UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Information available at present documents the existence of three well-defined classes of guanine nucleotide binding proteins functioning as signal transducers: Gs and Gi which stimulate and inhibit adenylate cyclase, respectively, and transducin which transmits and amplifies the signal from light-activated rhodopsin to cGMP-dependent phosphodiesterase in ROS membranes. Go is a fourth member of this family. Its function is the least known among GTP binding signal transducing proteins. The family of G proteins has a number of properties in common. All are heterotrimers consisting of three subunits, alpha, beta, and gamma. Each of the subunits may be heterogeneous depending on species and tissue of origin and may be posttranslationally modified covalently. The alpha subunits vary in size from 39 to 52 kDa. The sequences for Gs alpha and transducin alpha have 42% overall homology and those of Gi alpha and Gs alpha 43%, whereas those of Gi alpha and transducin alpha have a higher degree (68%) of homology. All alpha subunits bind guanine nucleotides and are ADP-ribosylated by either pertussis toxin (Gi, transducin, Go) or cholera toxin (Gs, Gi, transducin). Thus, transducin and Gi, which have the highest degree of sequence homology, are also ADP-ribosylated by both toxins. The beta subunits have molecular weights of 36 and 35 kDa, respectively. While Gs, Gi, and Go contain a mixture of both, transducin contains only the larger (36-kDa) beta-polypeptide. The relationship of the 36- and the 35-kDa beta subunits is not defined. Although the complete sequence of the 36-kDa beta subunit of transducin has been deduced from the cDNA sequence, complete sequences of other beta subunits are not yet available so that detailed comparisons cannot be made at present. However, the proteolytic profiles of each class of the beta subunits of different G proteins are indistinguishable. The gamma subunit of bovine transducin has been completely sequenced. It has a Mr of 8400. Again complete sequences of other gamma subunits are not yet available. While the gamma subunits of Gs, Gi, and Go have identical electrophoretic mobility in SDS gels, they differ significantly in this respect from the gamma subunit of transducin. Moreover, crossover experiments point to functional differences between gamma subunits from G protein and transducin complexes. In addition, a role for beta, gamma in anchoring guanine nucleotide binding proteins to membranes has been postulated.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structural and functional relationships of guanosine triphosphate binding proteins. 313 54

In the present study, the predominant pertussis toxin substrate in rabbit neutrophils, Gn, was biochemically compared to Gi and Go purified from brain, after being [32P]ADP-ribosylated by activated pertussis toxin and [32P]NAD. On SDS-polyacrylamide gels, a poorly resolved doublet from neutrophil membranes was observed; the upper band, corresponding to approximately equal to 25% labeling, comigrated with Gi-alpha and the predominant lower band, Gn, migrated intermediately between Gi-alpha and Go-alpha. Peptide maps generated by limited-digestion of the labeled Gn, Gi and Go with S. aureus V8 protease were slightly, but definitively and reproducibly different. Isoelectric focusing clearly distinguished Gn from the other two pertussis toxin substrates. The pI value of Gn, 5.60, was distinctly different from those of Gi, 5.75 and 5.80. Although the pI values for Go and Gn were similar (5.60), the patterns of the two proteins were qualitatively different, with Go being resolved into an equal doublet (pI = 5.55 and 5.60) while Gn appeared predominantly as a single band. Thus, Gn is biochemically distinguishable from Gi and Go of brain and these structural differences are most clearly evident following isoelectric focusing.
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PMID:Biochemical discrimination of the predominant pertussis toxin substrate of rabbit neutrophils from brain Gi and Go: isoelectric focusing improves resolution of pertussis toxin substrates. 313 99

The acute in vitro effects of ethanol on cerebral cortical adenylate cyclase activity and beta-adrenergic receptor characteristics suggested a site of action of ethanol at Gs, the stimulatory guanine nucleotide binding protein. After chronic ethanol ingestion, the beta-adrenergic receptor appeared to be uncoupled (i.e., the form of the receptor with high affinity for agonist was undetectable), and stimulation of adenylate cyclase activity by isoproterenol or guanine nucleotides was reduced, suggesting an alteration in the properties of Gs. To further characterize this change, cholera and pertussis toxin-mediated 32P-ADP-ribosylation of mouse cortical membranes was assessed in mice that had chronically ingested ethanol in a liquid diet. 32P-labeled proteins were separated by SDS-PAGE and quantitated by autoradiography. There was a selective 30-50% decrease in cholera toxin-induced labeling of 46 kDa protein band in membranes of ethanol-fed mice, with no apparent change in pertussis toxin-induced labeling. The 46 kDa protein has a molecular weight similar to that of the alpha subunit of Gs, suggesting a reduced amount of this protein or a change in its characteristics as a substrate for cholera toxin-induced ADP-ribosylation in cortical membranes of ethanol-fed mice.
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PMID:Cholera toxin-induced ADP-ribosylation of a 46 kDa protein is decreased in brains of ethanol-fed mice. 314 19

