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)

Bordetella pertussis produces a calmodulin-sensitive adenylate cyclase (AC) which is an essential virulence factor in mammalian pertussis. Here we report the purification and characterization of the toxic form of the enzyme, which penetrates eukaryotic cells and generates high levels of intracellular cAMP. This form was purified from an extract of B.pertussis strain carrying a recombinant plasmid which over-produced both enzymatic and toxic activities of the enzyme. Western blot analysis of the extract using anti-B.pertussis AC antibodies detected only one protein of 200 kd. However, gel filtration of the extract resolved two peaks of enzymatic activity. The first peak of aggregated material contained greater than 70% of the total enzymatic activity, and the second peak contained the majority of the toxic activity. Purification of the enzyme from both peaks yielded proteins of 200 kd, with similar biochemical and immunological properties. Yet only the enzyme purified from the second peak could penetrate human lymphocyte and catalyse the formation of intracellular cAMP. B.pertussis AC gene expressed in Escherichia coli produced a calmodulin-dependent enzyme of 200 kd, which lacked lymphocyte penetration capacity. It is proposed that a post-translational modification that occurs in B.pertussis but not in E.coli confers upon the 200 kd protein of B.pertussis AC the toxic properties.
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PMID:Bordetella pertussis adenylate cyclase: purification and characterization of the toxic form of the enzyme. 255 85

Bordetella pertussis, the pathogen responsible for whooping cough, releases a soluble calmodulin-sensitive adenylate cyclase into its culture medium. Several investigators have shown that the partially purified adenylate cyclase is capable of entering animal cells and elevating intracellular cAMP levels [Confer, D. L., & Eaton, J. W. (1982) Science 217, 948-950; Shattuck, R. L., & Storm, D. R. (1985) Biochemistry 24,6323-6328]. However, the mechanism for entry of the catalytic subunit of the adenylate cyclase into animal cells is unknown. Recently, it was determined that the purified catalytic subunit of the enzyme is unable to enter animal cells [Masure, H. R., Oldenburg, D. J., Donovan, M. G., Shattuck, R. L., & Storm, D. R. (1988) J. Biol. Chem. 263, 6933-6940]. On the basis of these data and other observations, we hypothesized that the culture medium of B. pertussis contains one or more additional polypeptides which facilitate entry of the adenylate cyclase catalytic subunit into animal cells. In this study, we report that a cell-invasive preparation of B. pertussis adenylate cyclase was rendered noninvasive after passage through a wheat germ lectin-agarose column. A fraction was eluted from the wheat germ lectin-agarose column with N-acetyl-D-glucosamine. This fraction, when combined with the noninvasive adenylate cyclase, was able to restore the ability of the adenylate cyclase preparation to enter neuroblastoma cells and increase intracellular cAMP levels. Furthermore, the fraction eluted from the wheat germ lectin-agarose column was found to be trypsin and chymotrypsin sensitive, suggesting that this material was proteinaceous.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation of a protein fraction from Bordetella pertussis that facilitates entry of the calmodulin-sensitive adenylate cyclase into animal cells. 255 96

Bordetella pertussis produces an adenylate cyclase which is a toxin. The enzyme penetrates eukaryotic cells and, upon activation by host calmodulin, generates high levels of intracellular cAMP; as a result bactericidal functions of immune effector cells are considerably impaired. The toxin is composed of a single polypeptide that possesses both the catalytic and the toxic functions. It penetrates the host cell directly from the plasma membrane and is concomitantly inactivated by a proteolytic degradation.
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PMID:Invasive adenylate cyclase toxin of Bordetella pertussis. 256 Feb 73

