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)

The R1.1 mouse thymoma cell line expresses a high-affinity kappa opioid binding site. Opioid binding to this site is inhibited by guanine nucleotides, suggesting that the receptor is coupled to a guanine nucleotide-binding protein. Here, we present evidence that the kappa opioid binding site on R1.1 cell membranes is negatively coupled to adenylyl cyclase. The kappa-selective agonists (trans)-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)- cyclohexyl]benzeneacetamide methane-sulfonate hydrate [(-)-U50,488], (5 alpha,7 alpha, 8 beta)-(-)-N-methyl-N-(7-(1-pyrrolidinyl)-1-oxas- piro(4,5)dec-8-yl)benzeneacetamide (U69,593) and several dynorphin peptides inhibited basal and forskolin-stimulated cyclic AMP production by up to 40% in R1.1 cell membranes. The order of potency for the inhibition of adenylyl cyclase activity by opioid agonists correlated with their Ki values for the inhibition of [3H]U69,593 binding. Opioid-mediated inhibition of adenylyl cyclase activity was stereoselective, as (-)-U50,488 was more potent than the (+) isomer, and the inhibition was blocked by the kappa-selective antagonist nor-binaltorphimine. The opioid-mediated inhibition of adenylyl cyclase activity was also completely blocked by incubating R1.1 cells with Bordetella pertussis toxin (PTX). Incubation of R1.1 cell membranes with PTX and [adenylate-32P]NAD+ resulted in the exclusive labeling of a 41-kDa protein, as determined by separating the membrane proteins under reducing conditions on a SDS polyacrylamide gel, followed by autoradiography. These results suggest that a PTX-sensitive inhibitory guanine nucleotide-binding protein mediates the link between the thymoma kappa opioid receptor and adenylyl cyclase.
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PMID:The kappa opioid receptor expressed on the mouse R1.1 thymoma cell line is coupled to adenylyl cyclase through a pertussis toxin-sensitive guanine nucleotide-binding regulatory protein. 810

We report the purification of a minor Bordetella pertussis fimbrial subunit, designated FimD, and the identification of its gene (fimD). FimD could be purified from the bulk of major fimbrial subunits by exploiting the fact that major subunit-subunit interactions are more stable in the presence of SDS than minor-major subunit interactions. To locate the gene for FimD, internal peptides of FimD were generated, purified and sequenced. Subsequently, an oligonucleotide probe, based on the primary sequence of one peptide, was used to clone fimD. The primary structure of FimD, derived from the DNA sequence of its gene, showed homology with a number of fimbrial adhesins. Most pronounced homology was observed with MrkD, a fimbrial adhesin derived from Klebsiella pneumoniae. These observations suggest that FimD may represent a B. pertussis fimbrial adhesin. With a fimD-specific probe we detected the presence of a fimD homologue in Bordetella parapertussis and Bordetella bronchiseptica but not in Bordetella avium. Cloning and sequencing revealed that the B. parapertussis and B. bronchiseptica fimD product differed from the B. pertussis fimD product in 20 and 1 amino acid residues, respectively. Since B. bronchiseptica is normally not a human pathogen, but causes respiratory disease in a wide range of non-human mammalian species, this may suggest that FimD recognizes a receptor that is well conserved in mammalian species. An in-frame deletion in fimD completely abolished FimD expression and also affected the expression of the major subunits Fim2 and Fim3 suggesting that, in contrast to other adhesins that are minor components of fimbriae, FimD is required for formation of the fimbrial structure.
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PMID:Isolation of a putative fimbrial adhesin from Bordetella pertussis and the identification of its gene. 810 63

Bordetella calmodulin-like protein was purified from culture supernatant fluid of B. pertussis, B. parapertussis and B. bronchiseptica by successive chromatography on hydroxyapatite, Toyopearl HW-50F and QAE-Toyopearl 550C columns. The purified calmodulin-like protein appeared to be homogeneous by SDS-polyacrylamide gel electrophoresis. The apparent molecular mass of calmodulin-like protein on SDS-polyacrylamide gel electrophoresis was 10 kDa, which was smaller than bovine brain calmodulin (17 kDa). The purified calmodulin-like protein activated both Bordetella adenylate cyclase and mammalian phosphodiesterase in a Ca(2+)-dependent manner. This activation was inhibited by calmodulin antagonists. The calmodulin-like protein, like calmodulin, was retained by a hydrophobic resin in the presence of Ca2+ and eluted by the addition of EDTA. These results indicated that the Bordetella calmodulin-like protein is closely related to calmodulin. As a putative calmodulin the extracellular calmodulin may be involved in Bordetella pathogenesis.
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PMID:Purification and characterization of Bordetella calmodulin-like protein. 815 Feb 60

