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

A monoclonal antibody against GM3 ganglioside (GM3Ab) was found to trigger differentiation of Neuro-2a cells in culture. The differentiation of Neuro-2a cells by GM3Ab was accompanied by increased levels of intracellular serotonin and amino acid neurotransmitters viz. aspartate, glutamate, glutamine, glycine and taurine. Further study indicated that the increase in the serotonin level was not due to a higher rate of serotonin synthesis but rather to a higher rate of active transport of serotonin from the medium. Studies on the cell surface gangliosides revealed that unlike the proliferating cells, the GM3Ab-mediated differentiated cells contained higher gangliosides in addition to GM3 and GM2 gangliosides. Analysis of total cellular proteins indicated the appearance of a 25 kDa protein, pI 5.4, in the GM3Ab-treated cells--a small amount of this protein was observed in dibutyryl cAMP (Bt2cAMP)-treated cells, however, the protein was totally absent in the 5-bromo-2'-deoxyuridine (BrdU)-treated cells. Investigation of the mode of action of GM3Ab indicated that the cellular differentiation was due to increased cAMP accumulation resulting from an increase in the adenylate cyclase activity. Further studies with different agents affecting protein kinase C (PKC) activity and direct assay of PKC ruled out the possibility that GM3Ab mediated its effect via PKC. This GM3Ab-induced differentiation could be inhibited by protein kinase A (PKA) inhibitor, H8, but could not be inhibited by sphingosine, an inhibitor of PKC. Pertussis toxin could mimic the effect of GM3Ab, suggesting that GM3Ab caused the elevation in the adenylate cyclase activity by reducing the Gi-protein inhibition of the adenylate cyclase. The data suggests that GM3Ab, after interaction with cell surface GM3, elevated intracellular cAMP level by withdrawing the inhibitory effect of some undefined factor(s) present in culture medium which normally keeps adenylate cyclase activity low through activation of Gi-protein.
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PMID:Differentiation of Neuro-2a neuroblastoma cells by an antibody to GM3 ganglioside. 132 94

Previous studies have demonstrated that mutations of highly conserved residues in the alpha subunit of Gs (alpha s) can inhibit either the intrinsic GTPase activity (glutamine-227 to leucine, Q227L) or the ability of the protein to be activated by GTP (glycine-226 to alanine, G226A). We stably transfected NIH 3T3 cells with cDNAs encoding Gi2 alpha subunit (alpha i2) containing either wild-type sequence or the homologous mutations Q205L and G204A. High expression of wild-type alpha i2, Q205L alpha i2, and G204A alpha i2 was confirmed in transfected cells by immunoblot analysis. The overexpression of all three alpha i2 proteins was accompanied by an increase in beta-subunit expression. Q205L alpha i2 was a poor substrate for ADP-ribosylation by pertussis toxin as compared with wild-type alpha i2. Expression of Q205L alpha i2 markedly decreased forskolin- or cholera toxin-stimulated intracellular cAMP levels in intact cells, confirming the constitutively activated state of the protein. In contrast, G204A alpha i2 increased intracellular cAMP and was resistant to guanosine 5'-[gamma-thio]triphosphate-induced inhibition of ADP-ribosylation by pertussis toxin, as expected for an inactive alpha i2. Transfection of wild-type, Q205L, or G204A alpha i2 cDNA did not induce focus formation of NIH 3T3 cells. However, overexpression of Q205L alpha i2 induced a decreased serum requirement, a reduced doubling time, and an 8- to 10-fold increase in [3H]thymidine incorporation. Q205L alpha i2 cells formed small colonies in soft agar, demonstrating some degree of anchorage-independent proliferation. Expression of G204A alpha i2 slowed the growth of NIH 3T3 cells. We conclude that alpha i2 plays an important role in regulation of fibroblast growth.
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PMID:Activating and inactivating mutations of the alpha subunit of Gi2 protein have opposite effects on proliferation of NIH 3T3 cells. 166 Jan 38

