EC:2.4.2.30 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.4.2.30 (PARP)
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Pertussis toxin, a protein virulence factor produced by Bordetella pertussis, is composed of an A protomer and a B oligomer. The A protomer consists of a single polypeptide, termed the S1 subunit, which disrupts transmembrane signaling by ADP-ribosylating eukaryotic G-proteins. The B oligomer, containing five polypeptides, binds to cell receptors (most likely containing carbohydrate) and delivers the S1 subunit. Current knowledge suggests that expression of ADP-ribosyltransferase activity in target eukaryotic cells arises after 1) nucleotides and membrane lipids allosterically promote the release of the S1 subunit; and 2) the single disulfide bond in the S1 subunit is reduced by reductants such as glutathione. This model suggests conditions for the proper use of the toxin as an experimental reagent.
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PMID:Pertussis toxin and target eukaryotic cells: binding, entry, and activation. 161 92

Bordetella pertussis produces a protein virulence factor termed pertussis toxin. Many candidate pertussis vaccines are based on the rationale that an immune response that neutralizes the virulence activities of this toxin, which are thought to arise from its catalytic ADP-ribosyltransferase activity, would be beneficial. The report describes two methods that quantify the inhibition of this activity by human serum. One, termed a direct assay, involves an initial incubation of toxin with serum, a second incubation that activates the toxin, and a third incubation that measures the ADP-ribosyltransferase activity of the mixture. The other assay, termed a plate assay, involves immobilization of the toxin, exposure of the immobilized toxin to serum and washing of the plate, and then activation and assay of the toxin's ADP-ribosyltransferase activity. The plate assay may be more selective than the direct assay in terms of identifying antibodies that neutralize the toxin in vivo. Sera from controls, selected patients presenting with cough, and vaccinated infants were first analyzed by the direct assay. In contrast to sera from controls, sera from several of the patients and vaccinated infants strongly inhibited activity. Dose-response curves of inhibition were determined for samples from three vaccinated infants by both the direct and plate assays. One of the samples had a dose-response curve of a different shape and thus differed not only in titer but also in functional characteristics. A comparison of inhibition of ADP-ribosyltransferase activity and neutralization in a CHO cell assay indicated that there was incomplete agreement between the two assays. Taken together, these results indicate that measurement of inhibition of ADP-ribosyltransferase activity by human serum is practical and may be useful in the evaluation of responses to pertussis vaccines.
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PMID:Detection of antibodies inhibiting the ADP-ribosyltransferase activity of pertussis toxin in human serum. 162 52

Pertussis toxin (PT), an oligomeric exotoxin of Bordetella pertussis containing five dissimilar subunits, is considered to be an essential immunogen in acellular and component pertussis vaccines against whooping cough. A rapid single-step procedure for isolating PT subunits was developed using reverse-phase high-performance liquid chromatography. Recoveries of individual subunits were 75% (S1), 70% (S2), greater than 90% (S3), greater than 90% (S4), and 50% (S5), as judged by SDS-PAGE and amino acid analysis. Lyophilized subunits were solubilized in urea followed by step-wise dialysis to remove the urea. All subunits were inactive in histamine sensitization, lymphocytosis, and hemagglutination assays. However, purified S1 retained residual NAD-glycohydrolase and ADP-ribosyltransferase activity. A partially active holotoxin could be generated by mixing the five individual subunits. All subunits were immunogenic in rabbits and mice. Monospecific antisera raised in both animal species were able to neutralize the PT-mediated clustering of Chinese hamster ovary cells, but active immunization of mice with single subunits failed to protect them in the intracerebral challenge assay. These subunit preparations therefore retained neutralizing determinants, but did not contain protective epitopes.
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PMID:Purification and immunological characterization of HPLC-purified pertussis toxin subunits. 165 40