The phorbol ester 12-O-tetradecanoyl-phorbol 13-acetate (TPA) and thyroliberin exerted additive stimulatory effects on prolactin release and synthesis in rat adenoma GH4C1 pituicytes in culture. Both TPA and thyroliberin activated the adenylate cyclase in broken cell membranes. When combined, the secretagogues displayed additive effects. TPA did not alter the time course (time lag) of adenylate cyclase activation by hormones, guanosine 5'-[beta,gamma-imino]triphosphate or forskolin, nor did it affect the enzyme's apparent affinity (basal, 7.2 mM; thyroliberin-enhanced, 2.2 mM) for free Mg2+. The TPA-mediated adenylate cyclase activation was entirely dependent on exogenously added guanosine triphosphate. ED50 (dose yielding half-maximal activation) was 60 microM. Access to free Ca2+ was necessary to express TPA activation of the enzyme, however, the presence of calmodulin was not mandatory. TPA-stimulated adenylate cyclase activity was abolished by the biologically inactive phorbol ester, 4 alpha-phorbol didecanoate, by the protein kinase C inhibitor polymyxin B and by pertussis toxin, while thyroliberin-sensitive adenylate cyclase remained unaffected. Experimental conditions known to translocate protein kinase C to the plasma membrane and without inducing adenylate cyclase desensitization, increased both basal and thyroliberin-stimulated enzyme activities, while absolute TPA-enhanced adenylate cyclase was maintained. Association of extracted GTP-binding inhibitory protein, Gi, from S49 cyc- murine lymphoma cells with GH4C1 cell membranes yielded a reduction of basal and hormone-stimulated adenylate cyclase activities, while net inhibition of the cyclase of somatostatin was dramatically enhanced. However, TPA restored completely basal and hormone-elicited adenylate cyclase activities in the Gi-enriched membranes. Finally, TPA completely abolished the somatostatin-induced inhibition of adenylate cyclase in both hybrid and non-hybrid membranes. These data suggest that, in GH4C1 cells, protein kinase C stimulation by phorbol esters completely inactivates the n alpha i subunit of the inhibitory GTP-binding protein, leaving the n beta subunit functionally intact. It can also be inferred that thyroliberin conveys its main effect on the adenylate cyclase through activation of the stimulatory GTP-binding protein, Gs.
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PMID:Protein kinase C stimulates adenylate cyclase activity in prolactin-secreting rat adenoma (GH4C1) pituicytes by inactivating the inhibitory GTP-binding protein Gi. 256 96

The catalytic component of calmodulin-independent adenylate cyclase of cattle cerebral cortex was solubilized and purified to the homogeneous state. The conditions for preparative obtaining of the enzyme on the column with immobilized antibodies to adenylate cyclase were found. These antibodies were proved to interact with the calmodulin-independent rather than the calmodulin-dependent form of the enzyme. Molecular mass of the calmodulin-independent adenylate cyclase determined electrophoretically is 140 +/- 10 kDa. Amino acid composition of the enzyme and sequences of its fragments (in total 300 amino acid residues) obtained upon treatment with lysyl-specific proteinase from Achromobacter liticus were determined. Clone containing a cDNA 605 bp insertion coding for the 183 amino acid residue fragment of adenylate cyclase was isolated from the bovine brain cDNA library. Homology of this fragment to the known sequences of Escherichia coli and Bordetella pertussis adenylate cyclases was revealed.
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PMID:[Catalytic component of calmodulin-independent adenylate cyclase from bovine brain. Isolation and determination of partial amino acid sequence]. 266 76

An individual catalytic component of calmodulin-independent adenylate cyclase has been isolated from bovine brain cortex. Affinity chromatography on an immunosorbent was used. The amino acid sequence of adenylate cyclase as well as the corresponding nucleotide sequence of the cDNA has been determined. cDNA of adenylate cyclase encodes a protein consisting of 834 amino acid residues and the signal peptide (19 amino acid residues). A series of adenylate cyclase isoforms has been found. A homology between adenylate cyclases from bovine brain, E. coli and Bordetella pertussis has been revealed.
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PMID:Calmodulin-independent bovine brain adenylate cyclase. Amino acid sequence and nucleotide sequence of the corresponding cDNA. 176 59

Human adherent monocytes stimulated with 1 microgram/ml pertussis toxin (PT) produced interleukin-1 (IL-1), as measured by thymocyte co-stimulation assay and enzyme-linked immunosorbent assay (ELISA), specific for IL-1 alpha and IL-1 beta. To clarify the role of protein kinase C (PKC) and calmodulin in IL-1 production, we investigated the effects of a PKC inhibitor, H-7, and a calmodulin antagonist, W-7 on PT- and lipopolysaccharide (LPS)-induced IL-1 production by monocytes. Addition of 10 microM and 20 microM H-7 to the culture medium markedly suppressed both PT- and LPS-induced IL-1 production. PT-induced IL-1 production was significantly suppressed by 5 microM and 10 microM W-7. However, LPS-induced IL-1 production was not suppressed by W-7 at the concentrations tested. When monocytes were labelled with Quin 2/AM, IL-1 production by monocytes stimulated with PT and LPS was markedly suppressed. These results indicate that different pathways are involved in the IL-1 production by PT and LPS; both calmodulin- and PKC-dependent processes are necessary for the IL-1 production induced by PT, whereas LPS-induced IL-1 production is dependent on the PKC. Inhibition of IL-1 production by interfering with intracellular Ca2+ trafficking in Quin 2/AM-loaded monocytes may be associated with the inhibition of PKC and calmodulin activity.
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PMID:Effect of protein kinase C inhibitor (H-7) and calmodulin antagonist (W-7) on pertussis toxin-induced IL-1 production by human adherent monocytes. Comparison with lipopolysaccharide as a stimulator of IL-1 production. 278 78

