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)

5-hydroxytryptamine (5-HT) is a mitogen for fibroblasts, vascular smooth muscle cells, renal mesangial cells, and jejunal crypt cells. The human carcinoid cell line (termed BON) that we established in our laboratory from a pancreatic carcinoid tumor produces and secretes 5-HT. In this study, therefore, we examined the effect of 5-HT on growth of BON cells. Furthermore, by use of selective 5-HT receptor antagonists, we examined receptor and post-receptor mechanisms by which 5-HT-induced responses were produced. 5-HT stimulated growth of BON cells. 5-HT stimulated phosphatidylinositol (PI) hydrolysis in a dose-dependent fashion and inhibited cyclic AMP production in a dose-dependent fashion. The 5-HT1A/1B receptor antagonist, SDZ 21-009, prevented the reduction of cyclic AMP production evoked by 5-HT and inhibited the mitogenic action of 5-HT. The 5-HT1C/2 receptor antagonist, mesulergine, competitively inhibited PI hydrolysis, but did not affect the mitogenic action of 5-HT. The mitogenic action of 5-HT and the reduction of cyclic AMP production evoked by 5-HT were also inhibited by pertussis toxin. These results suggest that 5-HT is an autocrine growth factor for BON cells and that mitogenic mechanism of 5-HT involves receptor-mediated inhibition of the production of cyclic AMP which may be linked to pertussis toxin-sensitive GTP binding protein. 8-bromo-cyclic AMP inhibited growth of BON cells whereas 8-bromo-cyclic GMP had no effect on cell growth. Involvement of protein kinase A in BON cell growth regulation was confirmed by the observation that a cAMP-dependent protein kinase antagonist (Rp-cAMPS) could stimulate BON cell growth.
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PMID:Receptor-mediated autocrine growth-stimulatory effect of 5-hydroxytryptamine on cultured human pancreatic carcinoid cells. 130 21

The activation of adenosine A1 receptors in DDT1-MF2 smooth muscle cells resulted in both the inhibition of agonist-stimulated cAMP accumulation and the potentiation of norepinephrine-stimulated phosphoinositide hydrolysis. Pharmacological analysis indicated the involvement of an A1 adenosine receptor subtype in both of these responses. In the absence of norepinephrine, the activation of the adenosine receptor did not directly stimulate phosphoinositide hydrolysis. The adenosine receptor-mediated augmentation of norepinephrine-stimulated phosphoinositide hydrolysis was pertussis toxin sensitive and was selectively antagonized by agents that mimicked cAMP (8-bromo-cAMP) or raised cellular cAMP levels (forskolin). This initially suggested that cAMP might partially regulate the magnitude of the phospholipase C response to norepinephrine and that adenosine agonists might enhance the phospholipase C response by reducing cAMP levels. However, neither the reduction of cellular cAMP levels by other agents nor the inhibition of cAMP-dependent protein kinase was sufficient to replicate the action of adenosine receptor activation on phosphoinositide hydrolysis. Thus, in the presence of norepinephrine, adenosine receptor agonists appear to stimulate phosphoinositide hydrolysis via a pathway that is separate from, but dependent upon, that of norepinephrine. This second pathway can be distinguished from that which is stimulated by norepinephrine on the basis of its sensitivity to inhibition by both cAMP and pertussis toxin.
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PMID:Cyclic AMP differentiates two separate but interacting pathways of phosphoinositide hydrolysis in the DDT1-MF2 smooth muscle cell line. 131 18

