Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Muscarinic agonists are potent constrictors of airway smooth muscle. In many tissues, muscarinic agonists also reduce intracellular cyclic AMP by inhibiting its synthesis. In airway smooth muscle, the role muscarinic agonists have in the regulation of cyclic AMP content is not established. The hypothesis of our study was that muscarinic agonists reduce cyclic AMP accumulation in dog tracheal smooth muscle, and that this reduction involves a pertussis toxin-sensitive regulatory protein (Gi) that couples occupancy of the muscarinic receptor by the agonist to inhibition of adenylate cyclase. We measured cyclic AMP accumulation in tracheal smooth muscle from 4 dogs, and found that acetylcholine (10(-4) M) diminished basal and isoproterenol-stimulated cyclic AMP accumulation by 37.6 +/- 12.1% and 39.4 +/- 1.9%, respectively (mean +/- SEM, p less than 0.05). This reduction of cyclic AMP was dose-dependent and inhibited by atropine (10(-5) M). Incubation of dog tracheal smooth muscle with pertussis toxin (12.5 micrograms/ml) for 21 h catalyzed covalent modification of a membrane protein with an approximate Mr of 40,000. In control strips, acetylcholine decreased isoproterenol-stimulated cyclic AMP content by 33.7 +/- 5.6% (p less than 0.05). However, in strips treated with pertussis toxin (10 micrograms/ml), acetylcholine decreased cyclic AMP by only 7.9 +/- 4.8%; this change was not significant. Thus, pertussis toxin (10 micrograms/ml) attenuated muscarinic cholinergic regulation of cyclic AMP. These findings are consistent with muscarinic cholinergic regulation of adenylate cyclase via Gi in dog tracheal smooth muscle. In addition, the techniques we employed should permit the evaluation of other functions of pertussis toxin-sensitive G proteins in airway smooth muscle.
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PMID:Muscarinic cholinergic inhibition of cyclic AMP accumulation in airway smooth muscle. Role of a pertussis toxin-sensitive protein. 284 36

This study examines the influence of cholera toxin (CT) on T lymphocyte activation by the mitogenic lectin phytohaemagglutinin (PHA). CT suppressed lectin-induced [3H]thymidine uptake in a dose-dependent fashion and acted synergistically with PHA in the generation of intracellular cyclic AMP. The toxin was assumed to act on Gs, because it also stimulated ADP-ribosylation of a 45 kDa membrane protein in vitro; no additional substrates were seen. The inhibitory effect of the adenylate cyclase/cyclic AMP pathway was shown to be directed at a concomitant stimulatory pathway, namely inositol phospholipid turnover. Lectin-stimulated 32P incorporation into both phosphatidylinositol as well as its 4,5-biphosphate derivative was depressed in the presence of CT or exogenous dibutyryl cyclic AMP. This, in turn, was associated with reduced activation of C-kinase as determined by decreased lectin-induced translocation from the cytosol to the surface membrane. These results indicate that Gs probably acts as a transducer between the PHA receptor and adenylate cyclase and may give rise to an exaggerated adenylate cyclase response in the presence of CT. It would seem as if reduction in inositol phospholipid turnover is related to the elevation of cyclic AMP rather than a CT effect on a putative transducer which acts directly on phospholipase C. Our study does not exclude the existence of non-CT-sensitive transducers in this capacity.
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PMID:Cholera toxin partially inhibits the T-cell response to phytohaemagglutinin through the ADP-ribosylation of a 45 kDa membrane protein. 285 89

