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)

1. The role of adenosine receptors in reducing calcium currents (ICa) and in triggering presynaptic inhibition was studied using whole-cell patch-clamp techniques to record ICa and synaptic currents from the cell bodies of cultured rat hippocampal pyramidal neurones. Recordings of intracellular Ca2+ using the indicator dye Fura-2 were used to obtain further insights into the actions of adenosine agonists. 2. The adenosine analogue 2-chloroadenosine (2-CA) reduced ICa in these neurones. This action was also evident when Ba2+ was used as the charge carrier through Ca2+ channels. Adenosine also reduced the influx of Ca2+ into the cell body during a depolarizing voltage-clamp pulse as measured with Fura-2. The potency of various adenosine receptor agonists was as follows: cyclopentyladenosine greater than cyclohexyl-adenosine greater than or equal to R-phenylisopropyladenosine greater than 2-CA greater than S-phenylisopropyladenosine, consistent with the pharmacological profile of an A1 adenosine receptor. 3. The specific A1 receptor antagonist cyclopentyltheophylline (CPT) blocked the actions of 2-CA on ICa in a competitive fashion. 4. The actions of 2-CA on ICa were abolished by pre-incubation of cultured cells with pertussis toxin (PTX; 250 ng/ml). Intracellular dialysis with the GTP analogue GTP-gamma-S (guanosine-5'-O-(3-thiotriphosphate] enhanced the actions of 2-CA and rendered the response irreversible. 5. Excitatory postsynaptic currents (EPSCs) were recorded from pyramidal neurones under whole-cell voltage clamp by stimulating nearby neurones with an extracellular electrode. 2-CA potently and reversibly reduced the amplitude of EPSCs. This action was shown to be due to presynaptic inhibition of neurotransmitter release. 6. The order of potency of different adenosine agonists in reducing EPSCs was as follows: cyclopentyladenosine greater than cyclohexyladenosine greater than or equal to R-phenylisopropyladenosine greater than 2-CA greater than S-phenylisopropyladenosine. CPT inhibited the action of 2-CA in a competitive fashion. 7. The effects of 2-CA on synaptic transmission were abolished by pre-treatment with 250 ng/ml PTX, indicating that a PTX-sensitive G-protein is involved in this action. 8. These results indicate that activation of adenosine receptors does induce a reduction in ICa in hippocampal pyramidal neurones. Furthermore, this effect and the reduction of excitatory synaptic transmission by adenosine analogues are both mediated by PTX-sensitive G-proteins and have identical pharmacological properties.
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PMID:Analysis of adenosine actions on Ca2+ currents and synaptic transmission in cultured rat hippocampal pyramidal neurones. 166 61

1. The effects of activation of GABAB receptors on Ca2+ currents (ICa) were investigated by application of whole-cell patch-clamp techniques to pyramidal neurones and non-pyramidal interneurones from the rat hippocampus grown in cell culture. 2. (+/-)-Baclofen (10 microM) reduced ICa evoked in pyramidal neurones at 0 mV from a holding potential of -80 mV by 33 +/- 3%. Inhibition could be observed at the peak of ICa with significant inhibition still present after 200 ms at 0 mV. When Ba2+ was used as the charge carrier (IBa) baclofen inhibited 28 +/- 3% of the current at -20 mV from a holding potential of -80 mV. The GABAB receptor antagonist 2-OH-saclofen (50-200 microM) blocked the actions of baclofen. 3. The selective Ca2+ channel blocker, omega-conotoxin fraction GVIA (omega-CgTX), was used to characterize the Ca2+ currents inhibited by baclofen. omega-CgTX (5 microM) blocked 24 +/- 3% of IBa. Following block of the omega-CgTX-sensitive current, baclofen inhibited significantly less current than under control conditions. 4. Addition of the dihydropyridine Ca2+ channel antagonist nimodipine (1 microM) inhibited 18 +/- 5% of ICa at 0 mV from a holding potential of -80 mV and 44 +/- 9% from a holding potential of -40 mV. In addition, nimodipine partially occluded subsequent responses to application of baclofen. 5. In the presence of both 5 microM-omega-CgTX and 200 nM-nimodipine, responses to baclofen were almost completely blocked at depolarized holding potentials where the dihydropyridines are most effective. 6. Inclusion of 500 microM-guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S) in the patch pipette enhanced the response to a subsaturating concentration of baclofen and rendered the response irreversible. Subsequent addition of the adenosine receptor agonist 2-Cl-adenosine (2-CA) (1 microM; which also reduces ICa under control conditions) was without effect, suggesting that these two receptor-effector pathways converge. 7. The actions of baclofen on ICa were blocked by pre-treatment of the cultures with pertussis toxin (250 ng/ml). 8. Baclofen also inhibited ICa in non-pyramidal neurones from the hippocampus, but was slightly less effective. 9. Baclofen reduced both excitatory- and inhibitory postsynaptic currents (EPSCs and IPSCs) recorded as a consequence of extracellular stimulation of presynaptic neurones. This action was blocked by 2-OH-saclofen (200 microM) and also by pretreatment of the cultures with pertussis toxin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:GABAB receptor-mediated inhibition of Ca2+ currents and synaptic transmission in cultured rat hippocampal neurones. 166 52

