Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Bordetella pertussis TOX3201 has a 12-base-pair insertion in the S1 subunit gene of pertussis toxin (PTX), which encodes for a 4-amino-acid insertion between residues 107 and 108 of the mature S1 subunit (Black et al., Science 240:656-659, 1988). This mutant strain has been shown to secrete a holotoxin analog of PTX, designated CRM3201, with reduced ADP-ribosyltransferase activity. In the present study, we evaluated the biochemical, biological, and immunoprotective activities of purified CRM3201. Assay of enzymatic activities showed that CRM3201 had 20 to 30% of the ADP-ribosyltransferase activity and 55 to 60% of the NAD glycohydrolase activity of native PTX. CRM3201, however, had only 2 to 6% of the activity of PTX in clustering CHO cells, promoting leukocytosis, inducing histamine sensitization, and potentiating an anaphylactic response to bovine serum albumin. In contrast, activities associated with the B oligomer (binding to fetuin, hemagglutination of goose erythrocytes, and lymphocyte mitogen activity) were comparable to those of native PTX. Injection of BALB/c mice with CRM3201 mixed with Al(OH)3 elicited high titers of antibody to PTX (as measured by enzyme-linked immunosorbent assay), which neutralized a leukocytosis-promoting dose of PTX in these mice and neutralized PTX in a CHO cell assay. Passive transfer of the anti-CRM3201 antibody protected 20-day-old Swiss-Webster mice against a lethal aerosol challenge with B. pertussis 18323. Active immunization with CRM3201 significantly reduced lung colonization in adult BALB/c mice with a B. pertussis respiratory infection. These results demonstrate (i) that the reduced ADP-ribosyltransferase activity of CRM3201 is associated with reductions in certain biological and toxic activities of PTX (the enzymatic and biological activities are not, however, totally concordant); (ii) that CRM3201 possesses a functional B oligomer; and (iii) that CRM3201 can induce toxin-neutralizing antibodies which protect mice against a respiratory challenge with B. pertussis. Our studies with CRM3201 show that recombinant analogs of PTX have the potential to be developed into safe, protective immunogens for use in new acellular pertussis vaccines.
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PMID:Pertussis toxin analog with reduced enzymatic and biological activities is a protective immunogen. 211 44

Activated macrophages synthesize and release numerous tumoricidal soluble factors that can be divided into receptor- or nonreceptor-dependent agents. Tumor necrosis factor (TNF) would be an example of the former. In our experimental model the killing of EL4 thymoma cells by syngeneic activated macrophages involves, but not exclusively, TNF. Our results show that approximately 50% of the anti-EL4 activity expressed by macrophages can be specifically inhibited with rabbit anti-mouse TNF antibody. EL4 variants resistant to the lytic activity of TNF were still susceptible to macrophage-mediated lysis. A tumor-promoting phorbol ester, TPA, rendered TNF-sensitive and -insensitive EL4 cells resistant to M phi-mediated lysis. However, TPA down-regulated TNF-specific binding sites on both TNF-sensitive and -resistant cell surface membranes, suggesting that resistance to TNF involves postligand:receptor events. Tumor cell G-protein involvement (ADP-ribosylation), as a result of TNF-TNF receptor interactions, was investigated. The results showed that pertussis toxin was cytotoxic against TNF-sensitive and -resistant EL4 cells but not against TPA-treated target cells. Inhibitors of ADP-ribosyltransferase inhibited pertussis toxin cytotoxicity and macrophage-mediated lysis but did not interfere with recombinant TNF lytic activity.
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PMID:TPA induction of EL4 resistance to macrophage-released TNF: role of ADP-ribosylation in tumoricidal activities of TNF and other factors. 213 20

