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)

The effects of norepinephrine on a Ca2+ current from acutely isolated and short-term (24 h) cultured adult rat superior cervical ganglion neurons were studied using the whole-cell variant of the patch-clamp technique. Norepinephrine produced a rapid, reversible and concentration-dependent reduction of the Ca2+ current. Accurately timed applications of norepinephrine (3 microM) showed that the development of Ca2+ current inhibition was delayed by up to 11 s after application of norepinephrine. Internal 500 microM guanylyl-imidodiphosphate (Gpp(NH)p) or guanosine-5'-O-(3-thiotriphosphate) (GTP-gamma-S) decreased the Ca2+ current amplitude and induced a biphasic rising phase of the Ca2+ current. Under these conditions, the reduction of Ca2+ current amplitude by 3 microM norepinephrine was virtually abolished when compared with cells dialysed with GTP-containing internal solutions. Internal dialysis with solutions containing 2 mM guanosine-5'-O-(2-thiodiphosphate) (GDP-beta-S) increased the Ca2+ current amplitude and reduced the inhibition produced by 3 microM norepinephrine compared to cells dialysed with control internal solution. Treatment with 200 ng/ml pertussis toxin for 12-16 h greatly reduced the norepinephrine-induced Ca2+ current inhibition. Internal dialysis with solutions containing 500 microM cyclic adenosine 3',5'-monophosphate (cyclic AMP) and 3-isobutyl-1-methylxanthine had no significant effect on either the Ca2+ current inhibition by norepinephrine or the Ca2+ current amplitude. These results suggest that norepinephrine blocks a Ca2+ current in adult rat superior cervical ganglion neurons via a pertussis toxin-sensitive G-protein which is independent of intracellular cyclic AMP.
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PMID:Norepinephrine inhibits a Ca2+ current in rat sympathetic neurons via a G-protein. 171 78

(1) Streptozotocin-diabetes decreased the responsiveness of noradrenaline- or forskolin-stimulated lipolysis to inhibition by phenylisopropyladenosine (PIA), prostaglandin E1 (PGE1) and nicotinate in rat adipocytes. (2) Diabetes had no effect on high affinity binding of [3H]PIA to adipocyte plasma membranes. (3) Plasma membranes from diabetic animals had increased abundance of alpha-subunits of Gi1 and Gi2. The effect of pertussis toxin in overcoming inhibition of lipolysis by PIA was delayed in adipocytes from diabetic rats. (4) Diabetes decreased the GTP-dependent right-wards shift in the dose-curve for displacement of the antagonist [3H]DPCPX by PIA in adipocyte plasma membranes. (5) It is concluded that, despite increased abundance of Gi in diabetic adipocytes, less of this is functional. This may contribute to reduced sensitivity to PIA, PGE1 and nicotinate and explains some of the loss of control of lipolysis in insulin-dependent diabetes.
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PMID:Diabetes decreases sensitivity of adipocyte lipolysis to inhibition by Gi-linked receptor agonists. 178 8

We found that, besides dihydropyridine-sensitive Ca channels, insulin-secreting RINm5F cells also contain a minority (15-25%) of omega-conotoxin (omega-CgTx)-sensitive channels that show a high-affinity binding to [125I] omega-CgTx (Kd 51 pM). Noradrenaline (NA, 10 microM) slows down Ca-channel activation in these cells and produces a sizeable reduction of Ca currents that is relieved by strong pre-conditioning depolarizations (facilitation). The action of NA is mimicked by intracellular application of GTP-gamma-S and is prevented by pertussis toxin (PTX) or by cell pre-incubation with omega-CgTx. This suggests specific noradrenergic inhibition of omega-CgTx-sensitive Ca channels that is modulated by membrane potentials and PTX-sensitive G-protein activation.
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PMID:Noradrenergic inhibition and voltage-dependent facilitation of omega-conotoxin-sensitive Ca channels in insulin-secreting RINm5F cells. 184 38

The effects of adenosine receptor agonists and antagonists on field-stimulated release of radioactivity from superfused guinea-pig papillary muscles preincubated with [3H] noradrenaline were studied. N6-cyclopentyladenosine (CPA), N6-(R-phenylisopropyl)-adenosine, and 5'-N-ethylcarboxamidoadenosine caused concentration-dependent inhibition of evoked overflow with a rank order of potency typical for interaction of the compounds with the A1-subtype of adenosine receptors. Maximum inhibition was 80%. The A1-selective antagonist 8-cyclopentyl-1,3-dipropyl-xanthine (DPCPX) induced a rightward shift of the concentration-response curve for CPA with a pA2 of 8.35. However, DPCPX per se had no effect on stimulation-evoked tritium overflow. On the other hand, in the presence of 4-nitrobenzylthioinosine (2 mumol/l) and deoxycoformycin (1 mumol/l), inhibitors of adenosine uptake and deamination, respectively, DPCPX produced a concentration-dependent increase in overflow with a pD2 of 8.1. Pretreatment of the animals with pertussis toxin caused a substantial reduction in the activity of toxin-sensitive G proteins, as indicated by a lack of [32P]ADP ribosylation in a ventricular membrane preparation. Nevertheless, the inhibitory effect of the adenosine receptor agonists on stimulus-evoked overflow remained unaffected. These results are compatible with the existence of inhibitory prejunctional adenosine receptors in guinea-pig papillary muscle, which appear to be coupled to a pertussis toxin-insensitive G protein. The role of endogenous adenosine in occupying these receptors seems minimal under basal conditions.
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PMID:Adenosine receptors mediate a pertussis toxin-insensitive prejunctional inhibition of noradrenaline release on a papillary muscle model. 190 20

