-binding activity was assayed in the particulate and cytosol fractions of human platelets, most activity was found in the particulate fraction. GTP-binding proteins (G proteins) were extracted from the particulate fraction by sodium cholate and purified by several column chromatographies. At least three G proteins with Mr values of about 21,000, 22,000, and 24,000 (21K G, 22K G, and 24K G, respectively) were separated in addition to the stimulatory (Gs) and inhibitory (Gi) regulatory GTP-binding proteins of adenylate cyclase. Among them, the amount of 22K G was more than 10-fold of those of other G proteins. 22K G was purified to near homogeneity and characterized. 22K G specifically bound GTP gamma S, GTP, and GDP, with a Kd value for GTP gamma S of about 50 nM. [35S]GTP gamma S binding to 22K G was inhibited by pretreatment with N-ethylmaleimide. 22K G hydrolyzed GTP to liberate Pi, with a turnover number of 0.01 min-1. 22K G was not copurified with the beta gamma subunits of Gs and Gi and was not recognized by the antibodies against the ADP-ribosylation factor for Gs and the ras protein. The peptide map of 22K G was different from those of the smg-25A and rho proteins, which we have purified from bovine brain membranes. 21K G was identified to be the c-ras protein, but 24K G was unidentified. These results indicate that there are multiple G proteins in platelet membranes and that a novel G protein (22K G) is a major G protein in platelets.
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PMID:Small molecular weight GTP-binding proteins in human platelet membranes. Purification and characterization of a novel GTP-binding protein with a molecular weight of 22,000. 249 85

Guanine nucleotide-binding (G) proteins are involved in several transmembrane signaling systems. Choleragen (cholera toxin) activates adenylate cyclase by catalyzing the ADP-ribosylation of Gs alpha, the stimulatory G protein of the cyclase system. This reaction is enhanced by another guanine nucleotide-binding protein termed ADP-ribosylation factor or ARF that was purified from bovine brain membranes [R. A. Kahn and A. G. Gilman, Journal of Biological Chemistry (1986) 261, 7906-7911]. It was recently found that this ARF also increases the NAD:agmatine and NAD:protein ADP-ribosyltransferase, NAD glycohydrolase and auto-ADP-ribosylation activities of the toxin. We have purified and characterized two soluble proteins from bovine brain that act in a similar fashion to enhance choleragen activity in each of these reactions. The membrane and soluble factors are all proteins of approximately 19 kDa that require GTP or GTP analogues for activity and are ADP-ribosylated by the toxin. The ARF proteins apparently interact directly with choleragen in a GTP-dependent fashion to increase its catalytic activity and thus are part of a G protein cascade through which the toxin activates adenylate cyclase. The physiological function of the ARF proteins, as well as their possible relationships to the ras oncogene products and/or the family of G proteins that includes Gs alpha, remains to be determined.
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PMID:Participation of a guanine nucleotide-binding protein cascade in cholera toxin activation of adenylate cyclase. 249 82

The ADP-ribosylation factor (ARF) is a member of the small molecular weight GTP-binding protein family and serves as the cofactor in the cholera toxin-catalyzed activation of the stimulatory regulatory subunit (Gs) of adenylate cyclase. Bovine Arf1 has been expressed at high levels and purified from bacteria. The recombinant Arf1 was compared with purified bovine brain Arf and shown to be nearly identical with respect to immunoblotting, guanine nucleotide binding, GTP hydrolysis, and cholera toxin cofactor activities. The only known chemical difference between the recombinant and brain proteins is the lack of myristic acid at the amino terminus of the expressed protein. The preparation of nucleotide-free Arf1 has allowed a more accurate determination of the binding constants for guanine nucleotides and revealed a significantly higher affinity for GDP than was previously determined. The effect of magnesium ions on nucleotide affinities was also determined and found to be quite different for the different guanine nucleotides. We have shown that GDP binds to the protein in the absence of magnesium, while GTP or guanosine 5'-O-(thiotriphosphate) can only bind to Arf1 in the presence of nanomolar (or higher) levels of the free metal. This characterization of the nucleotide binding and the ability to produce large amounts of a single species of ARF with full retention of a range of activities should greatly facilitate subsequent studies on the structure and function of ARF.
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PMID:Nucleotide binding and cofactor activities of purified bovine brain and bacterially expressed ADP-ribosylation factor. 251 88