Pertussis toxin has been shown to be an important virulence factor and an antigen which will probably be essential to a pertussis vaccine. Inactivation of the pertussis toxin was required due to the pharmacological properties associated with this toxin. However, chemical inactivation has the potential of altering important epitopes or of failing to inactivate the toxin. Cloning and sequencing of the pertussis toxin operon has permitted the introduction of specific mutations in the S1 gene which have been shown to have a profound effect on the subsequent enzyme activity. Various mutations were constructed, re-assembled into the pertussis toxin operon and returned to the Bordetella pertussis chromosome for expression. Pertussis toxin, with lysine substituted for arginine at position 9 in the S1 subunit (PTA-K9) was assembled and expressed to wild type levels. Substitution of codons for aspartic acid, glycine and glutamine, for that of glutamic acid at position 129 were incorporated into the PTA-K9 construction. Virulence of these constructed B. pertussis strains and ADP-ribosylation by their toxoids were greatly reduced relative to that found with the wild type. Additionally, PTA-K9 was found to have reduced leukocytosis promotion and histamine sensitization activities. Finally, PTA-K9 was shown to be a protective immunogen in both intracerebral and aeorosol challenge assays.
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PMID:Construction and characterization of genetically inactivated pertussis toxin. 177 35

Sulfhydryl-alkylating reagents are known to inactivate the NAD glycohydrolase and ADP-ribosyltransferase activities of the S1 subunit of pertussis toxin, a protein which contains two cysteines at positions 41 and 200. It has been proposed that NAD can retard alkylation of one of the two cysteines of this protein (Kaslow, H.R., and Lesikar, D.D. (1987) Biochemistry 26, 4397-4402). We now report that NAD retards the ability of these alkylating reagents to inactivate the S1 subunit. In order to determine which cysteine is protected by NAD, we used site-directed mutagenesis to construct analogs of the toxin with serines at positions 41 and/or 200. Sulfhydryl-alkylating reagents reduced the ADP-ribosyltransferase activity of the analog with a single cysteine at position 41; NAD retarded this inactivation. In contrast, sulfhydryl-alkylating reagents did not inactivate analogs with serine at position 41. An analog with alanine at position 41 possessed substantial ADP-ribosyltransferase activity. We conclude that alkylation of cysteine 41, and not cysteine 200, inactivates the S1 subunit of pertussis toxin, but that the sulfhydryl group of cysteine 41 is not essential for the ADP-ribosyltransferase activity of the toxin. These results suggest that the region near cysteine 41 contributes to features of the S1 subunit important for ADP-ribosyltransferase activity. Using site-directed mutagenesis, we found that changing aspartate 34 to asparagine, arginine 39 to lysine, and glutamine 42 to glutamate had little effect on ADP-ribosyltransferase activity. However, substituting an asparagine for the histidine at position 35 markedly decreased, but did not eliminate, ADP-ribosyltransferase activity. Chou-Fasman analysis predicted no significant modifications in secondary structure of the S1 peptide with the change of histidine 35 to asparagine. Thus, histidine 35 may interact with a substrate of the S1 subunit without being essential for catalysis.
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PMID:Alkylation of cysteine 41, but not cysteine 200, decreases the ADP-ribosyltransferase activity of the S1 subunit of pertussis toxin. 270 95

A number of bacterial protein toxins, including adenylate cyclase (AC) toxin from Bordetella pertussis, require the product of an accessory gene in order to express their biological activities. In this study, mass spectrometry was used to demonstrate that activated, wild-type AC toxin was modified by amide-linked palmitoylation on the epsilon-amino group of lysine 983. This modification was absent from a mutant in which the accessory gene had been disrupted. A synthetic palmitoylated peptide corresponding to the tryptic fragment (glutamine 972 to arginine 984) that contained the acylation blocked AC toxin-induced accumulation of adenosine 3',5'-monophosphate, whereas the non-acylated peptide had no effect.
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PMID:Internal lysine palmitoylation in adenylate cyclase toxin from Bordetella pertussis. 793 82