Kenimer et al. (J. G. Kenimer, J. Kim, P. G. Probst, C. R. Manclark, D. G. Burstyn, and J. L. Lowell, Hybridoma 8:37-51, 1989) identified three classes of monoclonal antibodies, termed A, B, and C, that recognize the S1 subunit of pertussis toxin. This report presents data demonstrating that class A monoclonal antibodies (3CX4, 6D11C, and 3C4D), which block the ADP-ribosyltransferase activity and recognize the predominant neutralizing epitope on the S1 subunit of the toxin, do not inhibit the NAD-glycohydrolase activity of the toxin. In addition, alkylation of cysteine 41 of the S1 subunit, which may interact with NAD, inactivates the toxin but does not prevent binding by class A antibodies. Taken together, these results support the conclusion that proper alterations of amino acids that interact with NAD should allow for inactivation of the toxin without destruction of the predominant neutralizing epitope. The class A antibodies recognized control but not heat-treated pertussis toxin spotted onto nitrocellulose, indicating that class A antibodies do not recognize denatured S1 subunit. In contrast, a nonneutralizing class C antibody (X2X5) failed to bind to control toxin or S1 subunit in solution and recognized heat-treated pertussis toxin better than control toxin when spotted onto nitrocellulose. Thus, this type of analysis presents a heterogeneous mixture of fully or partially denatured and native S1 proteins and fails to distinguish between neutralizing and nonneutralizing antibodies.
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PMID:Monoclonal antibodies that inhibit ADP-ribosyltransferase but not NAD-glycohydrolase activity of pertussis toxin. 215 82

The S1 subunit (Mr 28,000) of pertussis toxin expresses thiol-dependent enzymatic ADP-ribosyltransferase and NAD-glycohydrolase activities. Site-directed mutagenesis experiments were performed on the codon for Cys-41 of this subunit to investigate the role of this residue in both enzymatic activities. Deletion of Cys-41 caused a decrease in both activities below detectable levels, whereas replacement of this residue by serine, glycine, proline, or asparagine only slightly reduced the activities. The enzymatic activities of these mutants were thiol-independent. The deletion of Ser-40, adjacent to Cys-41, again caused reduction of the enzymatic activities to undetectable levels. Steady-state kinetic experiments showed that the kcat of the mutant protein in which Cys-41 was replaced by glycine was nearly identical to the kcat of the parent version. However, the Km for NAD of the mutant was significantly higher relative to that of the wild type version. These results indicate that the side-chain of Cys-41 is not essential for enzymatic activities and that Cys-41 is not involved in the rate of catalysis but is probably located at or close to the NAD-binding site. The introduction of a negative charge at position 41 through the replacement of Cys-41 by either aspartate or glutamate reduced the enzymatic activities to very low but measurable levels, suggesting a charge-charge repulsive interaction between these residues and possibly one or both of the phosphates of NAD. Cys-41 may therefore be located close to the phosphate subsite of the NAD-binding site.
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PMID:The role of cysteine 41 in the enzymatic activities of the pertussis toxin S1 subunit as investigated by site-directed mutagenesis. 215 32

The exotoxins of Bordetella pertussis and Vibrio cholera have been used to investigate signal transduction in the human T-cell lymphoma Jurkat. Stimulation of the cells, leading to an increase in cytoplasmic free calcium, could be achieved by the anti-T-cell receptor complex antibody OKT3 and by pertussis holotoxin (PTHT), or its B-subunit (PTB), but not by cholera holotoxin (CTHT) or its B-subunit (CTB). Both holotoxins ADP-ribosylated specifically G-proteins in the plasma membrane of intact cells, while their B-subunits had no ADP-ribosyltransferase activity. Incubation of the cells with CTHT led to a state of unresponsiveness to all stimulants. CTB was without any effect, indicating that the ADP-ribosyltransferase activity of cholera toxin (located in the A-subunit of the holotoxin) was necessary for the inhibition of cellular signalling. The inhibitory effect of cholera toxin on the pertussis toxin action was not due to a blockade of pertussis toxin interaction with the cell surface, because pertussis toxin was still able to ADP-ribosylate membrane proteins in cholera toxin treated intact cells. In addition, the cholera toxin mediated inhibition was not due to elevated levels of cyclic-AMP, as forskolin (a direct activator of the adenylate cyclase) and no inhibitory effect. The stimulating effect of PTHT was independent of its ADP-ribosyltransferase activity, because it could also be obtained by the B-subunit alone. In addition, the increase of cytoplasmic free calcium after stimulation by PTHT clearly preceded the ADP-ribosylation. Pre-treatment with PTHT, PTB or OKT3, led to a long lasting increase in the level of intracellular Ca2+ in Jurkat cells, which could not, therefore, be stimulated further. Inhibition by cholera holotoxin of the stimulation by OKT3 and pertussis toxin (PTHT and PTB) imply that the mitogenic effect of pertussis toxin is perhaps mediated via the T-cell antigen receptor signalling cascade. The presented data do not support the idea that a pertussis toxin-sensitive G-protein is involved in coupling the T-cell antigen receptor to the phospholipase C.
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PMID:Pertussis toxin B-subunit-induced Ca2(+)-fluxes in Jurkat human lymphoma cells: the action of long-term pre-treatment with cholera and pertussis holotoxins. 216 84