Pertussis toxin (PT) has been found to block noradrenaline-induced pigment aggregation in fish melanophores, and, based on this, a rapid and highly sensitive assay for PT was developed. Some preliminary results have also indicated that it may be possible to detect PT-like activity in saliva samples from patients with clinically suspected pertussis. In the present study the diagnostic value of the fish melanophore method was evaluated in 70 patients suspected of having pertussis; culture, serology and physician diagnosis were used as reference methods. In 60 of the patients, pertussis was verified by at least one of the reference methods. The melanophore test showed PT-like activity in saliva samples from 58 of the patients. Three patients with reference-verified pertussis showed no PT-like activity in the test; among these, one patient had been immunized and had also been treated with erythromycin during 3 days immediately prior to visiting the hospital. The melanophore test has three major advantages: it allows detection of pertussis in the early and curable stage of the disease; it takes only 2 h to perform; and it requires no sophisticated equipment.
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PMID:The melanophore aggregating response of isolated fish scales: a very rapid and sensitive diagnosis of whooping cough. 193 46

Despite their widespread occurrence in the central nervous system, interactions between co-localized transmitters and their receptors remain poorly understood. Noradrenergic neurons of the nucleus locus coeruleus contain the peptide co-transmitter neuropeptide Y (refs 1,2). In locus coeruleus cells, stimulation of alpha2-adrenoceptors 3,4 or opioid mu-receptors 5,6 increases a potassium conductance and thereby leads to hyperpolarization and inhibition of spontaneous firing. Coupling between these receptors and the inward rectifying K+ channels involves a pertussis toxin-sensitive GTP-binding protein (Gi or Go)7. Here we investigate whether the neuropeptide Y and alpha2-receptors of locus coeruleus neurons interact with one another. When administered alone, neuropeptide Y reduces the discharge of action potentials, probably by increasing the permeability of the membrane to potassium ions through the activation of a G protein; this effect is reduced in the presence of alpha2-adrenoceptor antagonists. Moreover, the peptide selectively increases the hyperpolarizing effect of alpha2-agonists, but does not enhance responses to opioid mu-agonists. We suggest that noradrenaline and its co-transmitter neuropeptide Y stimulate separate receptors, which influence each other in a specific way.
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PMID:Interaction between neuropeptide Y and noradrenaline on central catecholamine neurons. 196 29

The hypothesis that Gi might be involved in the alpha 1-adrenergic, protein kinase C (PKC)-mediated amplification of beta-adrenergic cyclic AMP stimulation in rat pinealocytes was investigated. Treatment of pinealocytes with a high concentration of pertussis toxin (500 ng/ml, 18 h) almost completely (approximately 95%) inactivated two cell membrane G-proteins (kDa 40.7 and 39.8) judged by back ADP-ribosylation of pinealocyte membrane proteins. However, this treatment failed to inhibit either the beta-adrenergic (isoprenaline, ISO 10(-6) M), alpha 1-plus beta-adrenergic (noradrenaline, NA 10(-5) M) or beta-adrenergic plus 12-O-tetradecanoylphorbol 13-acetate (TPA 10(-7) M) induced stimulation of cyclic AMP or cyclic GMP. These results suggest that alpha 1-adrenergic potentiation of beta-adrenergic stimulation of cyclic AMP and cyclic GMP does not involve a pertussis toxin-sensitive G-protein.
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PMID:Pertussis toxin does not inhibit alpha 1-adrenergic potentiation of beta-adrenergic stimulation of cyclic AMP accumulation in rat pinealocytes. 197 Jul 31