Dopamine induces a decrease in voltage-dependent Ca2+ current in identified neurons of the snail H. aspersa. This effect is blocked by intracellular injection of activated B. pertussis toxin and of an affinity-purified antibody against the alpha subunit of bovine Go protein. The dopamine effect is mimicked by intracellular injection of mammalian alpha o. In snail nervous tissue, pertussis toxin ADP-ribosylates a single protein band on SDS gels, and this band is recognized in immunoblots by the anti-alpha o antibody. We propose that this is a 40 kd alpha subunit of a molluscan G protein immunologically related to alpha o and that it mediates the effect of dopamine on Ca2+ currents in identified snail neurons.
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PMID:An alpha 40 subunit of a GTP-binding protein immunologically related to Go mediates a dopamine-induced decrease of Ca2+ current in snail neurons. 1899 6

Protease digestion of the ADP-ribosylated pertussis toxin substrate (PTS) protein was carried out after solubilization with SDS (Cleveland gels) and in the intact membrane. Cleveland gel analysis showed substantial similarities in the maps for the PTS component in neutrophils, platelets and erythrocytes and also in the S49 AC-lymphoma cell line. In the intact membrane ADP-ribosylation followed by digestion showed limited access of proteases to the PTS component. Of eight proteases tested, only papain and Staphylococcus aureus gave substantial digestion. This pattern was observed in the human platelet, erythrocyte and neutrophil plasma membranes. When the sequence was reversed and ADP-ribosylation was carried out after protease digestion, a very different pattern was observed with much greater susceptibility to digestion being noted with several proteases. By contrast, analysis of the murine AC-membrane showed some minor variations in the digest patterns. In addition, under all three conditions tested, maps of the cholera toxin substrate for the human platelet showed remarkable similarities to those obtained with the pertussis toxin substrate. Our results indicate that the protease sensitive sites of the alpha subunit of PTS and protection from proteolysis after ADP-ribosylation are properties which are shared by the PTS components of human platelets, erythrocytes and neutrophils.
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PMID:Peptide mapping studies of the pertussis toxin substrate in human neutrophils, platelets and erythrocytes. 328 41

The purified toxin of Bordetella pertussis was dissociated in 5 M urea in the presence of immobilized haptoglobin. The toxin was dissociated in free S1, free S5 and the free complexes S2-S4 and S3-S4, with S2-S4 as the only haptoglobin-binding moiety, identifying S2 as the haptoglobin-binding protein. Partial NH2-terminal amino acid sequences were obtained from the dissimilar toxin subunits, after separation by SDS-polyacrylamide gel electrophoresis followed by electroblotting onto polybrene-coated glass-fiber sheets. The sequences reveal extensive homology of the N-terminal portions of the constitutive subunits S2 and S3 and between S1 and the enterotoxin A chains of Vibrio cholerae and Escherichia coli.
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PMID:Protein-chemical analysis of pertussis toxin reveals homology between the subunits S2 and S3, between S1 and the A chains of enterotoxins of Vibrio cholerae and Escherichia coli and identifies S2 as the haptoglobin-binding subunit. 352 28

Pertussis toxin catalyzes the ADP-ribosylation of the inhibitory subunit (Ni) of adenylate cyclase. Despite several studies which demonstrate that pertussis toxin influences cyclic AMP accumulation and hormone secretion in normal anterior pituitary cells, the target protein(s) for this toxin in these cells has not been identified. We have examined pertussis toxin mediated ADP-ribosylation in membrane preparations of tumor-derived (235-1, GH4C1, GH3) and normal anterior pituitary cells. Autoradiograms of SDS gels reveal that in the presence of [32P]NAD and pertussis toxin, a 40 kilodalton protein band was labeled in membrane preparations from cells cultured with vehicle. Such labeling was diminished when the cells were exposed to pertussis toxin (35 ng/ml) for 18 hours. Similar results were found in both tumor-derived and normal (monkey and rat) anterior pituitary cells. The pertussis toxin specific band was further resolved into two bands of approximately 39 and 41 kilodaltons. Autoradiograms of two dimensional gels revealed two ADP-ribosylated spots with isoelectric points of 5.7 and 6.2, although the molecular weights appeared identical (approx. 40 kilodaltons). Cholera toxin, which catalyzes the ADP-ribosylation of a 45 kilodalton protein did not prevent labeling of the pertussis toxin-specific band(s) in cells pretreated with cholera toxin. These results suggest that pertussis toxin specifically mediates ADP-ribosylation of the Ni protein in normal anterior pituitary cells.
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PMID:Pertussis toxin mediates ADP-ribosylation of pituitary membrane proteins. 373 93