It has previously been shown that thrombin effects on endothelial cells can be mediated via G-proteins, which couple the thrombin receptor to several key physiological responses. As G-proteins are known targets of bacterial toxins, specific toxins were used to further characterize G-protein involvement in thrombin activation of bovine pulmonary arterial endothelial cells (BPAEC) and human umbilical vein endothelial cells (HUVEC). Homogenates were exposed to several bacterial toxins in the presence of 32P-NAD and ADP ribosylation of proteins determined by autoradiography of SDS-PAGE gels. Major substrates were a 40 kDa protein for pertussis toxin, 39, 45 and 52 kDa proteins (Gs) for cholera toxin, a 21 kDa protein for botulinum toxin C, and a 43 kDa protein (actin) for botulinum toxin C2a. The increase in either HUVEC or BPAEC PGI2 release induced by thrombin was not altered by pretreatment with any toxin. However, 1 h treatment of BPAEC monolayers with 1 microgram/ml pertussis toxin resulted in dramatic barrier dysfunction, which was synergistic with the albumin permeability induced by 1 microM thrombin. In contrast, pretreatment with 1 microgram/ml cholera toxin completely prevented the thrombin-induced barrier dysfunction. Moreover, contraction and gap formation due to thrombin challenge, observed by phase contrast microscopy, was greatly augmented by pertussis toxin and prevented by cholera toxin. Whereas 5 micrograms/ml botulinum toxin C did not affect either basal or thrombin-induced barrier dysfunction, botulinum toxin C2a increased basal BPAEC permeability over four-fold. Thus, bacterial toxins have specific and divergent effects on thrombin-induced endothelial cell responses. Botulinum toxin C2a appears to interact directly with actin to produce barrier dysfunction. In contrast, cholera toxin promotes barrier function via its known effects on Gs, stimulating adenylate cyclase and increasing cAMP. Because cholera toxin and pertussis toxin (via inhibition of G(i)) both increase cAMP, yet have opposing effects on barrier function, the present results suggest that pertussis toxin produces barrier dysfunction via ADP ribosylation of a novel G-protein other than G(i) or via a novel action of G(i).
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PMID:Regulation of thrombin-induced endothelial cell activation by bacterial toxins. 818 Mar 40

The effect of the addition of (2,6-O-dimethyl)-beta-cyclodextrin (Me beta CD) during growth of Bordetella pertussis in synthetic Stainer-Scholte liquid medium (SS) on lipopolysaccharide (LPS; endotoxin) release was investigated. The Me beta CD concentration used (3 mg/ml) was chosen according to the optimal level found in previous studies to enhance major soluble antigen production. The profiles in SDS-PAGE (sodium dodecyl sulphate/polyacrylamide gel electrophoresis) of LPS extracted from cells grown in SS and SS + Me beta CD media revealed similar patterns. Although the LPS content of whole cells decreased during cell growth, yields obtained at different growth periods in cyclodextrin medium were lower than those corresponding to SS medium alone. Consequently, the level of LPS released in supernatants of both media increased during cellular growth. This amount of free LPS was higher in the cyclodextrin liquid medium and became significant at the beginning of the stationary growth phase. Binding of cyclodextrin to pertussis cells could account for the data obtained. Similar results were obtained with all species of the genus Bordetella.
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PMID:Release of lipopolysaccharide during Bordetella pertussis growth. 821 Jun 77

Immunochemical detection of pertussis toxin-sensitive guanine-nucleotide binding proteins has been suggested to represent the most direct approach to quantitate the protein than pertussis toxin-catalysed [32P]ADP-ribosylation. The latter technique is potentially hampered by pre-existing covalent modification of the C-terminus. However, limited data exist as to whether and in what way modifications of the C-terminus affect immunoreactivity of Gi alpha (alpha-subunit of the inhibitory G-protein of adenylyl cyclase). Membranes from human myocardium, thrombocytes, adipose tissue and lung were treated with pertussis toxin or N-ethylmaleimide. Both, conditions prevented high affinity agonist binding to m-cholinoceptors and inhibited [32P]ADP-ribosylation by pertussis toxin consistent with the notion that the modifications took place at the C-terminus. Pertussis toxin treatment increased immunoreactivity to different antisera raised against the C-terminal decapeptide of transducin alpha (KENLKDCGLF, DS 1-4, AS). N-Ethylmaleimide reduced immunoreactivity towards all antisera studied. Pertussis toxin reduced the mobility of Gi alpha on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) depending on the presence of the toxin and sensitivity to inhibition of ADP-ribosylation by nicotinamide. In native membranes from none of the tissues studied, immunoreactive material comigrating with pertussis toxin-modified form of Gi alpha was detected. It is concluded that modification of the C-terminus by pertussis toxin or N-ethylmaleimide resulting in the same functional consequence, i.e. prevention of high affinity agonist receptor binding, is capable of producing opposite changes of immunoreactivity. Pertussis toxin treatment reduces the electrophoretic mobility on SDS-PAGE. Separation of the native and pertussis toxin-modified form of Gi alpha on SDS-PAGE demonstrates that endogenously ADP-ribosylated Gi alpha is lacking in membranes from human myocardium, thrombocytes, lung and adipose tissue.
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PMID:C-terminal modifications of pertussis toxin-sensitive G-protein alpha-subunits differentially affect immunoreactivity. Evidence against endogenous ADP-ribosylation in human heart, lung, thrombocytes and adipose tissue. 827 48