The monoclonal antibody termed 1B7 neutralizes pertussis toxin in vivo in cell culture systems and can also passively protect mice from a challenge with live Bordetella pertussis (9). It has been suggested that most other independently derived neutralizing monoclonal antibodies recognizing the S1 subunit apparently recognize the same epitope as 1B7, and that the S1 subunit contains only one immunodominant protective epitope (1). These antibodies have been termed Class A antibodies (8) and inhibit the ADP-ribosyltransferase but not the NAD glycohydrolase activity of the toxin (7). We are testing the hypothesis that immunization with inactivated preparations of pertussis toxin that lead to protection are associated with the production of Class A antibodies. If true, then identification of Class A antibodies in sera might provide a serological correlate of protection. If false, then development of assays designed to detect the important protective antibodies are necessary. Our initial results suggest that Class A antibodies are not the predominant neutralizing antibody in mice immunized with vaccines containing formalin-treated pertussis toxin.
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PMID:Evaluation of antibodies elicited by immunization with pertussis toxin. 177 8

Pertussis toxin (PT) is a major virulence factor of Bordetella pertussis, and also an important protective antigen. PT is an oligomeric A-B type toxin in which the S1 subunit has the ADP-ribosyltransferase activity whereas the B-oligomer mediates its binding to target cell receptors. To analyze the immunological properties of S1 and to generate probes to localize and characterize S1 functional domains, we synthesized four sets of peptides and peptide analogs corresponding to potentially critical regions of the S1 subunit. Two peptide-KLH conjugates were found to be capable of inducing PT-neutralizing antibodies in rabbits as judged by the CHO cell clustering assay. These peptides comprise residues 1-18 (N18-S1) and 121-138 (NAD-S1), respectively. Immunization with the unconjugated C-terminal peptide C35-S1 (residues 201-235) in the presence of Freund's adjuvant also elicited PT-neutralizing antibodies, indicating that the C-terminal region of S1 contains a potent functional T-helper cell epitope. Using truncated peptide analogs of N18-S1, we have demonstrated that the first three N-terminal residues are essential for inducing neutralizing antibodies. The NAD-S1 peptide elicited a neutralizing antibody response when coupled to KLH via its N-terminal end but not via its C-terminal residue. Identification of these B-cell neutralization epitopes represents a first step towards the rational design of a synthetic vaccine against whooping cough.
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PMID:Structural and functional analysis of the S1 subunit of pertussis toxin using synthetic peptides. 201 95

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

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

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

The structural gene of the S-1 subunit of pertussis toxin (rS-1) and the catalytic C180 peptide of the S-1 subunit (C180 peptide) were independently subcloned downstream of the tac promoter in Escherichia coli. Both constructions included DNA encoding for the predicted leader sequence of the S-1 subunit which was inserted between the tac promoter and the structural gene. E. coli containing the plasmids encoding for rS-1 and C180 peptide produced a peptide that reacted with anti-pertussis toxin antibody and had a molecular weight corresponding to that of the cloned gene; some degradation of rS-1 was observed. Extracts of E. coli containing plasmids encoding for rS-1 and the C180 peptide possessed ADP-ribosyltransferase activity. Subcellular fractionation showed that both rS-1 and the C180 peptide were present in the periplasm, indicating that E. coli recognized the pertussis toxin peptide leader sequence. The protein sequence of the amino terminus of the C180 peptide was identical to that of authentic S-1 subunit produced by Bordetella pertussis, which showed that E. coli leader peptidase correctly processed the pertussis toxin peptide leader sequence. Two single amino acid substitutions at residue 26 (C180I-26) and residue 139 (C180S-139) which were previously shown to reduce ADP-ribosyltransferase activity were introduced into the C180 peptide. C180I-26 possessed approximately 1% of the NAD-glycohydrolase activity of the C180 peptide, suggesting that tryptophan 26 functions in the interaction of NAD with the C180 peptide. In contrast, C180S-139 possessed essentially the same level of NAD-glycohydrolase activity as the C180 peptide, suggesting that glutamic acid 139 does not function in the interaction of NAD but plays a role in a later step in the ADP-ribosyltransferase reaction.
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PMID:Expression and secretion of the S-1 subunit and C180 peptide of pertussis toxin in Escherichia coli. 254 19

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