Pertussigen (Ptx), referred to by many different names, including pertussis toxin, was separated into five polypeptide subunits by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) using a discontinuous Tris-glycine buffer system. Under non-reducing conditions, the apparent molecular weights of the polypeptides (mean 10(-3)) were: S1 (26.3), S2 (24.4), S3 (22.7), S4 (12.2), and S5 (11.3). Under reducing conditions, the apparent molecular weights (mean 10(-3)) were: S1 (28.2), S2 (24.8), S3 (24.3), S4 (12.2) and S5 (13.9). The identity of the individual polypeptide subunits was further confirmed by their unique two-dimensional peptide maps. The polypeptides which showed an apparent increase in molecular weight under reducing conditions were those previously found to contain at least two cysteine residues. Reducing conditions also altered the reactivity of S3 and S2 to polyclonal rabbit antibody in electrophoretic transfer (Western) blot analysis. When Ptx was stored in solution at 4 degrees C, S1 and S5 underwent a gradual decrease in apparent molecular weight, as judged by SDS-PAGE. This decrease occurred in three different buffer systems, and was similar to a decrease in apparent molecular weight of S1 and S5 after treatment with the proteolytic enzymes subtilisin or proteinase K. Neither the changes due to storage nor proteolysis affected the activity of Ptx in regard to hemagglutination, lymphocytosis promotion or histamine sensitization. These changes did, however appear to modify the reactivity of S5 in the Western blot. Both the "endogenous" and enzyme-induced changes in S1 and S5 could be stopped by phenylmethanesulfonyl fluoride. These data suggest that S1 and S5 have exposed determinants in the intact Ptx molecule which are readily cleaved by proteases, but have little bearing on the biological activity of the intact molecule. Resistance to inactivation by proteolytic cleavage may help explain the long duration of Ptx activity within in vivo biological systems.
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PMID:Effect of proteolytic enzymes, storage and reduction on the structure and biological activity of pertussigen, a toxin from Bordetella pertussis. 391 65

Treatment of guinea pig neutrophils with pertussis toxin (islet-activating protein; IAP) results in inhibition of N-formyl peptide receptor-mediated release of arachidonic acid and granular enzymes. Inhibition by the toxin is specific, in that responses to the calcium ionophore A23187 are not affected. The action of the toxin is not associated with alterations in cellular concentrations of cyclic AMP but is correlated with the ability of the toxin to catalyze the ADP-ribosylation of a 41,000 dalton membrane protein. This protein comigrates on SDS-polyacrylamide gels with the alpha subunit of Gi, the inhibitory guanine nucleotide-binding regulatory component of adenylate cyclase. It is likely that this G protein is involved in receptor-mediated signal transduction in neutrophils by mechanisms that do not involve cyclic AMP.
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PMID:Inhibition of receptor-mediated release of arachidonic acid by pertussis toxin. 609 10

Eleven monoclonal antibodies were produced using whole Bordetella pertussis cells as the immunizing antigen. All monoclonal antibodies reacted with components of Bordetella pertussis, as visualized in immunoblotting of SDS polyacrylamide gels. Selected antibodies were coupled to Sepharose columns and used for isolation of the corresponding antigen. In all cases complete accordance was found between SDS polyacrylamide gel electrophoresis of the eluted antigen and the bands found in immunoblotting of the original extract stained with the respective monoclonal antibody. One major problem in the interpretation of the results was the finding that some of the monoclonal antibodies stained a number of bands in immunoblottings of crude B.pertussis extract. This phenomenon was shown to be caused by proteolytic degradation of the antigens, since prior addition of protease inhibitors to the extract resulted in the staining of only one band. The monoclonal antibodies showed different reactivity patterns with various strains of B.pertussis, B.parapertussis, B.bronchiseptica and less closely related bacteria. Two of the antibodies were strictly specific for B.pertussis.
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PMID:Purification of Bordetella pertussis antigens using monoclonal antibodies. 609 91

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