Adenylyl cyclase in rat adipose cells is stimulated by ligands for Rs receptors (e.g. isoproterenol) and inhibited by ligands for Ri receptors (e.g. adenosine). In contrast, Rs receptors mediate inhibition and Ri receptors mediate augmentation of insulin-stimulated glucose transport activity by a process independent of changes in cellular cAMP-dependent protein kinase activity [Kuroda M., Honnor R. C., Cushman S. W., Londos C. and Simpson I. A. (1987) J. biol. Chem. 262, 245-253]. The present study examines the possible role of G-proteins in the regulation of insulin-stimulated glucose transport activity by Rs and Ri receptors. First, conditions were established that permit intoxication of isolated rat adipocytes by cholera and pertussis toxins without compromising cell integrity. Effectiveness of toxin treatment was monitored by examining adenylyl cyclase activity in isolated plasma membranes. Secondly, neither toxin interfered with the ability of a maximal concentration insulin to initiate the glucose transport response. Thirdly, pertussis toxin eliminated the augmenting effects of adenosine on insulin-stimulated glucose transport activity, but enhanced the inhibitory effects of isoproterenol. Findings with ligands for other Ri receptors (nicotinic acid and prostaglandin E2) mirrored those with adenosine. Finally, cholera toxin elicited a modest depression of transport activity, and only in the absence of an Ri ligand (e.g. adenosine). Furthermore, in contrast to the enhanced stimulation of adenylyl cyclase by isoproterenol and GTP, cholera toxin eliminated the inhibitory effect of isoproterenol on transport activity. The augmentative effects of adenosine on transport activity were unchanged. Measurements of (-/+cAMP) cAMP-dependent protein kinase activity ratios reinforce the notion that modulation of glucose transport activity is independent of changes in cAMP. We conclude that regulation of glucose transport activity by Rs and Ri receptors is mediated by the G-proteins, Gs and Gi (or other toxin substrates), respectively. Inasmuch as such regulation occurs at the plasma membrane and appears to be cAMP-independent, it is suggested that glucose transporters may be direct targets for receptor: G-protein interactions.
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PMID:Cholera and pertussis toxins modify regulation of glucose transport activity in rat adipose cells: evidence for mediation of a cAMP-independent process by G-proteins. 131 47

1. Wide-tipped, low-resistance (approximately 1 M omega) pipettes were used to record the whole-cell Cl- current activated by cAMP-dependent protein kinase (PKA) in guinea-pig ventricular myocytes internally dialysed with or without GTP. Without GTP in the pipette, the response to 1 microM-isoprenaline declined with time and eventually disappeared, usually within approximately 20 min of rupturing the membrane and beginning cell dialysis. 2. This rundown of the isoprenaline response occurred more quickly with wider, lower-resistance pipette tips. 3. After complete rundown of the isoprenaline response, histamine (10 microM), another agonist known to elicit the Cl- current, also had no effect, but extracellular forskolin (1 microM) or intrapipette cAMP (1 mM) could still readily elicit the Cl- current. 4. In contrast, with 100 microM-GTP in the pipette, the response to 1 microM-isoprenaline was well maintained for periods greater than 20 min. But, if GTP was then withdrawn from the pipette, a rundown of the isoprenaline response was seen comparable to that in the experiments begun with GTP-free pipette solution. Moreover, in experiments begun without pipette GTP, the addition of 100 microM-GTP to the pipette solution, after the response to isoprenaline had disappeared, was able to restore that Cl- current response. 5. With GTP in the pipette, the forskolin-induced Cl- current could be suppressed by concurrent exposure to carbachol (10 microM). That inhibition was not seen in myocytes pretreated with pertussis toxin. In untreated myocytes dialysed with GTP-free pipette solution, after disappearance of the isoprenaline response, the muscarinic receptor-mediated inhibition was itself abolished. 6. We confirm that both beta-adrenoceptor-mediated activation of the Cl- current by isoprenaline, and muscarinic receptor-mediated inhibition of the forskolin-induced Cl- current, are mediated by G proteins, and conclude that the disappearance of both receptor-mediated responses during whole-cell recording with GTP-free pipette solution reflects the fall of cellular [GTP] below the level required to maintain G protein-dependent signal transduction.
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PMID:Pipette GTP is essential for receptor-mediated regulation of Cl- current in dialysed myocytes from guinea-pig ventricle. 133 50