1. Somatostatin (SS) was found to shorten the action potential of both left and right atrium, and to reduce the force of contraction of the atrium. Action potential shortening was antagonized by the potassium channel blocking drugs tacrine and apamin. They were less effective in reducing the negative inotropic effect of SS. 2. Alkylation of the intact atrium with N-ethylmaleimide abolished both the AP shortening and the negative inotropic effect of SS. 3. Pretreatment of guinea pigs with pertussis toxin abolished the negative inotropic effect of SS and reduced the AP shortening. 4. Binding studies showed there was virtually no interaction between SS and muscarinic and adenosine receptors. 5. It is suggested that the cardiac SS receptor is linked with G protein-K+ channel-adenylyl cyclase system which is analogous to but not identical with the muscarinic and adenosine receptor systems.
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PMID:Is the inhibitory effect of somatostatin on the heart due to K+ channel activation? 168 95

L-Histidine and imidazole (the histidine side chain) significantly increase cAMP accumulation in intact LLC-PK1 cells. This effect is completely inhibited by isobutylmethylxanthine (IBMX). Histidine and imidazole stimulate cAMP phosphodiesterase activity in soluble and membrane fractions of LLC-PK1 cells suggesting that the IBMX-sensitive effect of these agents to stimulate cAMP formation is not due to inhibition of cAMP phosphodiesterase. Histidine and imidazole but not alanine (the histidine core structure) increase basal, GTP-, forskolin-, and AVP-stimulated adenylate cyclase activity in LLC-PK1 membranes. Two other amino acids with charged side chains (aspartic and glutamic acids) increase AVP-stimulated but neither basal- nor forskolin-stimulated adenylate cyclase activity. This suggests that multiple amino acids with charged side chains can regulate selected aspects of adenylate cyclase activity. To better define the mechanism of histidine regulation of adenylate cyclase, membranes were detergent-solubilized which prevents histidine and imidazole potentiation of forskolin-stimulated adenylate cyclase activity and suggests that an intact plasma membrane environment is required for potentiation. Neither pertussis toxin nor indomethacin pretreatment alter imidazole potentiation of adenylate cyclase. IBMX pretreatment of LLC-PK1 membranes also prevents imidazole to potentiate adenylate cyclase activity. Since IBMX inhibits adenylate cyclase coupled adenosine receptors, LLC-PK1 cells were incubated in vitro with 5'-N-ethylcarboxyamideadenosine (NECA) which produced a homologous pattern of desensitization of NECA to stimulate adenylate cyclase activity. Despite homologous desensitization, histidine and imidazole potentiation of adenylate cyclase was unaltered. These data suggest that histidine, acting via an imidazole ring, potentiates adenylate cyclase activity and thereby increases cAMP formation in cultured LLC-PK1 epithelial cells. This potentiation requires an intact plasma membrane environment, occurs independent of a pertussis toxin-sensitive substrate and of products of cyclooxygenase, and is inhibited by IBMX. This IBMX-sensitive pathway does not involve either inhibition of cAMP phosphodiesterase activity or a stimulatory adenosine receptor coupled to adenylate cyclase.
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PMID:Histidine regulation of cyclic AMP metabolism in cultured renal epithelial LLC-PK1 cells. 168 53