Activation of heterotrimeric guanine nucleotide-binding proteins (G proteins) by terminal complement complexes (TCC) was investigated on human lymphoblastoid B-cell line JY25 and its mutant JY5 deficient in glycosylphosphatidylinositol-anchored proteins. TCC assembly achieved by antibody-dependent activation of C7-deficient serum reconstituted with C7 increased specific guanosine-5'-(gamma-thio)triphosphate (GTP gamma S) binding, 4- and 8-fold, in JY25 and JY5 membranes, respectively, between 2 and 10 min, over the level without C7. TCC also increased GTPase activity 5- and 4-fold in JY25 and JY5, respectively, between 5 and 10 min. Increased GTPase activity was noted first with C5b-7 assembly, which increased further with C5b-8 and C5b-9. The presence of G proteins in anti-TCC immunoprecipitates of cell lysates was investigated by demonstration of G alpha subunit that can be ADP-ribosylated by pertussis toxin (PTX). Immunoprecipitated TCC complexes contained a PTX-sensitive 41-kDa Gi alpha/Go alpha subunit, as shown by SDS-PAGE and Western blotting. These complexes were functionally active as determined by GTP gamma S binding. We have further shown that enhanced TCC elimination from the plasma membrane induced by TCC-generated signals was inhibited by PTX. In conclusion the biological activities induced by TCC in nucleated cells may be mediated in part by activation of PTX-sensitive G proteins.
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PMID:Receptor-independent activation of guanine nucleotide-binding regulatory proteins by terminal complement complexes. 830 12

Endothelins (ET-1, -2, -3) display pleiotropic activities, by signalling through G-protein-coupled membrane receptors. We show here that ET-1 and ET-3 stimulate within minutes the tyrosine phosphorylation of a 42 kDa protein (p42) in primary cultures of mouse embryo astrocytes, but not in any of two subclones of rat astrocytoma C6 cells. This effect, measured by anti-phosphotyrosine immunoblotting of cell extracts, was also observed in response to bradykinin, platelet-derived growth factor, the phorbol ester phorbol 12-myristate 13-acetate and the G-protein activator fluoroaluminate. Pretreatment of cells with pertussis toxin, which inactivates Gi/G(o) proteins, did not affect these responses. However, down-regulation of protein kinase C completely blocked the response to phorbol ester and fluoroaluminate and at least partially impaired the ET-1-stimulated phosphorylation of p42. We have identified p42 as p42mapk, a mitogen-activated protein (MAP) kinase, on the basis of the following data: by sequential immunoblotting with antiphosphotyrosine and anti-MAP kinase antibodies, (i) similar kinetics are observed for p42 phosphorylation and the decrease in p42mapk electrophoretic mobility, likely corresponding to its tyrosine/threonine phosphorylation [de Vries-Smits, Boudewijn, Burgering, Leevers, Marshall and Bos (1992) Nature (London) 357, 602-604]; (ii) p42 and the shifted form of p42mapk co-migrate on SDS/PAGE; (iii) the myelin-basic-protein kinase activity of p42mapk is stimulated by ET-1, in parallel with the tyrosine phosphorylation of p42. In conclusion, these findings strongly suggest that endothelins can stimulate the tyrosine phosphorylation and activation of p42mapk in astrocytes, via pertussis-toxin-insensitive G protein and protein kinase C-dependent and -independent pathways.
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PMID:Endothelins stimulate tyrosine phosphorylation and activity of p42/mitogen-activated protein kinase in astrocytes. 834 18