Beta-Adrenoceptor agonists activate a time- and voltage-independent Cl- conductance in mammalian cardiac myocytes. To characterize the cellular signaling pathways underlying its regulation, wide-tipped pipettes fitted with a pipette perfusion device were used to record whole-cell current and to introduce nucleotides to the interior of guinea pig ventricular myocytes. Replacement of pipette GTP with GDP beta S prevented activation of the Cl- conductance by Iso, suggesting a requirement for G protein turnover. With GTP in the pipette, the effect of Iso could be abolished by the beta-adrenoceptor antagonist propranolol, and mimicked by histamine or forskolin. These actions of Iso and forskolin are mediated exclusively via cAMP-dependent protein kinase (PKA), because (a) maximal activation of the Cl- conductance by forskolin or pipette cAMP occluded the effect of Iso, and (b) switching to pipette solution containing a synthetic peptide inhibitor (PKI) of PKA completely abolished the Cl- conductance activated by Iso and prevented the action of forskolin, but had no further effect. These results argue against basal activation of the Cl- conductance, and make it extremely unlikely that the stimulatory G protein, Gs, has any direct, phosphorylation-independent influence. The muscarinic receptor agonists acetylcholine (ACh) and carbachol diminished, in a reversible manner, Cl- conductance activated by Iso or forskolin, but not that elicited by cAMP. The muscarinic inhibition was abolished by replacing pipette GTP with GDP beta S, or by preincubating cells with pertussis toxin (PTX), and was therefore mediated by an inhibitory G protein, presumably Gi, influencing adenylyl cyclase activity. Nonhydrolyzable GTP analogues (GTP gamma S or GppNHp) applied via the pipette did not themselves activate Cl- conductance, but rendered Cl- current activation by brief exposures to Iso or histamine, but not to forskolin, irreversible. The Cl- conductance persistently activated by Iso was insensitive to propranolol or ACh, but could still be abolished by pipette application of PKI. The data indicate that stimulation of beta-adrenergic or histaminergic receptors in the presence of nonhydrolyzable GTP analogues causes persistent activation of Gs and uncouples it from the receptors. We conclude that autonomic regulation of cardiac Cl- conductance reflects accurately the underlying modulation of adenylyl cyclase activity and, hence, that this system is a suitable mammalian model for in situ studies of the interactions between adenylyl cyclase, Gs, Gi, and forskolin.
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PMID:Role of GTP-binding proteins in the regulation of mammalian cardiac chloride conductance. 137 58

Epidermal growth factor (EGF) treatment of A-431 cells potentiates up to 5-fold the intracellular cyclic AMP (cAMP) accumulation induced by isoproterenol, cholera toxin, forskolin, or 3-isobutyl-1-methylxanthine (IBMX). EGF potentiates cAMP accumulation in several epithelial cell lines which overexpress the EGF receptor including A-431 cells, HSC-1 cells, and MDA-468 cells, and in the A-431-29S clone which expresses a normal complement of EGF receptors. Although EGF potentiates cAMP accumulation, EGF by itself does not measurably alter the basal level of cAMP. EGF rapidly enhances cAMP accumulation (within 1 to 3 min) in A-431 cells treated with these cAMP-elevating agents. EGF potentiation of cAMP accumulation does not reflect enhancement of beta-adrenergic receptor activation and is not a consequence of intracellular cAMP elevation or the concomitant activation of cAMP-dependent protein kinase. Since EGF potentiates accumulation of both intracellular and extracellular cAMP in isoproterenol-treated A-431 cells, EGF does not potentiate intracellular cAMP accumulation by inhibition of cAMP export. EGF potentiation of cAMP accumulation is pertussis toxin-insensitive and does not result from EGF inhibition of cAMP degradation in A-431 cells. These results demonstrate that EGF transmembrane signaling includes an interaction with a component of the adenylate cyclase system and that this interaction stimulates cAMP synthesis resulting in enhancement of cAMP accumulation.
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PMID:Epidermal growth factor potentiates cyclic AMP accumulation in A-431 cells. 169 98

The kappa-selective opioid peptide dynorphin A (DYN) inhibits neuronal adenylate cyclase activity and reduces neuronal voltage-dependent calcium currents. It is not yet known, however, whether the regulation of calcium channel activity is dependent on or independent of the adenylate cyclase/cAMP system. We used the whole-cell variation of the patch clamp technique to show that DYN reversibly reduced, in a naloxone-sensitive manner, calcium currents in acutely dissociated rat nodose ganglion neurons. DYN slowed the rate of current activation and had a greater effect on currents evoked from relatively negative holding potentials. These actions were mimicked by guanosine 5'-[gamma-thio]triphosphate, which activates GTP-binding proteins (G proteins), and were blocked by pretreatment with pertussis toxin, which inactivates Gi- and Go-type G proteins. In contrast, calcium currents recorded in the presence of the catalytic subunit of the cAMP-dependent protein kinase (AK-C), included in the recording pipette, increased in magnitude throughout the recording. DYN was applied to neurons before and after the effect of AK-C became apparent; the reduction of calcium currents by DYN was greater in the presence of AK-C than in its absence. We conclude that the acute reduction of neuronal calcium currents by DYN occurred by means of activation of pertussis toxin-sensitive Gi- or Go-type G proteins. The persistence of the action of DYN in the presence of AK-C indicates, however, that this effect was independent of a reduction of the activity of the adenylate cyclase/cAMP system and suggests in addition that phosphorylated channels may be preferentially inhibited by DYN.
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PMID:Dynorphin A and cAMP-dependent protein kinase independently regulate neuronal calcium currents. 197 50