the introduction of two amino acid substitutions within the enzymatically active subunit S1 of pertussis toxin (PT) abolishes its ADP-ribosyltransferase activity and toxicity on CHO cells (Pizza et al., Science 246:497-500, 1989). These genetically inactivated molecules are also devoid of other in vivo adverse reactions typical of PT, such as induction of leukocytosis, potentiation of anaphylaxis, stimulation of insulin secretion, and histamine sensitivity. However, the mutant PT molecules are indistinguishable from wild-type PT in sodium dodecyl sulfate-polyacrylamide gel electrophoresis and maintain all the physical and chemical properties of PT, including affinity for toxin-neutralizing poly- and monoclonal antibodies. Either alone or stabilized with formaldehyde, PT mutants are able to induce high levels of neutralizing antibodies and to protect mice in a dose-dependent fashion against intracerebral challenge with virulent B. pertussis. These results clearly show that these genetically inactivated PT molecules are nontoxic but still immunogenic and justify their development as a component of a new, safer acellular vaccine against whooping cough.
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PMID:Characterization of genetically inactivated pertussis toxin mutants: candidates for a new vaccine against whooping cough. 232 18

Two distinct monoclonal antibodies, one to pertussis toxin subunit S2, called 9G8, and another to subunits S2 and S3, called 11E6, were generated from the hybridomas of myeloma SP2/0 and spleen cells of BALB/c mice immunized mainly with the subunit S234 complex. Binding ability of 9G8 and 11E6 to the subunits was confirmed by the enzyme-linked immunosorbent assay and immunoblotting analysis. Generation of 11E6 bound to both S2 and S3 might mean that there is common antigenicity between S2 and S3. Neutralizing activities of 9G8 and 11E6 on various biological activities of pertussis toxin, including ADP-ribosyltransferase and leukocytosis-promoting, islet-activating, permeability-increasing. Chinese hamster ovary (CHO) cell-clustering, and hemagglutinating activities, were compared with those of anti-S1 monoclonal antibodies 1B7 and 3F10, which were isolated and characterized in a previous study (H. Sato, A. Ito, J. Chiba, and Y. Sato, Infect. Immun. 46:422-428, 1984). 1B7 and 3F10 neutralized ADP-ribosyltransferase activity of pertussis toxin or S1, but 9G8 and 11E6 did not. 1B7 showed very potent neutralization against leukocytosis-promoting, islet-activating, permeability-increasing, and CHO cell-clustering activities of pertussis toxin, but 3F10 did not, although anti-ADP-ribosyltransferase activities of both antibodies were identical. 11E6 neutralized leukocytosis-promoting, islet-activating, CHO cell-clustering, and hemagglutinating activities but not permeability-increasing activity. 9G8 showed slight neutralization of leukocytosis-promoting and CHO cell-clustering activities. Specific activities of 1B7 and 11E6 in each neutralization test were higher than or almost comparable to those of polyclonal antibodies to pertussis toxin. The neutralizing mechanism of 1B7 and 11E6 in leukocytosis-promoting activity was compared. 11E6 seemed to interfere with the binding of pertussis toxin to receptors on mouse spleen cells.
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PMID:Effect of monoclonal antibody to pertussis toxin on toxin activity. 243 60

