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)

The influence of pertussis toxin on the effects of adenosine, the adenosine receptor agonist (-)-N6-phenylisopropyladenosine (PIA) and the m-cholinoceptor agonist carbachol on heart rate and atrioventricular (AV) conduction was investigated in spontaneously beating isolated perfused guinea-pig hearts. In addition, the effects of the agents on the electrocardiogram recorded from anesthetized guinea pigs were studied. Adenosine (0.1-100 mumol/l) and PIA (0.001-100 mumol/l) had concentration-dependent negative chronotropic and negative dromotropic effects. These effects were prevented by pretreatment of the animals with pertussis toxin (150 micrograms/kg; i.v.). Carbachol (0.001-100 mumol/l) had similar cardiac depressant effects. These effects were also abolished by pertussis toxin. In contrast, the negative chronotropic and negative dromotropic effects of the calcium antagonist verapamil which was investigated for comparison were not influenced by pretreatment with pertussis toxin. Since the cardiac depressant effects mediated via adenosine receptors or via m-cholinoceptors are most probably due to an activation of a K+ conductance, it is concluded that both receptors in the sinus node and in the AV node may be coupled via a common pertussis toxin-sensitive guanine nucleotide-binding protein to the K+ channel. It remains to be elucidated whether an additional inhibitory coupling to Ca2+ channels also plays a role.
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PMID:Pertussis toxin prevents adenosine receptor- and m-cholinoceptor-mediated sinus rate slowing and AV conduction block in the guinea-pig heart. 272 94

Adenosine receptors in a spontaneously contracting atrial myocyte culture from 14-day chick embryos were characterized by radioligand binding studies and by examining the involvement of G-protein in coupling these receptors to a high-affinity state and to the adenylate cyclase and the myocyte contractility. Binding of the antagonist radioligand [3H]-8-cyclopentyl-1,3-diproylxanthine ([3H]CPX) was rapid, reversible and saturable and was to a homogeneous population of sites with a Kd value of 2.1 +/- 0.2 nM and an apparent maximum binding of 26.2 +/- 3 fmol/mg of protein (n = 10, +/- S.E.). Guanyl-5-yl-(beta, gamma-imido)diphosphate had no effect on either the Kd or the maximum binding and CPX reversed the N6-R-phenyl-2-propyladenosine-induced inhibition of adenylate cyclase activity and contractility, indicating that [3H] CPX is an antagonist radioligand. Competition curves for [3H] CPX binding by a series of reference adenosine agonists were consistent with labeling of an A1 adenosine receptor and were better fit by a two-site model than by a one-site model. ADP-ribosylation of the G-protein by the endogenous NAD+ in the presence of pertussis toxin shifted the competition curves from bi to monophasic with Ki values similar to those of the KL observed in the absence of prior pertussis intoxication. The adenosine agonists were capable of inhibiting both the adenylate cyclase activity and myocyte contractility in either the absence or the presence of isoproterenol. The A1 adenosine receptor-selective antagonist CPX reversed these agonist effects. The order of ability of the reference adenosine receptor agonists in causing these inhibitory effects was similar to the order of potency of the same agonists in inhibiting the specific [3H]CPX binding (N6-R-phenyl-2-propyladenosine greater than N6-S-phenyl-2-propyladenosine or N-ethyladenosine-5'-uronic acid). These data indicate that the adenosine receptor coupled to inhibition of adenylate cyclase activity and to the negative inotropic effect is the A1 subtype. Pertussis treatment uncoupled the adenosine receptor from both inhibition of adenylate cyclase activity and negative inotropic effect. Taken together, the present study indicates that adenosine receptors of the A1 subtype are present on the spontaneously contracting atrial myocytes and are negatively coupled to adenylate cyclase and to the contractile state. The cultured embryonic chick atrial myocyte preparation represents a useful model system for characterizing the cardiac A1 adenosine receptor.
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PMID:Characterization of the adenosine receptor in cultured embryonic chick atrial myocytes: coupling to modulation of contractility and adenylate cyclase activity and identification by direct radioligand binding. 273 46