A 40-kDa protein, in addition to the alpha-subunits of Gs (a GTP-binding protein involved in adenylate cyclase stimulation), was [32P]ADP-ribosylated by cholera toxin (CT) in the membranes of neutrophil-like HL-60 cells, only if formyl Met-Leu-Phe (fMLP) was added to the ADP-ribosylation mixture. The 40-kDa protein proved to be the alpha-subunit of Gi serving as the substrate of pertussis toxin, islet-activating protein (IAP). No radioactivity was incorporated into this protein in membranes isolated from HL-60 cells that had been exposed to IAP. Gi-alpha purified from bovine brain and reconstituted into IAP-treated cell membranes was ADP-ribosylated by CT plus fMLP. Gi-alpha was ADP-ribosylated by IAP, but not by CT plus fMLP, in membranes from cells that had been pretreated with CT plus fMLP. When membrane Gi-alpha [32P]ADP-ribosylated by CT plus fMLP or IAP was digested with trypsin, the radiolabeled fragments arising from the two proteins were different from each other. These results suggest that CT ADP-ribosylates Gi-alpha in intact cells when coupled fMLP receptors are stimulated and that the sites modified by two toxins are not identical. CT-induced and fMLP-supported ADP-ribosylation of Gi-alpha was favored by Mg2+ and allow concentrations of GTP or its analogues but suppressed by GDP. The ADP-ribosylation did not occur at all, even in the presence of ADP-ribosylation factor that supported CT-induced modification of Gs, in phospholipid vesicles containing crude membrane extract in which Gi was functionally coupled to stimulated fMLP receptors. Thus, Gi activated via coupled receptors is the real substrate of CT-catalyzed ADP-ribosylation. This reaction may depend on additional factor(s) that are too labile to survive the process of membrane extraction.
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PMID:Chemotactic peptide receptor-supported ADP-ribosylation of a pertussis toxin substrate GTP-binding protein by cholera toxin in neutrophil-type HL-60 cells. 251 94

The ADP-ribosylation factor (ARF) is the small (21 kb) GTP-binding protein required for the efficient cholera toxin-catalyzed ADP-ribosylation of purified Gs, the stimulating regulatory component of adenylate cyclase. Human ARF cDNA clones were obtained from a human cDNA library by cross-species hybridization with bovine ARF1, and the nucleotide and deduced amino acid sequences were determined. Comparison of the sequences of human and bovine ARF1 showed 90% identity at the nucleotide level and 100% identity at the amino acid level, demonstrating the highly conserved nature of the ARF protein. Using human ARF cDNA as the probe, we have detected ARF messenger RNA (approximately 2.2-2.3 kb) in a wide variety of human tissues and tumor cell lines.
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PMID:Molecular cloning, sequence analysis and mRNA expression of human ADP-ribosylation factor. 253 13