We have mutated the aspartate residue in the putative second transmembrane spanning domain of the alpha 2A-adrenergic receptor (alpha 2AAR) to the non-negatively charged asparagine (D79N) and glutamine (D79Q) and the negatively charged glutamate (D79E) residue in an effort to better characterize the role of this residue, highly conserved among G-protein-coupled receptors, in Na+ regulation of ligand binding and in receptor G-protein coupling. Allosteric modulation of receptor-ligand interactions by Na+ is retained by the D79E alpha 2AAR but lost upon mutation to the uncharged D79N and D79Q residues. Loss of allosteric effects of Na+ is paralleled by a complete loss of retrograde information transfer from G-proteins to alpha 2AAR in AtT20 cells, measured via the sensitivity of radiolabeled agonist binding to Gpp(NH)p. In contrast to the complete elimination of retrograde signaling via the D79N and D79Q alpha 2AAR, anterograde information transfer from receptor to G-protein is modified in a more subtle quantitative way, since agonist-stimulated GTPase activity via D79N and D79Q alpha 2AAR, although apparently attenuated compared to wild type and D79E alpha 2AAR, is no less than the GTPase activity elicited by endogenous somatostatin receptors in AtT20 cells. These data indicate that a negative charge at amino acid residue 79 forecasts sensitivity to allosteric regulation by monovalent cations and its mutation to non-negatively charged residues elicits a nonparallel modulation of receptor-->G-protein versus G-protein-->receptor communication between alpha 2AAR and pertussis toxin-sensitive GTP-binding proteins.
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PMID:Mutation of an aspartate residue highly conserved among G-protein-coupled receptors results in nonreciprocal disruption of alpha 2-adrenergic receptor-G-protein interactions. A negative charge at amino acid residue 79 forecasts alpha 2A-adrenergic receptor sensitivity to allosteric modulation by monovalent cations and fully effective receptor/G-protein coupling. 796 41

Pertussis toxin is a member of ADP-ribosylating bacterial toxins that are capable of catalyzing the cleavage of the N-glycosidic bond of NAD+ and the transfer of its ADP-ribose moiety to G proteins. The catalytic S1 subunit of pertussis toxin uses signal transducing G proteins as acceptor substrates but can also catalyze the transfer of the ADP-ribose moiety to water in the absence of G proteins. Site-directed mutagenesis followed by kinetic analyses of truncated soluble mutant proteins revealed that His-35 of S1 is a catalytic residue because alterations of this residue affect the turnover rate of NAD-glycohydrolysis by approximately two orders of magnitude without significantly affecting substrate binding. Replacement of the imidazole of His-35 by the side chain of glutamine maintained the highest residual activity. The pH dependence of the enzyme activity showed only slight variations over the experimental range with an optimum at pH 7.5 and an approximate pKa of 6.5 to 7. This pH dependence was abolished by the Gln substitution, which still retained significant activity, suggesting that His-35 probably does not act as a true base but rather as a proton acceptor. Direct catalytic roles for several other residues were ruled out. Ser-52 substitutions resulted in slight alterations of both kcat and Km for NAD+ suggesting an involvement in maintaining the local geometry of the active site rather than a direct role in catalysis for this residue. Kinetic studies on mutants with substitutions of Ser-40 indicate a role in NAD+ binding for this residue. In conjunction with previous findings, these studies suggest that the NAD-glycohydrolase activity of S1 utilizes 2 catalytic residues, His-35 and the previously identified Glu-129. The enzyme mechanism could therefore proceed through an activation by polarization of the acceptor substrate water or G protein by His-35, and the stabilization of an oxocarbonium-like transition state intermediate by Glu-129.
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PMID:The NAD-glycohydrolase activity of the pertussis toxin S1 subunit. Involvement of the catalytic HIS-35 residue. 811 96

