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)

In the presence of 1 microM atrial natriuretic factor (ANF) and low (0.1 mM) Mg2+ concentrations, the initial rate of binding of [3H]guanosine 5'-[beta, gamma-imido)triphosphate [( 3H]p[NH]ppG) to rat lung plasma membranes was increased twofold to threefold. ANF-dependent stimulation of the initial rate of [3H]p[NH]ppG binding was reduced at high (5 mM) Mg2+ concentrations. Preincubation of membranes with p[NH]ppG (5 min at 37 degrees C) eliminated the ANF-dependent effect on [3H]p[NH]ppG binding whereas ANF-dependent [3H]p[NH]ppG binding was unaffected by similar pretreatment with guanosine 5'-[beta-thio]diphosphate (GDP[beta S]). An increase in ANF concentration from 10 pM to 1 microM caused a 40% decrease in forskolin-stimulated or isoproterenol-stimulated adenylate cyclase activities (IC50 5 nM) in rat lung plasma membranes. GTP (100 microM) was obligatory for the ANF-dependent inhibition of adenylate cyclase, which could be completely overcome by the presence of 100 microM GDP[beta S] or the addition of 10 mM Mn2+. Reduction of Na2+ concentration from 120 mM to 20 mM had the same effect. Pertussis toxin eliminated ANF-dependent inhibition of adenylate cyclase by catalyzing ADP-ribosylation of membrane-bound Ni protein (41-kDa alpha subunit of the inhibitory guanyl-nucleotide-binding protein of adenylate cyclase). The data support the notion that one of the ANF receptors in rat lung plasma membranes is negatively coupled to a hormone-sensitive adenylate cyclase complex via the GTP-binding Ni protein.
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PMID:Involvement of Ni protein in the functional coupling of the atrial natriuretic factor (ANF) receptor to adenylate cyclase in rat lung plasma membranes. 283 33

Preincubation with an alpha 2-adrenergic agonist sensitized subsequent forskolin- and vasoactive intestinal peptide-stimulated cyclic AMP production in HT29 cells, a human colonic adenocarcinoma cell line. Preincubation with somatostatin, another agonist negatively coupled to adenylate cyclase, sensitized forskolin-stimulated cyclic AMP production to a lesser extent. alpha 2-Adrenergic agonist preincubation also resulted in desensitization as indicated by a shift to the right in the dose-response curve of a subsequent challenge by an alpha 2-adrenergic agonist. In an effort to elucidate the mechanism for sensitization, we examined protein kinase C and the Na+/H+ antiporter. Whereas these components had marked effects on forskolin stimulation, there was no effect on sensitization. Changes in the concentration of extra-cellular Ca2+ or Mg2+ had no effect on either forskolin stimulation or sensitization. Pertussis toxin pretreatment caused a time-dependent decrease in sensitization, an attenuation of inhibition of cyclic AMP production, and a decrease in subsequent [32P]ADP-ribosylation by pertussis toxin. The time course for these three events was similar, implicating the inhibitory guanine nucleotide regulatory protein in the mechanism for alpha 2-adrenergic receptor-mediated sensitization of forskolin-stimulated cyclic AMP production. In addition, pertussis toxin dramatically decreased forskolin-stimulated cyclic AMP production, although with a different time course. These results suggest that the mechanism of sensitization is via an as yet undefined sequence of biochemical events that includes the inhibitory guanine nucleotide regulatory protein, but does not include inhibition of adenylate cyclase nor activation of the Na+/H+ antiporter.
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PMID:Characterization and possible mechanisms of alpha 2-adrenergic receptor-mediated sensitization of forskolin-stimulated cyclic AMP production in HT29 cells. 284 62