1. NaF (10 mM) produced a 2-3 fold increase in adenylate cyclase activity in homogenates of NG108-15 cells incubated in the presence of 1 microM GTP. Higher concentrations of NaF suppressed adenylate cyclase activity. 2. In the presence of the adenosine receptor agonist 5'-(N-ethyl)-carboxamidoadenosine (NECA; 100 microM) or the prostacyclin receptor agonist iloprost (10 nM), NaF produced a much smaller increase in adenylate cyclase activity, whereas in the presence of a saturating concentration of iloprost (1 microM), NaF only inhibited adenylate cyclase activity. 3. Similarly, Gpp(NH)p activated basal adenylate cyclase activity, and inhibited 1 microM iloprost-activated enzyme activity. In the presence of 10 microM forskolin, NaF or Gpp(NH)p increased adenylate cyclase activity synergistically. Analysis of concentration-effect curves indicated that NaF (2 mM) or Gpp(NH)p (100 microM) increased the potency with which forskolin activated adenylate cyclase, whilst reducing the maximum activation of adenylate cyclase by iloprost. 4. Opiate receptors mediate inhibition of adenylate cyclase, and the opiate agonist morphine (100 microM) reduced the capacity of NaF or Gpp(NH)p to inhibit iloprost-activated adenylate cyclase. Unexpectedly, pertussis toxin treatment enhanced the ability of NaF or Gpp(NH)p to inhibit iloprost-activated adenylate cyclase. 5. In the absence of GTP, NaF and Gpp(NH)p remained able both to activate basal adenylate cyclase and to be synergistic with forskolin in activating the enzyme. In contrast the ability of NaF and Gpp(NH)p to inhibit iloprost-activated adenylate cyclase was substantially lost in the absence of added GTP. These results suggest that NaF modulates adenylate cyclase activity in NG108-15 cell membranes by interacting with the alpha subunits of both G0 and Gi regulatory proteins. The effects of NaF and Gpp(NH)p are critically dependent on the prior mode and extent of activation or inhibition of this transmembrane signalling pathway. This simple system may be of use in assessing alterations in GSO-O interaction following manipulations such as hormone receptor desensitization.
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PMID:NaF and guanine nucleotides modulate adenylate cyclase activity in NG108-15 cells by interacting with both Gs and Gi. 169 50

The coupling of the human coronary adenosine receptor to a G protein was investigated in vitro. Hearts were obtained from accidental death victims and the left anterior descending coronary artery (LAD) was taken for experimentation. Cholera toxin (CT) and pertussis toxin (PT) ADP-ribosylated proteins with Mr of 45, 49 (CT), and 41 (PT) kDa. Both processes were sensitive to GTP gamma S. In LAD rings contracted with KCl, adenosine (ADO) and its analogs 5'-N-ethylcarboxamidoadenosine (NECA) and 2-chloroadenosine (CAD) produced concentration-dependent relaxation. These concentration-response curves were shifted to the right significantly in the presence of the competitive ADO receptor antagonist, 8-phenyltheophylline (8-PT), indicating the involvement of ADO receptors. Treatment with NaF/AlCl3, which uncouples G protein-mediated responses, caused significant attenuation of the relaxation responses to ADO, NECA, and CAD. When the rings were incubated with CT, there was an attenuation of the relaxations produced by ADO, CAD, NECA, and isoproterenol (ISOP). Incubation with PT resulted in significant inhibition of the relaxations induced by ADO, NECA, and CAD. The results provide evidence for the presence of CT- and PT-sensitive G protein(s) subserving the relaxing adenosine receptors in human coronary artery.
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PMID:G proteins subserve relaxations mediated by adenosine receptors in human coronary artery. 172 66

Ventricular and atrial myocytes cultured from chick embryos 14 days in ovo were used as model systems to study cardiac adenosine receptors. In membranes of ventricular cultures, blocking of the A1-adenosine receptor pathway by the A1-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) or by pertussis toxin treatment of the myocyte resulted in a significant adenosine agonist-mediated stimulation of the adenylate cyclase activity. The maximal increases in adenylate cyclase activity caused by the equipotent or the A2-adenosine receptor-selective agonists (from 52.1 +/- 3% to 63 +/- 10% [mean +/- SEM]) were significantly greater than those caused by the A1-selective agonists (from 11 +/- 5% to 34.6 +/- 7%) (p less than 0.01, by t test, n = 4-8). However, in membranes of atrial myocytes, when A1-subtype had been blocked, the various adenosine agonists had no effect on the adenylate cyclase activity. Whether the stimulatory adenylate cyclase-coupled adenosine receptor is also capable of stimulating contractility in the intact ventricular myocyte was next investigated. In ventricular but not in atrial cells, the various adenosine agonists caused an increase in the contractile amplitude in the presence of DPCPX or in myocytes preexposed to pertussis toxin. The increase in contraction amplitude caused by each agonist was expressed as percent of maximum (maximum is the increase in contractility caused by 2.4 mM calcium). In the pertussis toxin-treated myocyte, the maximal increases caused by the equipotent or A2-agonists (NECA, MECA, CV-1808, and CGS21680, from 49.6 +/- 3% to 52.5 +/- 6%, n = 8-12) were significantly greater than those elicited by the A1-agonists (2-CADO, S-PIA, R-PIA, and DCCA, from 12 +/- 4% to 37 +/- 3%, n = 8) (p less than 0.05, by t test). These data demonstrated that a stimulatory adenosine receptor, likely the A2-adenosine receptor, was present on the ventricular but not the atrial myocytes and was linked directly to a stimulation of the cardiac contractility. The functional effects mediated by the A1-subtype became manifested in the presence of isoproterenol, as evidence by an inhibition of the isoproterenol-stimulated increases in adenylate cyclase activity and in cardiac contractility by adenosine agonists. Thus, both subtypes of adenosine receptors, each mediating opposing responses, were present on the ventricular myocytes, whereas only the A1-subtype was found in the atria. The presence of a stimulatory functional A2-adenosine receptor may help explain the absence of a direct negative inotropic response to adenosine in the ventricle.
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PMID:Expression and pharmacological characterization of a stimulatory subtype of adenosine receptor in fetal chick ventricular myocytes. 172 88