Neurons in hippocampal and striatal cell cultures respond to adenosine with an inhibitory potassium current. This response disappears during whole-cell patch-clamp recording in which the cell is filled with minimal saline. We have found that this loss of sensitivity to adenosine can be prevented by including 100 microM GTP in the patch electrode filling solution. GDP is less effective than GTP in supporting the adenosine response, while GMP has little, if any, effect. Treatments known to inhibit GTP-binding proteins (G-proteins) block the adenosine-activated potassium current: The adenosine response is inhibited by including poorly metabolized analogs of guanine nucleotides along with GTP in the recording electrode. Diphosphate and triphosphate analogs appear to achieve this effect through different mechanisms. The adenosine response is also blocked by incubating cultures in islet-activating protein (pertussis toxin), an inhibitor of a class of G-protein. Thus, our data implicate a G-protein in the activation of a potassium current by adenosine. Intracellular ATP can increase the effectiveness of GMP, GDP, or low concentrations of GTP, suggesting that even during internal dialysis, neurons can maintain GTP levels through phosphotransferase reactions. Intracellular ATP also appears to suppress an outward current that is different from the adenosine-activated current. Raising intracellular cAMP levels either with bath-applied forskolin or by including a cAMP analog in the recording electrode did not alter the adenosine response. These results indicate that a G-protein is involved in the coupling between the adenosine receptor and a potassium channel, and that this coupling is not mediated by cAMP.
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PMID:Dependence of an adenosine-activated potassium current on a GTP-binding protein in mammalian central neurons. 282 65

Adenosine potentiates mouse bone marrow-derived mast cell mediator release by a mechanism that appears to involve cell surface adenosine receptors. In an attempt to explore possible interactions between G proteins and adenosine receptors, mast cells were incubated with activated pertussis toxin, an agent that ADP-ribosylates and inactivates some G protein subtypes, prior to challenge with specific antigen or the calcium ionophore A23187. Mast cells preincubated with 10 ng/ml pertussis toxin for at least 2 hr exhibited an inhibition of antigen-induced beta-hexosaminidase and leukotriene C4 release. The ability of adenosine to potentiate beta-hexosaminidase release was attenuated to an even greater degree by pertussis toxin. A23187-stimulated mediator release was not altered by pertussis toxin, although a modest inhibition of the ability of adenosine to enhance A23187-induced beta-hexosaminidase release was observed in pertussis toxin-treated mast cells. Although up to 24-hr exposure to 100 ng/ml pertussis toxin did not alter resting mast cell cyclic AMP levels, the ability of adenosine to elevate cell cyclic AMP concentrations was diminished markedly by doses of the toxin higher than those required to affect mediator release. Neither antigen-stimulated intracellular free calcium level augmentation alone nor the additional potentiation of these levels by adenosine was changed by pertussis toxin treatment. Inositol trisphosphate was generated by mast cells stimulated by IgE-mediated mechanisms, but a preincubation with pertussis toxin did not influence its generation. In summary, adenosine appeared to produce some of its alterations in mast cell biochemical events by a mechanism that was partially inhibited by pertussis toxin. The nature of the G protein linked to the mast cell adenosine receptor is yet to be determined.
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PMID:Alteration of mast cell responsiveness to adenosine by pertussis toxin. 284 50

Changes in cyclic AMP concentrations were studied in intact PC12 pheochromocytoma cells exposed to a variety of treatments. A marked increase was triggered by N-(L-2-phenylisopropyl)adenosine, the activator of an adenosine receptor, whereas a decrease (observed even after phosphodiesterase blockade) was induced by carbachol, working through a muscarinic receptor inhibited by the selective muscarinic blocker pirenzepine, only at high concentration (Ki 450 nM). A decrease in cyclic AMP was also induced by clonidine, an alpha 2-adrenergic-receptor agonist. Both the alpha 2-adrenergic and the muscarinic inhibitions were prevented by pretreatment of the cells with pertussis toxin, and were unaffected by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate. The latter drug caused a decrease in the resting cyclic AMP concentrations, and a potentiation of the increase induced by adenosine-receptor activation. Except for clonidine, all these treatments were found to be effective in both growing PC12 cells and, although to a smaller degree, in cells that had stopped growing and had acquired a neuron-like phenotype after prolonged treatment with nerve growth factor (NGF). Neither forskolin (a direct activator of adenylate cyclase) nor the activation of adenosine and alpha-adrenergic receptors was able to modify the resting cytosolic Ca2+ concentration [Ca2+]i in PC12 cells. Likewise, the K+-induced [Ca2+]i transients were unchanged after these treatments, whereas the transients induced by carbachol through the activation of a muscarinic receptor highly sensitive to pirenzepine were moderately potentiated by forskolin (and, to a lesser degree, by the adenosine analogue) and attenuated by clonidine. These results characterize in further detail the spectrum and the mutual interrelationships of the intracellular signals induced by receptor activation in PC12 cells, also as a function of the NGF-induced differentiation.
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PMID:Second-messenger generation in PC12 cells. Interactions between cyclic AMP and Ca2+ signals. 285 Jul 95