The cellular mechanism of action of the cannabimimetic drugs is examined using cultured cells. In membranes from N18TG2 neuroblastoma cells and the neuroblastoma X glioma hybrid cells, NG108-15, the psychoactive cannabinoid drugs and their nantradol analogs could inhibit adenylate cyclase activity. This response was not observed in either the soluble adenylate cyclase from rat sperm or membrane-bound adenylate cyclases from C6 glioma or S49 lymphoma cells. This cellular selectivity provides further evidence for the existence of specific receptors for the cannabimimetic compounds. Receptor-mediated inhibition of adenylate cyclase requires the presence of a guanine nucleotide-binding protein complex, Gi. Gi can be functionally inactivated as a result of an ADP-ribosylation modification catalyzed by pertussis toxin. The present study demonstrates that pertussis toxin treatment of cells abolished the cannabimimetic response in intact cells and in membranes derived therefrom. The action of pertussis toxin required NAD+ as substrate for in vitro modification of neuroblastoma membranes. Furthermore, pertussis toxin was able to catalyze the labeling of a neuroblastoma membrane protein in vitro using [32P] NAD+ under conditions similar to those by which attenuation of the cannabimimetic inhibition of adenylate cyclase could be demonstrated. This evidence demonstrates the requirement for a functional Gi in the action of cannabimimetic drugs.
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PMID:Involvement of Gi in the inhibition of adenylate cyclase by cannabimimetic drugs. 286 5

The present studies were performed to investigate the mechanism whereby alpha 2-adrenergic receptor occupancy inhibits the hydrosmotic action of antidiuretic hormone (ADH) in isolated cortical collecting tubules (CCT). The ADH-ribosyltransferase activity of pertussis toxin (PT) was used to promote covalent modification in CCT Ni, the inhibitory regulatory protein of adenylate cyclase, which presumably mediates the alpha 2-adrenergic inhibition of water flow. Tubules preincubated with PT were studied after the addition of ADH and then after the superimposition of clonidine. In these studies, the inhibition of Jv (water absorption, nl X mm-1 X min-1) and Pf (water permeability coefficient, cm/s), by the addition of 10(-4) M clonidine to the bath, was attenuated by PT in a concentration-dependent manner. Reversal of the inhibitory action of clonidine was accomplished with a concentration of 1.0 micrograms/ml PT. To further elucidate the molecular basis of Ni-mediated transduction of the alpha 2-adrenergic signal, ADP-ribosylation studies were undertaken in membrane preparations of dissected CCT segments. PT ADP ribosylated a 40,000 Mr peptide which was proportional to the amount of membrane protein added. Furthermore, pretreatment of CCT during dissection with 0.5 micrograms/ml PT dramatically decreased the susceptibility of the subunit of Ni (alpha i) to be subsequently ADP ribosylated by PT, when compared with CCT preparations not previously treated with PT. Cholera toxin ADP ribosylated a 42,000 Mr peptide from CCT membranes and PT pretreatment did not interfere with the reaction. We conclude that CCT segments have both the pertussis and cholera toxin substrates and the effect of clonidine to attenuate ADH action is mediated through Ni.
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PMID:Prevention of alpha 2-adrenergic inhibition on ADH action by pertussis toxin in rabbit CCT. 288 51

Activation of platelet adenylate cyclase by prostaglandin E1 or prostacyclin is initiated through the interaction of the agonists with the same receptors on membrane. Prostaglandin E1/prostacyclin receptors of human platelets were solubilized in buffer, containing 0.05% Triton X-100 and protease inhibitors. The soluble membrane protein was chromatographed on a DEAE-cellulose column and assayed by a microfiber filter by equilibrium binding technique. The active fractions eluted at 0.7 M KCl were pooled, and the receptors were purified to homogeneity by Sephadex G-200 gel filtration with an overall recovery of 30%. The isolated receptor was 2,200-fold purified over the starting platelets. As evidenced by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the receptor showed a molecular mass of 190,000 daltons and is composed of two nonidentical subunits with molecular masses of 85,000 and 95,000 daltons. The interaction of prostaglandin E1 with the purified receptor was rapid, saturable, reversible, and highly specific. Among all prostaglandins tested, only prostacyclin was capable of displacing [3H]prostaglandin E1 bound to the receptor. Scatchard analysis of [3H]prostaglandin E1 binding to the purified receptor suggested the presence of a single class of high affinity binding sites (Kd = 9.8 nM) and a second population of low affinity binding sites (Kd = 0.7 microM) in the same protein molecule. Incubation of the purified receptor with platelets stripped of the receptor by washing with low concentrations of Triton X-100 efficiently restored the ability of prostaglandin E1 and prostacyclin to activate adenylate cyclase in these cells.
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PMID:Purification and properties of prostaglandin E1/prostacyclin receptor of human blood platelets. 288 71