The cellular signaling mechanism of adenosine action has been studied in highly purified populations of cultured cells from the rabbit medullary thick ascending limb of Henle's loop (MTAL). The effects of specific adenosine-receptor agonists 5'(N-ethylcarboxamido)adenosine (NECA; A2) and N6-cyclohexyladenosine (CHA; A1) on basal and hormone-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) production, cytosolic free calcium concentration ([Ca2+]f), and formation of inositol phosphates were examined. Production of cAMP was stimulated by high doses of NECA and was inhibited by low doses of CHA. The inhibitory effect of CHA was observed in cells in which cAMP production was first stimulated with vasopressin, isoproterenol, prostaglandin E2 (10(-6) M), or calcitonin (100 ng/ml) and was abolished by pretreating the cells with pertussis toxin (PT) for 12-20 h. A highly selective adenosine A1 antagonist, 8-cyclopentyl-1,3-dipropylxanthine (CPX), also abolished the inhibitory effect of CHA. Both NECA and CHA induced a rapid (10 s) and transient increase in [Ca2+]f, and this was associated with an increased inositol trisphosphate (IP3) production. Single-cell [Ca2+]f measurements indicated that all MTAL cells responded to CHA. The removal of extracellular Ca2+ failed to inhibit these responses. Pretreatment with PT or administration of CPX abolished both the increase in [Ca2+]f and the formation of IP3 occurring in response to CHA and NECA. Our results suggest that both adenylate cyclase-coupled inhibitory (A1) and stimulatory (A2) adenosine receptors are present in pure populations of cultured MTAL cells. Moreover, activation of an adenosine receptor coupled to a PT substrate results in the increased production of inositol phosphate and elevation of [Ca2+]f.
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PMID:Effects of adenosine on cAMP production and cytosolic Ca2+ in cultured rabbit medullary thick limb cells. 184 67

We have previously shown that adenosine, acting at an A1 receptor, contracts the smooth muscle of virgin guinea pig uterus (M. A. Smith, I. L. O. Buxton, and D. P. Westfall. J. Pharmacol, Exp. Ther. 247: 1059-1063, 1988) and is not coupled to the expected inhibition of adenylate cyclase (M. A. Smith, J. L. Silverstein, D. P. Westfall, and I. L. O. Buxton. Cell. Signal. 1: 357-365, 1989). To probe the importance of contractile actions of adenosine in uterine smooth muscle and to further characterize the signal transduction pathway involved in A1-receptor action, we have studied the adenosine receptor and its coupling in pregnant guinea pig myometrium. Adenosine agonist and antagonist radioligands bind to saturable sites of the A1 subtype homogeneously distributed in the smooth muscle of pregnant guinea pig uterus. Agonist competition of antagonist radioligand binding in both the absence and presence of guanine nucleotide reveals high and low agonist affinity states of the receptor. Pretreatment of tissues with pertussis toxin (PTx) shifts the high-affinity sites to a lower affinity but does not affect low-affinity sites, whereas agonist competition in the presence of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) is indistinguishable from the control, which is consistent with coupling of A1 receptors to both PTx-sensitive and PTx-insensitive GTP-binding proteins. Adenosine receptor inhibition of adenylate cyclase activity is prevented after pretreatment of the tissue with PTx, whereas increased inositol phosphate production is not. The data presented here are consistent with coupling of the A1 receptor to dual effectors in the pregnant state of the smooth muscle. The unique action of an A1 receptor to contract mammalian smooth muscle and the appearance, only in the pregnant state, of coupling to adenylate cyclase inhibition suggest a role for adenosine in parturition biology.
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PMID:Smooth muscle adenosine A1 receptors couple to disparate effectors by distinct G proteins in pregnant myometrium. 190 2

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


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