12-O-Tetradecanoylphorbol-13-acetate (TPA) enhances the apparent maximal velocity of adenylate cyclase in S49 lymphoma cells, an effect that seems not to result from an increased rate of activation of the catalytic subunit by the stimulatory GTP-binding protein (Gs) (Bell, J. D., Buxton, I. L. O., and Brunton, L. L. (1985) J. Biol. Chem. 260, 2625-2628). In membranes from wild type S49 cells, this enhancing effect of TPA is largely GTP-dependent; TPA enhances forskolin-stimulated adenylate cyclase activity by 35% in the presence of guanine nucleotide but only slightly (approximately 10%) in its absence. TPA causes comparable results in membranes from the cyc- variant that lacks the GTP-binding subunit of Gs. Blockade of the activity of the inhibitory GTP-binding protein (Gi) by high concentrations of Mg2+ (100 mM) or Mn2+ (3 mM) abolishes the effect of TPA to enhance adenylate cyclase activity in wild type membranes. The potentiation by TPA of cAMP accumulation in intact cells is greater than and not additive with the similar effect of pertussis toxin (an agent known to abolish hormonal inhibition of adenylate cyclase). Kinetic experiments indicate that TPA decreases the rate of activation of Gi by guanine nucleotide. We conclude that the resultant withdrawal of tonic inhibition of adenylate cyclase is one mechanism by which phorbol esters enhance guanine nucleotide-dependent cAMP synthesis.
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PMID:Enhancement of adenylate cyclase activity in S49 lymphoma cells by phorbol esters. Withdrawal of GTP-dependent inhibition. 287 69

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

Hormonal activation and inhibition of the GH4Cl1 cell adenylate cyclase complex is delineated. In the presence of the guanyl nucleotide GTP, enzyme activity was enhanced twofold by thyroliberin, sixfold by vasoactive intestinal peptide (VIP), twofold by prostaglandin E2 and twofold by isoproterenol. The diterpene, forskolin, increased, the activity 14-fold. In the presence of high GTP (400 microM) and NaCl (150 mM) concentrations, somatostatin inhibited (ED50 = 0.5 microM) the cyclase activity by 40%. In the presence of 10 microM somatostatin, the ED50 values (5 nM) for thyroliberin- and VIP-stimulated adenylate cyclase activities were shifted to 20 nM. Forskolin-elicited activation was, however, not affected by somatostatin. Cholera-toxin and pertussis-toxin pretreatment of the enzyme brought about some 20-fold and twofold activation, respectively. Inhibition by somatostatin was abolished upon pre-exposure to pertussis toxin. Mild alkylation by N-ethylmaleimide increased basal and hormone-activated adenylate cyclase while somatostatin again failed to express its inhibitory potential. Further alkylation caused a gradual decline and convergence of hormone-modulated cyclase activities towards zero. The N-ethylmaleimide-induced attenuation of thyroliberin-elicited activity was paralleled by a decrease in [3H]thyroliberin binding. Trifluoperazine and an anti-calmodulin serum reduced basal and net thyroliberin-, VIP- and forskolin-enhanced cyclase activities by some 30%, 100%, 70% and 80%, respectively. The Vmax of basal and thyroliberin-stimulated adenylate cyclase was diminished by 65%, leaving the apparent Km values (7.2 mM and 2.6 mM, respectively) for Mg2+ unaltered. Finally, the phorbol ester 12-O-tetra-decanoyl-phorbol 13-acetate (TPA) doubled the activity. This effect was counteracted by the protein kinase C inhibitor, polymyxin B, while thyroliberin-enhanced adenylate cyclase remained unaffected. In summary, we have described an adenylate cyclase with stimulatory (Rs) and inhibitory (Ri) receptors coupled to a calmodulin-sensitive holoenzyme through the Gs and Gi type of GTP-binding proteins. The ratio of the Gs to Gi is high. It appears that the GH4C1 cell adenylate cyclase is also activated by protein kinase C by interference with Gi. Apparently, thyroliberin activates the cyclase both directly through Gs and indirectly via protein kinase C stimulation.
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PMID:Hormone-sensitive adenylate cyclase of prolactin-producing rat pituitary adenoma (GH4C1) cells: molecular organization. 290 68