The enzymatic ADP-ribosyltransferase activity associated with the S1 subunit of pertussis toxin is considered to be responsible for its biological effects. Although pertussis toxin has no significant homology to other ADP-ribosylating toxins such as diphtheria toxin and Pseudomonas aeruginosa exotoxin A, the results presented in this paper show that, as for diphtheria toxin and exotoxin A, tryptophan and glutamic acid residues are essential for the enzymatic activities of pertussis toxin. Moreover, a structural motif can be identified around the critical glutamic acid residue. Chemical modification or site-directed deletion or replacement of Trp-26 abolishes ADP-ribosyltransferase and the associated NAD glycohydrolase activities. Both enzymatic activities are also abolished when Glu-129 is deleted or replaced by aspartic acid. Mutations at the Glu-106 position do not significantly reduce the enzymatic activities of the S1 subunit. The mutations do not affect the ability of the different S1 forms to be recognized by a variety of monoclonal antibodies, including neutralizing antibodies. Pertussis toxin containing a deletion or replacement of Trp-26, Glu-129, or both in the S1 subunit should thus be devoid of toxic activities without losing its reactivity with protective antibodies and, therefore, could be safely included in new generation vaccines against whooping cough.
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PMID:Identification of amino acid residues essential for the enzymatic activities of pertussis toxin. 247 88

Signal-transducing GTP-binding Proteins of Mammalian Heart and Lungs. Journal of Molecular and Cellular Cardiology (1989) 21 (Suppl I) 91-95. Three distinct G-proteins have been found in mammalian heart sarcolemma: Gi (alpha i = 40 kDa, beta = 36 kDa, and lambda less than 14 kDa), Gp (alpha p = 23 kDa, beta = 36 kDa, and lambda less than 14 kDa), and Gs (alpha s = 42 kDa). ADP-ribosylation of sarcolemmal alpha i by pertussis toxin (PT) or preincubation of sarcolemma with protein kinase C and PMA resulted in increased adenylate cyclase activity and blockade of GTP-dependent inhibition by carbachol whereas the GTP-dependent activating effect of isoproterenol on the adenylate cyclase was preserved. ADP-ribosylation of alpha i in sarcolemma by endogenous NADP-sensitive ADP-ribosyltransferase abolished the PT-induced ADP-ribosylation of alpha i. Gpp (NH)p attenuated the PT-induced ADP-ribosylation of alpha i and promoted the cholera toxin (CT)-induced ADP-ribosylation of alpha s. The CT-induced alpha s ADP-ribosylation was enhanced in the presence of heart cytosol. Soluble Gi- and Gs-proteins were identified in lung cytosol. The 40 kDa alpha i in membrane and soluble fractions was ADP-ribosylated by PT, while the soluble 42 kDa alpha s was ADP-ribosylated by CT in lung tissue. The ADP-ribosylation of soluble alpha i by PT-suppressed guanyl nucleotide binding to Gi. The apparent molecular mass of partially purified soluble Gi was 75 kDa.
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PMID:Signal-transducing GTP-binding proteins of mammalian heart and lungs. 249 81

It is well known that certain bacterial toxins, e.g. cholera and pertussis toxins, ADP-ribosylate eukaryotic regulatory proteins. They have become invaluable tools in the study of G protein-linked receptors. Less well appreciated is the fact that certain strains of Clostridium botulinum types C and D produce an ADP-ribosyltransferase, termed C3. This enzyme is structurally and functionally distinct from botulinum neurotoxins C1 and D. Its substrate is the 21 kDa GTP-binding protein rho. Klaus Aktories and Alan Hall explain why C3 is now an important tool in analysing the regulatory function of the ras-related protein rho.
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PMID:Botulinum ADP-ribosyltransferase C3: a new tool to study low molecular weight GTP-binding proteins. 251 41


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