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)

Degranulation of neutrophils involves the differential regulation of the exocytosis of at least two populations of granules. Low molecular weight GTP-binding proteins (LMW-GBPs) have been implicated in the regulation of vesicular traffic in the secretory pathways of several types of cells. In the present study we identify distinct subsets of LMW-GBPs associated with the membranes of neutrophil-specific and azurophilic granules. Ninety-four percent of total [35S]guanosine 5'-(3-O-thio)triphosphate (GTP gamma S) binding activity was equally distributed between the plasma membrane and cytosol with the remaining 6% localized in the granules. In contrast, the cytosol contained only 10% of the total GTPase activity while the specific granules accounted for 13%. [alpha-32P]GTP binding to proteins transferred to nitrocellulose revealed LMW-GBPs in all fractions except the azurophilic granules. The specific granules contained three out of four bands which were found in the plasma membrane; these ranged from 20 to 23 kDa and all were resistant to alkaline extraction. Photoaffinity labeling with [alpha-32P]8-azido-GTP in the presence of micromolar Al3+ identified proteins of 25 and 26 kDa unique to azurophilic granules; these could not be labeled with [alpha-32P]8-azido-ATP and could be extracted by acidic but not alkaline pH. Botulinum C3-mediated [32P]ADP-ribosylation identified proteins of 16, 20, and 24 kDa both in plasma membranes and those of specific granules. An anti-ras monoclonal antibody, 142-24E5, recognized a 20-kDa protein localized to the plasma and specific granule membranes which could not be extracted by alkaline pH, was not a substrate for botulinum C3 ADP-ribosyltransferase, and was translocated from specific granules to plasma membrane after exposure of neutrophils to phorbol myristate acetate. We conclude that neutrophil-specific and azurophilic granules contain distinct subsets of LMW-GBPs which are uniquely situated to regulate the differential exocytosis of these two compartments.
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PMID:Low molecular weight GTP-binding proteins in human neutrophil granule membranes. 189 32

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

Escherichia coli heat-labile enterotoxins (LT) are responsible in part for "traveler's diarrhea" and related diarrheal illnesses. The family of LTs comprises two serogroups termed LT-I and LT-II; each serogroup includes two or more antigenic variants. The effects of LTs result from ADP ribosylation of Gs alpha, a stimulatory component of adenylyl cyclase; the mechanism of action is identical to that of cholera toxin (CT). The ADP-ribosyltransferase activity of CT is enhanced by 20-kD guanine nucleotide-binding proteins, known as ADP-ribosylation factors or ARFs. These proteins directly activate the CTA1 catalytic unit and stimulate its ADP ribosylation of Gs alpha, other proteins, and simple guanidino compounds (e.g., agmatine). Because of the similarities between CT and LTs, we investigated the effects of purified bovine brain ARF and a recombinant form of bovine ARF synthesized in Escherichia coli on LT activity. ARF enhanced the LT-I-, LT-IIa-, and LT-IIb-catalyzed ADP ribosylation of agmatine, as well as the auto-ADP ribosylation of the toxin catalytic unit. Stimulation of ADP-ribosylagmatine formation by LTs and CT in the presence of ARF was GTP dependent and enhanced by sodium dodecyl sulfate. With agmatine as substrate, LT-IIa and LT-IIb exhibited less than 1% the activity of CT and LT-Ih. CT and LTs catalyzed ADP-ribosyl-Gs alpha formation in a reaction dependent on ARF, GTP, and dimyristoyl phosphatidylcholine/cholate. With Gs alpha as substrate, the ADP-ribosyltransferase activities of the toxins were similar, although CT and LT-Ih appeared to be slightly more active than LT-IIa and LT-IIb. Thus, LT-IIa and LT-IIb appear to differ somewhat from CT and LT-Ih in substrate specificity. Responsiveness to stimulation by ARF, GTP, and phospholipid/detergent as well as the specificity of ADP-ribosyltransferase activity are functions of LTs from serogroups LT-I and LT-II that are shared with CT.
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PMID:Activation of Escherichia coli heat-labile enterotoxins by native and recombinant adenosine diphosphate-ribosylation factors, 20-kD guanine nucleotide-binding proteins. 190 92

The post-translational poly ADP-ribosylation of proteins by the nuclear enzyme poly(ADP-ribose) polymerase (EC 2.4.2.30) involves a complex pattern of ADP-ribose polymers. We have determined how this enzyme produces the various polymer size patterns responsible for altered protein function. The results show that histone H1 and core histones are potent regulators of both the numbers and sizes of ADP-ribose polymers. Each histone induced the polymerase to synthesize a specific polymer size pattern. Various other basic and/or DNA binding proteins as well as other known stimulators of poly(ADP-ribose) polymerase (spermine, MgCl2, nicked DNA) were ineffective as polymer size modulators. Testing specific proteolytic fragments of histone H1, the polymer number and polymer size modulating activity could be mapped to specific polypeptide domains. The results suggest that histones specifically regulate the polymer termination reaction of poly(ADP-ribose) polymerase.
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PMID:Regulation of poly(ADP-ribose) polymerase. Histone-specific adaptations of reaction products. 190 93

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

The ADP-ribosylation of actin is the pathobiochemical mechanism by which various clostridial toxins affect the eukaryotic target cell. The toxins are binary in structure and consist of a binding component and an enzyme component with ADP-ribosyltransferase activity. Probably endocytosis-mediated the binding component transfers the clostridial ADP-ribosyltransferase into the target cell, whereupon G-actin but not F-actin is ADP-ribosylated. The ADP-ribosylated actin is incapable of polymerization but binds to the barbed ends of actin filaments to inhibit polymerization of non-modified actin. Thereby the ADP-ribosylation of actin destroys the cellular architecture of the microfilament network. The ADP-ribosylating toxins are novel tools to study the physiological functions of actin.
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PMID:[ADP ribosylation of actin--a cytotoxic principle of bacterial toxins]. 190 78

An ubiquitous biochemical pathway known to synthesize nitric oxide (NO) from L-arginine has been identified in many cell types. Recent studies indicate that besides activating soluble guanylate cyclase NO is likely to have effects unrelated to the known signal transduction pathway. Activation of the soluble NO synthase stimulates an endogenous ADP-ribosylation of a predominant 39 kDa protein, known to be activated by NO releasing agents. This is demonstrated using the cytosolic fraction of rat cerebellum and HL-60 cells. The ADP-ribosylation is suppressed by the known NO synthase inhibitors N-nitro-L-arginine and N-methyl-L-arginine. These observations indicate that NO derived from its physiological precursor L-arginine activates an endogenous ADP-ribosyltransferase.
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PMID:L-arginine stimulates an endogenous ADP-ribosyltransferase. 190 40

Crude extracts from Artemia salina undeveloped embryos do not contain detectable elongation-factor-2 (EF2) kinase and endogenous ADP-ribosylating activities. Accordingly, EF2 purified from this source is an enzyme relatively free from phosphorylated and ADP-ribosylated forms. Endogenous ADP-ribosyltransferase activity appears only after purification of EF2. The affinities of EF2 and of ADP-ribosyl-EF2 for ribosomes from A. salina undeveloped embryos have been calculated by measuring the ability of the factors to inhibit the N-glycosidase activity of ricin on ribosomes.
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PMID:Elongation factor 2 from Artemia salina embryos and its affinity for ribosomes. 190 76

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


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