Bordetella pertussis adenylate cyclase (AC) toxin has the abilities to 1) enter target cells where it catalyzes cyclic AMP production and 2) lyse sheep erythrocytes, and these abilities require post-translational modification by the product of an accessory gene cyaC (Barry, E. M., Weiss, A. A., Ehrmann, E. E., Gray, M. C., Hewlett, E. L., and Goodwin, M. St. M. (1991) J. Bacteriol. 173, 720-726). In the present study, AC toxin has been purified from an organism with a mutation in cyaC, BPDE386, and evaluated for its physical and functional properties in order to determine the basis for its lack of toxin and hemolytic activities. AC toxin from BPDE386 is indistinguishable from wild-type toxin in enzymatic activity, migration on SDS-polyacrylamide gel electrophoresis, ability to bind calcium, and calcium-dependent conformational change. Although unable to elicit cAMP accumulation, AC toxin from BPDE386 exhibits binding to the surface of Jurkat cells which is comparable to that of wild-type toxin. This target cell interaction is qualitatively different, however, in that 99% of the mutant toxin remains sensitive to trypsin, whereas approximately 20% of cell-associated wild-type toxin enters a trypsin-resistant compartment. To evaluate the ability of this mutant AC toxin to function at its intracellular site of action, the cAMP-stimulated L-type calcium current in frog atrial myocytes was used. Extracellular addition of wild-type toxin results in cAMP-dependent events that include activation of calcium channels and enhancement of calcium current. In contrast, there is no response to externally applied toxin from BPDE386. When injected into the cell interior, however, the AC toxin from BPDE386 is able to produce increases in the calcium current comparable to those observed with wild-type toxin. Although AC toxin from BPDE386 is unaffected in its enzymatic activity, calcium binding, and calcium-dependent conformational change, the mutation in cyaC does result in a toxin which is able to bind to target cells but unable to elicit cAMP accumulation. In that AC toxin from BPDE386 is able to function normally when injected artificially to an intracellular site, we conclude that the disruption of cyaC produces a defect in insertion and transmembrane delivery of the catalytic domain.
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PMID:Characterization of adenylate cyclase toxin from a mutant of Bordetella pertussis defective in the activator gene, cyaC. 838 22

Muscarinic acetylcholine receptor subtypes (m1-m5) differentially regulate phosphoinositide-specific phospholipase (PLC) through the activation of distinct guanine nucleotide-binding (G) proteins which can be distinguished on the basis of their sensitivity to inhibition by pertussis toxin (PTX). In transfected Chinese hamster ovary cells, the m2 receptor subtype regulates the stimulation of PLC and inhibition of adenylyl cyclase (AC) through PTX-sensitive G proteins. In this study, we utilized the ability of cholera toxin (CTX) to ADP-ribosylate PTX-sensitive alpha subunits as part of the ternary complex formed by heterotrimeric G proteins and agonist-bound receptors to detect and characterize the interactions between transfected m2 receptors and endogenous G proteins in Chinese hamster ovary cells. In membranes derived from cells expressing the m2, but not the m3 receptor, the cholinergic agonist carbachol stimulated CTX modification of a 40-kDa species (G alpha 40). Importantly, similar carbachol dose dependence values and PTX dose sensitivities were observed for m2 receptor-mediated PLC signaling and G alpha 40-CTX modification. High resolution urea-SDS-polyacrylamide gel electrophoresis analysis revealed that G alpha i2 (40 kDa) and G alpha i3 (41 kDa) were components of the G alpha 40 identified by m2 receptor-dependent CTX modification. Furthermore, the sensitivities of G alpha i2 and G alpha i3 to PTX modification were determined to be the same as those for PTX inhibition of G alpha 40 labeling by CTX and m2 receptor-mediated PLC signaling. Similarly, agonist-induced desensitization of m2 receptor-G protein signaling required doses of agonist associated with stimulation of PLC. Desensitization involved receptor sequestration and down-regulation of G alpha i3; however, only the reduction of G alpha i3 required prior activation PLC signaling. Finally, desensitization of m2-G protein coupling could be partially mimicked by treatment with thapsigargin, an inducer of intracellular Ca2+ release, without altering the number of cell surface receptors or G protein levels. These results demonstrate that m2 receptors couple to both G alpha i2 and G alpha i3 in vivo and that this interaction is integral to both positive and negative regulatory pathways leading to activation of PLC and desensitization of receptor signaling.
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PMID:Transfected m2 muscarinic acetylcholine receptors couple to G alpha i2 and G alpha i3 in Chinese hamster ovary cells. Activation and desensitization of the phospholipase C signaling pathway. 844 30

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