The aim of this study was to elucidate the cellular mechanisms of action of epidermal growth factor (EGF) inhibition of parietal cell secretion. EGF effects on histamine- and carbachol-stimulated [14C]aminopyrine (AP) uptake and intrinsic factor (IF) secretion were evaluated in isolated rabbit parietal cells. EGF inhibited histamine-stimulated [14C]AP uptake and IF secretion through a reduction in stimulated adenosine 3',5'-cyclic monophosphate (cAMP) levels. EGF decreased the phosphorylation of a cytosolic 30-kDa, histamine-stimulated, cAMP-dependent protein kinase substrate. These effects on histamine-stimulated activation were reversed by pertussis toxin preincubation. EGF inhibited carbachol-stimulated [14C]AP uptake and IF secretion, but did not alter the carbachol-stimulated Ca2+ transient. These results indicate that EGF inhibits histamine-stimulated secretion through the inhibitory Gi guanosine 5'-triphosphate-binding protein and carbachol-stimulated secretion through a mechanism independent of the activation of an increase in intracellular Ca2+.
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PMID:Effects of epidermal growth factor on signal transduction in rabbit parietal cells. 215 44

(Rp)-Adenosine 3',5'-monophosphorothioate ((Rp)-cAMPS) is a highly specific antagonist of the cAMP-dependent protein kinase from eukaryotic cells and is a very poor substrate for phosphodiesterases. It is therefore a useful tool for investigating the role of cAMP as a second messenger in a variety of biological systems. Taking advantage of stereospecific inversion of configuration around the alpha-phosphate during the adenylate cyclase reaction, we have developed a method for the preparative enzymatic synthesis of the Rp diastereomer of adenosine 3',5'-monophosphorothioate ((Rp)-cAMPS) from the Sp diastereomer of adenosine 5'-O-(1-thiotriphosphate) ((Sp)-ATP alpha S). The adenylate cyclase from Bordetella pertussis, partially purified by calmodulin affinity chromatography, cyclizes (Sp)-ATP alpha S approximately 40-fold more slowly than ATP, but binds (Sp)-ATP alpha S with about 10-fold higher affinity than ATP. The triethylammonium salt of the reaction product can be purified by elution from a gravity flow reversed-phase C18 column with a linear gradient of increasing concentrations of methanol. Yields of the pure (Rp)-cAMPS product of a synthesis with 2 mg of substrate are about 75%.
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PMID:Enzymatic synthesis of the cAMP antagonist (Rp)-adenosine 3',5'-monophosphorothioate on a preparative scale. 217 77

The mechanism of muscarinic inhibition of the Ca-current (ICa) was studied in ventricular myocytes of guinea pig hearts and the following results were obtained. Acetylcholine (ACh) in concentrations up to 10(-4) M had little effect, if any, on ICa in control cells. ACh reduced the isoprenaline (ISP)-induced increase of ICa. The dose-response-relation (ISP concentration vs. ICa density) was shifted by ACh towards higher ISP concentrations. But both, at low and high ISP concentrations ACh had nor or little effect. ACh was ineffective when ICa was increased by dialysing the cell with catalytic subunit of cAMP-dependent protein kinase or cAMP. ACh reduced ICa enhanced by isobutylmethylxanthine or by forskolin. ACh did not depress ICa when the cell was dialysed with the non-hydrolysable GTP-derivative, GMP-PNP. In this condition the beta-adrenergic enhancement of ICa was also absent. Pertussis toxin, which is known to inhibit the inhibitory transducer protein (Ni), abolished the ACh response. We concluded from these results that ACh depresses ICa by inhibiting, via Ni, the cAMP production.
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PMID:On the mechanism of muscarinic inhibition of the cardiac Ca current. 242 6

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