Injections of N6-(phenylisopropyl)adenosine, a nonmetabolizable adenosine A1 receptor agonist, desensitized rat adipocytes to the drug in 20 h. Lipolysis stimulated by 2 mumol/l DL-isoproterenol was inhibited markedly less by N6-(phenylisopropyl)adenosine in adipocytes isolated from treated than control animals (P less than 0.01). Glucose uptake was more responsive to N6-(phenylisopropyl)adenosine in adipocytes from control than treated animals (P less than 0.02). Adenosine content was the same in adipose tissue of control and treated animals. The number of adenosine binding sites was not significantly lower in treated compared with control animals (1580 +/- 279 and 1988 +/- 575 fmol/mg protein; mean +/- SEM). There was no change in receptor affinity (Kd = 10 nmol/l in both groups). There was no decrease in the amounts of the inhibitory guanine nucleotide binding protein (Gi) alpha subunits as studied by pertussis toxin catalyzed ADP-ribosylation. It is concluded that desensitization to N6-(phenylisopropyl)adenosine can be observed without changes in the adenosine receptor status or decrease in the amount of inhibitory guanine nucleotide binding protein and that adipose tissue adenosine content is not changed by the agonist treatment.
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PMID:Rat adipose tissue adenosine sensitivity and adenosine content after subcutaneous administration of N6-(phenylisopropyl)adenosine. 292 38

The intact rat adipocyte was used to investigate the possibility of common intermediates in the insulin stimulation of cyclic AMP phosphodiesterase and the beta-adrenergic/adenosine regulation of adenylate cyclase. A five minute incubation of the isolated adipocytes with insulin produced a 50-100% increase in the phosphodiesterase activity found in the particulate fraction of homogenates. The insulin stimulation was not impaired by the presence of either agonist or antagonists of the inhibitory adenosine receptor which acts on adenylate cyclase. Phosphodiesterase activation by insulin was also observable above the level of stimulation produced by the beta-adrenergic agent isoproterenol and forskolin. The validity of the enzyme activity measurements was supported by measurements of the hormonal actions on cyclic AMP levels within the cells. Possible crossover between the adenylate cyclase and phosphodiesterase regulation systems at a post-receptor site was investigated using adipocytes exposed to bacterial toxins specific for the modification of guanine nucleotide binding proteins. Both cholera toxin, which irreversibly activates Gs and pertussis toxin which inactivates Gi caused some stimulation of the phosphodiesterase activity and suppressed activation by isoproterenol, but neither toxin prevented the insulin stimulation of cyclic AMP phosphodiesterase. These results suggest, while common components may participate in the beta-adrenergic stimulation of both adenylate cyclase and phosphodiesterase, the mechanism of insulin activation of the phosphodiesterase does not involve the components of adenylate cyclase regulation.
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PMID:Insulin stimulation of cyclic AMP phosphodiesterase is independent from the G-protein pathways involved in adenylate cyclase regulation. 304 Aug 18

It has been reported recently (Begin-Heick, N. (1985) J. Biol. Chem. 260, 6187-6193) that adipocytes from the obese mouse strain (ob/ob), unlike normal mice (+/+), lack functional Gi, a GTP-regulated protein complex that mediates inhibition of adenylate cyclase. In contrast, we have found functional Gi linked to inhibition of adenylate cyclase in adipocyte membranes from both ob/ob and +/+ mice. This conclusion is based on observation of: 1) GTP-dependent inhibition of adenylate cyclase by antilipolytic agents, such as prostaglandin E2, nicotinic acid, and the adenosine receptor agonist, phenylisopropyladenosine (PIA); 2) classical biphasic GTP kinetics, with stimulation by low and inhibition by high concentrations of GTP; and 3) elimination of cyclase inhibition by antilipolytic agents upon treatment of ob/ob adipocytes with pertussis toxin. Upon treatment with pertussis toxin and [32P] NAD, purified adipocyte membranes from ob/ob mice incorporated twice as much radioactivity per unit membrane protein than those from +/+ mice in the 40,000-42,000 region. The inhibitory actions of PIA on adenylate cyclase were blocked by the adenosine receptor antagonists, theophylline and isobutylmethylxanthine. However, in contrast to other known inhibitory adenosine receptors, relatively high (100 nM) PIA concentrations were required for half-maximal inhibition of adenylate cyclases from both +/+ and ob/ob adipocytes. The adipocyte adenylate cyclase from both mouse strains were approximately equally susceptible to inhibition by nicotinic acid and prostaglandin E2. However, the ob/ob cyclase was inhibited by 47% with PIA, whereas the enzyme from the +/+ mouse was inhibited by only 27% (p less than 0.01). This greater inhibition by adenosine may contribute to abnormal fat metabolism in adipocytes from ob/ob mice.
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PMID:Presence of a functional inhibitory GTP-binding regulatory component, Gi, linked to adenylate cyclase in adipocytes of ob/ob mice. 310 20