Exposure of rat heart muscle cells to noradrenaline (1 microM) for 48 hr led to a decrease in the number of beta 1-adrenoceptors of 50% and a concomitant decrease in adenylyl cyclase stimulation by isoprenaline and forskolin of about 60 and 30%, respectively. In addition, the levels of two inhibitory guanine nucleotide-binding protein (Gi protein) alpha-subunits (Gi alpha 40 and Gi alpha 41) were increased in membranes of noradrenaline-treated cells. Evidence is presented that noradrenaline induces this increase by activation of beta-adrenoceptors. First, the noradrenaline action was mimicked by the beta-adrenoceptor agonist isoprenaline. Second, beta-adrenoceptor blockade by timolol but not alpha-adrenoceptor blockade by prazosin prevented the noradrenaline-induced up-regulation of Gi alpha proteins. Furthermore, timolol but not prazosin abolished the noradrenaline-induced down-regulation of beta 1-adrenoceptors and the decreases in receptor-dependent (isoprenaline) and -independent (forskolin) adenylyl cyclase stimulation. The specific protein synthesis inhibitor Pseudomonas exotoxin A was used to study whether the noradrenaline-induced up-regulation of Gi alpha subunits depends on increased synthesis of these proteins. This toxin inhibits peptide chain elongation by ADP-ribosylating elongation factor 2. Treatment of rat heart muscle cells with Pseudomonas exotoxin A (1 ng/ml) completely prevented the noradrenaline-induced increase in Gi alpha proteins, measured by both pertussis toxin-catalyzed ADP-ribosylation and immunoblotting with anti-Gi alpha antibodies. Most importantly, Pseudomonas exotoxin A also completely prevented the noradrenaline-induced decrease in forskolin-stimulated adenylyl cyclase activity. Furthermore, the noradrenaline-induced decrease in isoprenaline-stimulated adenylyl cyclase activity was significantly attenuated by the toxin, although the down-regulation of beta 1-adrenoceptors caused by noradrenaline treatment was not affected. The data presented suggest that prolonged activation of beta-adrenoceptors in rat heart muscle cells, in addition to causing a receptor down-regulation, induces the synthesis of Gi alpha proteins, which then apparently mediate a decreased adenylyl cyclase responsiveness. The data, additionally, suggest that the synthesis of Gi alpha proteins is under control of the activity of the adenylyl cyclase system and that altered levels of these proteins may play a major role in long term regulation of signal transduction by this enzyme.
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PMID:Pseudomonas exotoxin A prevents beta-adrenoceptor-induced upregulation of Gi protein alpha-subunits and adenylyl cyclase desensitization in rat heart muscle cells. 197 Oct 89

Although the agonist-induced down-regulation of beta-adrenergic receptors has been well documented, the investigations dealing with the agonist-induced changes in G-proteins are few and controversial. To elucidate the alterations in each components of the adenylate cyclase (AC) system, we infused subpressor doses of noradrenaline (NA) to WKY rats (20-week-old) for three different periods (3, - and 14 days) using osmotic minipumps. Beta-adrenergic receptor density measured by 125I-cyanopindolol binding assay, and forskolin-stimulated cyclase activity were both reduced markedly on the 3rd day of the treatment, and these effects persisted beyond the 14th day. Total amounts of the pertussis toxin substrates (inhibitory G-protein; Gi) increased significantly on the 7th day. On the other hand, those of the cholera toxin substrates (stimulatory G-protein: Gs) did not differ during the entire course of the treatment. We concluded that the down-regulations of the beta-adrenergic receptor and the catalytic protein were the adaptative response to the increased extracellular stimuli, and that the alterations observed in Gi might also have an important role to inhibit the transduction of excessive stimulatory signal.
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PMID:[Noradrenaline-induced alterations in beta-adrenergic receptor-adenylate cyclase system of rat myocardium]. 197 76

Certain microbial toxins ADP-ribosylate G proteins that may be related to those postulated to participate in secretion, whilst botulinum neurotoxins, produced by Clostridium botulinum, block Ca2(+)-dependent neurotransmitter release. Thus, botulinum, pertussis and cholera toxins were examined for ADP-ribosyl transferase activity using isolated nerve terminals. Although type D botulinum, cholera and pertussis toxins exhibited such enzymic activity, this was not detectable with types A or B botulinum neurotoxins or their individual chains, in any synaptosomal fraction. Botulinum type D and pertussis toxins ADP-ribosylated proteins with mol. wt approximately 24,000 and 42,000 respectively, whereas cholera toxin modified several proteins including a 51,000/47,000 mol. wt doublet. Pre-incubation of synaptosomes with type A, B or D toxins did not inhibit type D-induced labelling in the corresponding lysate. Similar pre-incubations with cholera or pertussis toxins reduced ADP-ribosylation of their substrates. Hence, under conditions in which these botulinum toxins were shown to block Ca2(+)-dependent transmitter release no ADP-ribosylated substrate was produced in the intact nerve terminals. Moreover, direct correlation was not found between the concentration dependencies of type D toxin for protein modification and inhibition of [3H]noradrenaline release from synaptosomes. These collective findings implicate C3, a non-neurotoxic contaminant of type D, in the enzymic action. The substrate for type D toxin was found in the cytosolic fraction and to a lesser extent in synaptic membranes, the reverse of the situation for pertussis toxin. A combination of the membranes and cytosol was required for maximal labelling of the 51,000/47,000 doublet by cholera toxin. Purified synaptic vesicles contained proteins labelled by type D and pertussis toxins but lacked major cholera toxin substrates. Future research will determine the possible involvement of these toxin-susceptible vesicular proteins in transmitter release.
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PMID:ADP-ribosylation of cerebrocortical synaptosomal proteins by cholera, pertussis and botulinum toxins. 198 53


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