It is very well established that the principal control of salivary secretion is derived from autonomic innervation. Transmission of a neural signal to a salivary gland acinar cell occurs chemically via neurotransmitters, the first messengers of a secretory response. Neurotransmitters bind to specific cell surface receptor proteins, an event which activates precise transduction mechanisms which then transfer the neural signal to the inside of the cell. There are two major transduction mechanisms operative in salivary gland acinar cells. One involves the generation of cAMP, the other involves the breakdown of plasma membrane polyphosphoinositides. For both mechanisms, the appropriate stimulated receptor activates a second plasma membrane protein, termed an N (or G) protein. The N protein requires GTP to activate an enzyme (adenylate cyclase or phospholipase C), which then catalyzes the formation of a second messenger (cAMP and inositol trisphosphate/diacylglycerol, respectively). This action provides the intracellular signal for secretory events (protein, fluid, electrolyte secretion) to begin.
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PMID:Neurotransmitter control of secretion. 288 3

Guanine nucleotides and pertussis toxin were used to investigate whether somatostatin receptors interact with the guanine nucleotide inhibitory protein (Ni) on pancreatic acinar membranes in the rat. Guanine nucleotides reduced 125I-[Tyr1]somatostatin binding to acinar membranes up to 80%, with rank order of potency being 5'-guanylyl imidodiphosphate [Gpp(NH)p] greater than GTP greater than GDP greater than GMP. Scatchard analysis revealed that the decrease in somatostatin binding caused by Gpp(NH)p was due to the decrease in the maximum binding capacity without a significant change in the binding affinity. The inhibitory effect of Gpp(NH)p was partially abolished in the absence of Mg2+. When pancreatic acini were treated with 1 microgram/ml pertussis toxin for 4 h, subsequent 125I-[Tyr1]somatostatin binding to acinar membranes was reduced. Gpp(NH)p further decreased somatostatin binding to islet-activating protein (IAP)-treated acinar membranes. Pertussis toxin treatment also abolished the inhibitory effect of somatostatin on vasoactive intestinal peptide-stimulated increase in cellular content of adenosine 3',5'-cyclic monophosphate (cAMP) in the acini. Furthermore, exposure of acini to IAP caused ADP ribosylation of a membrane protein with Mr = 41,000 in parallel to the inhibition of cAMP accumulation in acini. The present results suggest, therefore, that 1) somatostatin probably functions in the pancreas to regulate adenylate cyclase enzyme system via Ni, 2) the extent of modification of Ni is correlated with the ability of somatostatin to inhibit cAMP accumulation in acini, and 3) guanine nucleotides also inhibit somatostatin binding to its receptor.
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PMID:Coupling of guanine nucleotide inhibitory protein to somatostatin receptors on pancreatic acinar membranes. 288 15