Choleragen activates adenylate cyclase by catalyzing, in the presence of NAD, the ADP-ribosylation of Gs alpha, the stimulatory guanyl nucleotide-binding protein of the cyclase system. Kahn and Gilman [Kahn, R. A. & Gilman, A. G. (1986) J. Biol. Chem. 261, 7906-7911] identified another guanyl nucleotide-binding protein termed ADP-ribosylation factor (ARF) that stimulated this reaction. It was proposed that the toxin substrate is an ARF-Gs alpha complex and that ARF may have a physiological role in regulation of Gs alpha activity. We have found that purified ARF from bovine brain enhances not only the ADP-ribosylation of Gs alpha but also Gs alpha-independent choleragen-catalyzed reactions. These are (i) ADP-ribosylation of agmatine, a low molecular weight guanidino compound; (ii) ADP-ribosylation of several proteins unrelated to Gs alpha; and (iii) auto-ADP-ribosylation of the toxin A1 peptide. These reactions, as well as the ADP-ribosylation of ARF itself, were stimulated by GTP or stable GTP analogues such as guanyl-5'-yl imido-beta gamma-diphosphate and guanosine 5'-O-[gamma-thio]triphosphate; GDP and guanosine 5'-O-[beta-thio]diphosphate were inactive. These observations are consistent with the conclusion that ARF interacts directly with the A subunit of choleragen in a GTP-dependent fashion thereby enhancing catalytic activity manifest as transfer of ADP-ribose to Gs alpha and other proteins, to the toxin A1 peptide, or to agmatine. It is tempting to speculate that ARF may be involved in regulating one or another of the ADP-ribosyltransferases found in animal cells.
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PMID:Enhancement of choleragen ADP-ribosyltransferase activities by guanyl nucleotides and a 19-kDa membrane protein. 311 Jul 84

Choleragen (cholera toxin) activates adenylate cyclase by catalyzing ADP-ribosylation of Gs alpha, the stimulatory guanine nucleotide-binding protein. It was recently found (Tsai, S.-C., Noda, M., Adamik, R., Moss, J., and Vaughan, M. (1987) Proc. Natl. Acad. Sci. U. S. A. 84, 5139-5142) that a bovine brain membrane protein known as ADP-ribosylation factor or ARF, which enhances ADP-ribosylation of Gs alpha, also increases the GTP-dependent NAD:arginine and NAD:protein ADP-ribosyltransferase, NAD glycohydrolase, and auto-ADP-ribosylation activities of choleragen. We report here the purification and characterization of two soluble proteins from bovine brain that similarly enhance the Gs alpha-dependent and independent ADP-ribose transfer reactions catalyzed by toxin. Like membrane ARF, both soluble factors are 19-kDA proteins dependent on GTP or GTP analogues for activity. Maximal ARF effects were observed at a molar ratio of less than 2:1, ARF/toxin A subunit. Dimyristoyl phosphatidylcholine was necessary for optimal ADP-ribosylation of Gs alpha but inhibited auto-ADP-ribosylation of the choleragen A1 subunit and NAD:agmatine ADP-ribosyltransferase activity. It appears that the soluble factors directly activate choleragen in a GTP-dependent fashion. The relationships of the ARF proteins to the ras oncogene products and to the family of guanine nucleotide-binding regulatory proteins that includes Gs alpha remains to be determined.
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PMID:Stimulation of choleragen enzymatic activities by GTP and two soluble proteins purified from bovine brain. 312 77

The ADP-ribosylation factor (ARF) is a 21-kDa GTP-binding protein cofactor in the cholera toxin-catalyzed ADP-ribosylation of the stimulatory regulatory subunit of adenylate cyclase. Purified bovine brain ARF was digested with cyanogen bromide, and peptides were purified and sequenced. Approximately 25-30% of the protein was sequenced in this manner. Peptides contained consensus sequences for GTP-binding proteins but were distinct from any of the previously published GTP-binding proteins. Antibodies were raised in rabbits against both protein and synthetic peptide fragments of ARF. Specific ARF immunoreactivity was detected in every eukaryotic tissue or cell examined, including yeast, slime mold, and man. No ARF immunoreactivity was observed when Escherichia coli proteins were tested. Immunoblotting revealed the majority of ARF to be present in the 100,000 x g supernatant. Immunological cross-reactivity with the cytosolic factor indicate that it and ARF are likely to be the same protein. ARF is shown to be myristylated at the amino terminus. The potential role of myristylation in cellular localization is discussed.
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PMID:Chemical and immunological characterization of the 21-kDa ADP-ribosylation factor of adenylate cyclase. 313 41

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