The adenylate cyclase gene of Bacillus anthracis, encoding the edema factor, a component of anthrax toxin, has been cloned and expressed in Escherichia coli. Clones were selected by their capacity to complement the cyclase deficiency (cya-) of an E. coli strain expressing the eukaryotic protein calmodulin, an essential activator of B. anthracis adenylate cyclase. The protein expressed in E. coli was shown to exhibit adenylate cyclase activity only in the presence of calmodulin. Experiments using a coupled in vitro transcription-translation system revealed that the protein synthesized from the cloned DNA fragment was enzymatically active, upon addition of calmodulin, and could be immunoprecipitated by antibodies directed against purified Bordetella pertussis adenylate cyclase toxin. This indicates that the two calmodulin-dependent adenylate cyclase toxins are immunologically related.
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PMID:Cloning and expression of the calmodulin-sensitive Bacillus anthracis adenylate cyclase in Escherichia coli. 284 Nov 99

Bordetella pertussis, the pathogen responsible for whooping cough, releases a soluble calmodulin-sensitive adenylate cyclase into its culture medium. Recently, Confer and Eaton [Confer, D., & Eaton, J. (1982) Science (Washington, D.C.) 217, 948-950], as well as Hanski and Farfel [Hanski, E., & Farfel, Z. (1985) J. Biol. Chem. 290, 5526-5536], have shown that crude extracts from B. pertussis containing adenylate cyclase activity cause elevations in intracellular cAMP when incubated with human neutrophils or lymphocytes. These investigators proposed that the bacterial enzyme enters animal cells and catalyzes the formation of cAMP from intracellular ATP. In this study, B. pertussis adenylate cyclase was purified to remove contaminating islet activating protein and examined for its effects on intracellular cAMP levels of human erythrocytes and N1E-115 mouse neuroblastoma cells. In both cases, the enzyme catalyzed the formation of intracellular cAMP. Addition of calmodulin to the adenylate cyclase preparations completely inhibited formation of intracellular cAMP catalyzed by the bacterial enzyme, indicating that cAMP was not synthesized extracellularly and then taken up by the cells. These experiments illustrate that the bacterial enzyme does enter animal cells and that the enzyme-calmodulin complex does not.
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PMID:Calmodulin inhibits entry of Bordetella pertussis adenylate cyclase into animal cells. 286 77

Bordetella pertussis, the bacterium responsible for whooping cough, releases a soluble, calmodulin-sensitive adenylate cyclase into its culture medium. B. pertussis mutants deficient in this enzyme are avirulent, indicating that the adenylate cyclase contributes to the pathogenesis of the disease. It has been proposed that B. pertussis adenylate cyclase may enter animal cells and increase intracellular adenosine cyclic 3',5'-phosphate (cAMP) levels. We have purified the enzyme extensively from culture medium using anion-exchange chromatography in the presence and absence of calmodulin and gel filtration chromatography. The enzyme was purified 1600-fold to a specific activity of 608 mumol of cAMP min-1 mg-1 and was free of islet activating protein. The molecular weight of the enzyme was 43 400 in the absence of calmodulin and 54 200 in the presence of calmodulin. The Km of the bacterial enzyme for adenosine 5'-triphosphate was 2.0 mM, whereas the Km of the calmodulin-sensitive adenylate cyclase from bovine brain was 0.07 mM. Although the enzyme was not purified to homogeneity, its turnover number of 27 000 min-1 is the highest documented for any adenylate cyclase preparation.
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PMID:Purification and characterization of a calmodulin-sensitive adenylate cyclase from Bordetella pertussis. 286 78


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