We have previously shown that liver plasma membrane (Ca2+-Mg2+)-ATPase activity is inhibited by glucagon. To investigate the possible involvement of a GTP-binding (G) protein in this regulation, we have examined the effects of pertussis toxin and cholera toxin on inhibition of (Ca2+-Mg2+)-ATPase by glucagon. Treatment of liver plasma membranes with pertussis toxin did not affect the sensitivity of (Ca2+-Mg2+)-ATPase to the hormone. In contrast, treatment of plasma membranes or prior injection of animals with cholera toxin prevented inhibition of the (Ca2+-Mg2+)-ATPase by glucagon. Even though adenylate cyclase activity was increased by cholera toxin treatment, addition of cyclic AMP did not mimic the effect of cholera toxin in blocking glucagon-mediated inhibition of (Ca2+-Mg2+)-ATPase activity. These data suggest that a cholera toxin-sensitive protein, perhaps Gs or a Gs-like protein, is involved in the regulation of liver (Ca2+-Mg2+)-ATPase activity. The results emphasize the possible role of Gs-like proteins in regulation of enzymes other than adenylate cyclase and suggest that the study of (Ca2+-Mg2+)-ATPase may provide a useful enzymatic system to examine such regulation.
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PMID:Cholera toxin blocks glucagon-mediated inhibition of the liver plasma membrane (Ca2+-Mg2+)-ATPase. 295 93

Using modifications of the methods of Bokoch et al. (Bokoch, G.M., Katada, T., Northup, J. K., Ui, M., and Gilman, A. G. (1984) J. Biol. Chem. 259, 3560-3567) and Codina et al. (Codina, J., Hildebrandt, J. D., Sekura, R. D., Birnbaumer, M., Bryan, J., Manclark, C. R., Iyengar, R., and Birnbaumer, L. (1984) J. Biol. Chem. 259, 5871-5886), we have purified a pertussis toxin substrate with the expected characteristics of the inhibitory guanine nucleotide-binding protein (Ni) essentially to homogeneity. The purified protein consists of 3 subunits of Mr 40,000, 35,000, and less than 10,000. The Mr 40,000 band is found, upon close examination, to consist of a poorly resolved doublet. Starting with the membranes from 1,320 g of bovine forebrain we purified the protein some 100-fold with approximately 20% yield to obtain 13 mg of a greater than 95% pure protein. Chromatography on octyl-Sepharose provided efficient separation of Ni from Ns (the stimulatory guanine nucleotide-binding protein). Analytical ultracentrifugation indicates an Mr of 82,000 and a sedimentation coefficient S20,w of 5.1. The protein is able to restore opiate-mediated inhibition of adenylate cyclase to membranes prepared from NG 108-15 cells which had been treated with pertussis toxin. Bovine brain Ni has the enzymatic properties of a low Km GTPase with a turnover number of 0.3 and affinities for nucleotides in the order GppNHp greater than or equal to GTP greater than or equal to GDP much greater than ATP, CTP, UTP, and GMP. Na+ specifically stimulates the GTPase and low concentrations of Mg2+ (less than 50 microM) are inhibitory. Some Mg2+ is apparently necessary because EDTA, but not EGTA, abolishes the GTPase activity.
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PMID:The inhibitory guanine nucleotide-binding protein (Ni) purified from bovine brain is a high affinity GTPase. 298 5

Numerous hormones are known to rapidly activate polyphosphoinositide turnover in target cells by promoting phosphodiesteratic cleavage of the phospholipids; however, little is known about the enzymology of receptor-mediated phosphoinositide breakdown. In the present study, thyrotropin-releasing hormone (TRH) stimulation of polyphosphoinositide turnover has been characterized in electrically permeabilized, [3H]myoinositol-labeled GH3 cells. The permeable cells allow the influence of small molecular weight (Mr less than or equal to 1000) cofactors to be determined. We present evidence for the following: 1) TRH stimulates inositol phosphate generation in permeable cells; 2) optimal hormone-stimulated inositol phosphate generation requires Mg2+, ATP, and Ca2+; 3) Mg2+ and ATP requirements reflect polyphosphoinositide kinase reactions; 4) in the absence of MgATP, TRH stimulates the phosphodiesteratic breakdown of pre-existing polyphosphoinositides in a reaction which requires only low Ca2+ (10(-7) M); 5) hormone activation is potentiated in the presence of the stable guanine nucleotide, GTP gamma S; neither TRH-stimulated nor GTP gamma S-potentiated hydrolysis is inhibited by cholera or pertussis toxin treatment. These results demonstrate that hormone-induced phospholipid hydrolysis involves activation of a phosphoinositide phosphodiesterase; activation results in lowering the Ca2+ requirement of the phosphodiesterase such that maximal activity is observed at Ca2+ levels characteristic of a resting cell (10(-7) M). Furthermore, TRH regulation of polyphosphoinositide hydrolysis is modulated by guanine nucleotides; however, nucleotide regulation appears to involve a GTP-binding factor (Np) other than Ns or Ni.
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PMID:Thyrotropin-releasing hormone activates a Ca2+-dependent polyphosphoinositide phosphodiesterase in permeable GH3 cells. GTP gamma S potentiation by a cholera and pertussis toxin-insensitive mechanism. 300 71