Skeletal muscle glutamine uptake via the transport system Nm is subject to rapid (t(1/2) = approximately 1 min) regulation after changes in cell volume by mechanisms that remain to be elucidated. Wortmannin (phosphatidylinositol 3-kinase inhibitor) but not rapamycin (inhibitor of p70S6 kinase activation) prevents both hypo-osmotic swelling-induced stimulation and hyperosmotic shrinkage-induced inhibition of Na+-dependent glutamine uptake in primary culture of rat skeletal muscle. G-protein inhibitors (cholera, pertussis toxins) also abolished responses of glutamine transport to cell volume changes whereas these responses were sustained in the presence of G-protein activators (MAS 7, lysophosphatidic acid). Swelling-induced activation of glutamine transport does not seem to involve release of autocrine factors because "conditioned" medium from swollen cells has no effect on previously unstimulated cells. System A amino acid transport exhibits responses to cell volume change that are opposite to those of system Nm, but these are also blocked by wortmannin. Active phosphatidylinositol 3-kinase appears to be required to enable muscle cells to exhibit rapid, volume-induced changes in amino acid transport when suitably stimulated.
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PMID:Signaling elements involved in amino acid transport responses to altered muscle cell volume. 936 45

To delineate the specific regions of phospholipase C beta2 (PLC beta2) involved in binding and activation by G protein betagamma subunits, we synthesized peptides corresponding to segments of PLC beta2. Two overlapping peptides corresponding to Asn-564-Lys-583 (N20K) and Glu-574-Lys-593 (E20K) inhibited the activation of PLC beta2 by betagamma subunits (IC50 50 and 150 microM, respectively), whereas two control peptides did not. N20K and E20K, but not the control peptides, inhibited betagamma-dependent ADP-ribosylation of Galphai1 by pertussis toxin and betagamma-dependent activation of phosphoinositide 3-kinase. To demonstrate direct binding of the peptides to betagamma subunits, the peptides were chemically cross-linked to purified beta1gamma2. N20K and E20K cross-linked to both beta1 and gamma2 subunits, whereas the control peptides did not. Cross-linking to beta and gamma was inhibited by incubation with excess PLC beta2 or PLC beta3, whereas cross-linking to gamma but not beta was inhibited by r-myr-alphai1. These data together demonstrate specificity of N20K and E20K for G betagamma binding and inhibition of effector activation by betagamma subunits. The results suggest that an overlapping region of the two active peptides, Glu-574-Lys-583, mimics a region of PLC beta2 that is involved in binding to betagamma subunits. Changing a tyrosine to a glutamine in this overlapping region of the peptides inhibited binding of the peptide to betagamma subunits. Alignment of these peptides with the three-dimensional structure from PLC delta1 identifies a putative alpha helical region on the surface of the catalytic domain of PLC beta2 that could interact with betagamma subunits.
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PMID:Identification of a structural element in phospholipase C beta2 that interacts with G protein betagamma subunits. 950 29

The major adhesin of Bordetella pertussis, filamentous haemagglutinin (FHA), is produced and secreted at high levels by the bacterium. Mature FHA derives from a large precursor, FhaB, that undergoes several post-translational maturations. In this work, we demonstrate by site-directed mutagenesis that the N-terminal signal peptide of FHA is composed of 71 amino acids, including a 22-residue-long 'N-terminal extension' sequence. This sequence, although highly conserved in various other secretory proteins, does not appear to play an essential part in FHA secretion, as shown by deletion mutagenesis. The entire N-terminal signal region of FhaB is removed in the course of secretion by proteolytic cleavage at a site that corresponds to a Lep signal peptidase recognition sequence. After this maturation, the N-terminal glutamine residue is modified to a pyroglutamate residue. This modification is not crucial for heparin binding, haemagglutination or secretion. Interestingly, however, the modification is absent from Escherichia coli secreted FHA derivatives. In addition, it is dependent in B. pertussis on the presence of all three cysteines contained in the signal peptide of FhaB. These observations suggest that it does not occur spontaneously but perhaps requires a specific enzymatic machinery.
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PMID:N-terminal characterization of the Bordetella pertussis filamentous haemagglutinin. 968 Feb 16


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