We have utilized the adenocarcinoma cell line HT29 as an in vitro model to investigate the turnover and the metabolism of the alpha 2-adrenoceptor. The biosynthesis rate of the receptor was studied in postconfluent HT29 cells, when its density expressed as fmol/mg of cell membrane protein is constant, by following the recovery of the receptor binding capacity after blockade with the non-reversible alpha-adrenergic antagonist benextramine. Study of the inhibition of [3H]yohimbine and [3H]UK-14,304 binding showed that benextramine was a more potent antagonist at alpha 2-adrenoceptor than phenoxybenzamine. The incubation of intact HT29 cells for 30 min in the presence of 10(-5) M benextramine irreversibly blocked more than 95% of the alpha 2-adrenoceptors and totally suppressed the inhibitory effect of UK-14,304 on cyclic AMP production. The blockade appeared specific, since benextramine effects were prevented by alpha 2-adrenergic agents. Moreover, neither vasoactive intestinal polypeptide responsiveness nor other tested aspects of the regulation of the adenylate cyclase was altered by the treatment. Study of the time course of receptor recovery after irreversible blockade indicated that alpha 2-adrenoceptors reappeared in the cells with a monoexponential kinetic. The linearization of the repopulation curve obtained with the labeled antagonist [3H]yohimbine allowed the determination of the rate constant for receptor degradation (k = 0.0268 +/- 0.0025 hr-1) and the rate of receptor synthesis (6.91 +/- 0.64 fmol/mg of cell membrane protein/hr) corresponding to the synthesis of about 500 receptors/cell/hr. The alpha 2-adrenoceptor half-life was 26 +/- 3 hr. Measurement of the biological effects associated to the alpha-adrenoceptor stimulation during the course of receptor recovery indicated a relationship between the number of cell receptors and the percentage of inhibition of the cyclic AMP accumulation induced by forskolin. The receptor reappearance was totally inhibited by either actinomycin or cycloheximide or tunicamycin, showing that the recovery corresponded to de novo synthesized receptor and giving indirect evidence for the glycoproteic nature of the alpha 2-adrenoceptor. Deprivation for glucose or glutamine also impeded the recovery process; by contrast, addition of UK-14,304 or clonidine did not interfere, indicating that the expression of the alpha 2-adrenoceptor is not subject to homologous regulation in the HT29 cell.
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PMID:In vitro study of alpha 2-adrenoceptor turnover and metabolism using the adenocarcinoma cell line HT29. 289 Oct 26

Bordetella pertussis cells express multiple virulence-associated surface proteins, including adenylate cyclase, agglutinogens 2 and 3, filamentous hemagglutinin, pertussis toxin, and outer-membrane protein (Omp) 30/32 and Omp91. Surface proteins that are not virulence-associated include three peptidoglycan-associated Omps of apparent molecular weights 40,000, 25,000, and 18,000. Omp40 is an anion-selective porin and is the most abundant surface protein of virulent and avirulent cells. Three independent approaches--immunomicroscopy, surface radioiodination, and isolation of Triton X-100-insoluble envelope proteins--suggest that the Triton-insoluble fraction of the B. pertussis cell envelope is the outer membrane. Agglutinogens 2 and 3 and filamentous hemagglutinin lie outside the outer membrane, the first two as fimbriae and the last as a microcapsule. Adenylate cyclase and pertussis toxin are present in the outer membrane but may be present transiently or present in small amounts.
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PMID:Surface proteins of Bordetella pertussis. 290 39

A-69-kDa outer membrane protein present on virulent Bordetella pertussis cells is recognized by the agglutinating monoclonal antibodies BPE3, BPD8, and BPE8. The amino acid composition of this protein, purified from heat extracts of B. pertussis BP353 cells, is different from that of the two major fimbrial antigens of B. pertussis, which is consistent with its being a nonfimbrial protein based on other criteria. Western blot analysis using the monoclonal antibody BPE3 demonstrated that a slightly larger but antigenically cross-reactive protein is also expressed by Bordetella bronchiseptica and Bordetella parapertussis. In addition, a large molecular weight species of about 180-kDa is found in outer membrane extracts of B. bronchiseptica which may represent a precursor form of the protein or indicate that the protein can exist as an oligomer. The monoclonal antibody BPD8 directed against the 69-kDa protein almost completely inhibited the enzymatic activity of adenylate cyclase purified from B. pertussis and also inhibited the intoxication of mammalian cells by this enzyme. Since little enzymatic activity was found associated with the purified 69-kDa protein, these data suggest a role for the 69-kDa protein in regulating the adenylate cyclase toxin of B. pertussis. An additional monoclonal antibody directed against the 69-kDa protein, BPE8, decreases lymphocytosis and delays death in mice receiving a respiratory challenge of virulent B. pertussis cells. These studies suggest that further investigation into the role of this protein as a protective antigen and vaccine candidate is warranted.
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PMID:Structural and functional properties of a 69-kilodalton outer membrane protein of Bordetella pertussis. 290 22


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