Treatment of membranes from bovine cerebral cortex with N-ethylmaleimide (NEM) resulted in inhibition of gamma-aminobutyric acid (GABA) binding to GABAB receptors. The binding curve for increasing concentrations of agonist was shifted to the right by NEM treatment. Guanine nucleotide had little effect on the binding of GABA to NEM-treated membranes. The addition of purified GTP-binding proteins, which were the substrates of islet-activating protein (IAP), pertussis toxin, to the NEM-treated membranes caused a shift of the binding curve to the left, suggesting modification of GTP-binding proteins rather than receptors by NEM. Therefore, the effect of NEM on two purified GTP-binding proteins, Gi (composed of three subunits with molecular weight of alpha, 41,000; beta, 35,000; gamma, 10,000) and Go (alpha, 39,000; beta, 35,000; gamma, 10,000) was studied. NEM did not significantly change guanosine 5'-(3-O-thio)triphosphate (GTP gamma S) binding and GTPase activity of these two proteins. In contrast, NEM-treated Gi and Go were not ADP-ribosylated by IAP and did not increase GABA binding to NEM-treated membranes. When alpha and beta gamma subunits were treated with NEM and then mixed with nontreated alpha and beta gamma to form Gi or Go, respectively, both oligomers with NEM-treated alpha-subunits lost their abilities to be IAP substrates and to couple to receptors. These results indicate that NEM uncoupled GTP-binding proteins from receptors by modifying alpha-subunits of GTP-binding proteins, and the site seemed to be on or near the site of ADP-ribosylation by IAP. When alpha and beta gamma subunits were treated with NEM and then mixed to form Gi or Go, GTP gamma S binding in the absence of Mg2+ and GTPase activity were changed, although they were not affected when oligomers were treated with NEM. The results suggest the existence of another sulfhydryl group which is protected from NEM by the association of subunits. The modification of this sulfhydryl group by NEM appeared to interfere with the interaction between alpha and beta gamma.
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PMID:Uncoupling of gamma-aminobutyric acid B receptors from GTP-binding proteins by N-ethylmaleimide: effect of N-ethylmaleimide on purified GTP-binding proteins. 300 32

[32P]ADP-ribosylation of membrane proteins catalyzed by either cholera toxin or pertussis toxin was markedly enhanced by NADP+. The effect was concentration dependent; with 20 microM [32P]NAD+ as a substrate maximal enhancement was obtained at a concentration of 0.5-1.0 mM NADP+ for rabbit and guinea-pig liver membranes and 0.1 mM NADP+ for human erythrocyte membranes. NADP+ appears to act by inhibiting the degradation of NAD+ by NAD+-glycohydrolase (NADase) present in membrane preparations, probably as an alternate substrate for the enzyme. Among inhibitors tested (NADP+, isonicotinic acid hydrazide, imidazole, nicotinamide, L-arginine methyl ester and HgCl2) to suppress the enzyme activity, NADP+ was the most effective and, at 10 mM, inhibited hepatic NADase activity by about 90%. The effect of NADP+ was much greater than that of other known effectors of ADP-ribosylation such as Mg2+ and phosphate, or the NADase inhibitors, isonicotinic acid hydrazide and isonicotinamide. In membranes which contain substantial activities of NADase the inclusion of NADP+ in the assay system is necessary to achieve maximal ADP-ribosylation of membrane proteins.
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PMID:NADP+ enhances cholera and pertussis toxin-catalyzed ADP-ribosylation of membrane proteins. 302 76


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