The effects of adenosine and the adenosine receptor agonist (-)-N(6)-phenyl-isopropyladenosine (PIA) in the presence of isoprenaline on isometric force of contraction and calcium dependent slow action potentials were studied in papillary muscles from guinea pigs pretreated with pertussis toxin and control guinea pigs. Hearts from guinea pigs treated in the same way with pertussis toxin or solvent alone underwent histological examination. For comparison, hearts from isoprenaline treated guinea pigs were also studied. Pertussis toxin specifically inactivates guanine nucleotide binding proteins (N proteins) involved in transmembrane signal transduction in many receptor systems (for example, adenosine receptors, m-cholinoceptors, and and alpha 2 adrenoceptors). In papillary muscles from control guinea pigs adenosine and PIA in the presence of isoprenaline produced a negative inotropic effect and inhibited the maximal rate of depolarisation of slow calcium dependent action potentials in potassium depolarised papillary muscles. After pretreatment with pertussis toxin the inhibitory effects both on force of contraction and on the maximal rate of depolarisation of adenosine and PIA were abolished. Treatment with pertussis toxin produced disseminated myocardial necrosis and a disseminated cellular calcium overload evidenced by glyoxal-2-bis-hydroxyanil (GBHA) staining. Similar lesions (for example, myocardial necrosis and cellular calcium overload) were also observed after treatment with isoprenaline. In controls neither myocardial necrosis nor cellular calcium overload was found. It is concluded that pertussis toxin sensitive N proteins are involved in the inhibitory effects of adenosine and PIA on force of contraction and on slow calcium inward current during beta adrenergic stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of the effects of adenosine on force of contraction and the slow calcium inward current by pertussis toxin is associated with myocardial lesions. 316 39

To investigate the cellular mechanisms underlying the epithelial actions of adenosine, we studied adenosine receptor-effector coupling in cultured rabbit cortical collecting tubule (RCCT) cells. We previously reported, in RCCT cells isolated by immunodissection, that a potent A2 adenosine analogue [5'-N-ethylcarboxamideadenosine (NECA)] stimulates cAMP production [effective concentration 50% (EC50) = 1 microM], and potent A1 analogues [N6-cyclohexyladenosine (CHA) and R-N6-phenylisopropyladenosine (PIA)] inhibit basal and AVP-stimulated cAMP production (EC50 = 5 nM). The present study was undertaken to determine whether adenosine receptors in RCCT cells are also coupled to a signal transduction system leading to the mobilization of intracellular free calcium. RCCT cells were loaded with the fluorescent calcium indicator, fura-2, and were treated with the adenosine analogues NECA, CHA, and PIA. All three adenosine analogues produced dose-dependent (1 nM-0.1 mM), transient increases in intracellular calcium concentration with equal potency (EC50 = 0.5 microM). Chelation of extracellular calcium with ethyleneglycol-bis(beta-aminoethyl ether)N,N,N',N' tetraacetic acid (EGTA) did not abolish the increase in calcium. The adenosine receptor antagonists, 1,3-diethyl-8-propylxanthine and 8-cyclopentyl-1,3-dipropylxanthine, and pretreatment of RCCT cells with pertussis toxin blocked the increase in calcium. These results demonstrate that RCCT cells have, in addition to adenosine receptors associated with the stimulation and inhibition of cAMP, a pertussis-toxin sensitive receptor system that leads to the mobilization of intracellular calcium.
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PMID:Adenosine receptor-mediated calcium mobilization in cortical collecting tubule cells. 318 29

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