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)

1. Ca(2+)-channel modulation by adenosine was investigated in enzymatically dispersed adult rat superior cervical ganglion (SCG) neurons using the whole-cell variant of the patch-clamp technique. 2. Adenosine produced a concentration-dependent decrease in the Ca(2+)-current amplitude with an EC50 of 174 nM and maximum inhibition of 36%. The effects of adenosine on the Ca2+ current were both time and voltage dependent. The inhibition was maximal at +10 mV and decreased at either hyperpolarizing or depolarizing potentials. 3. The inhibitory response desensitized after prolonged (> 1 min) exposure to 10 microM adenosine, whereas multiple brief (< 30 s) applications slightly decreased the subsequent response. 4. Adenosine-induced Ca2+ current inhibition was mediated by an A1-type adenosine receptor, because the half-maximal inhibition value for an A1 receptor selective agonist, chloro-N-cyclopentyladenosine, was 1,000-fold lower than that for an A2 receptor selective agonist, 2-p-(2-carboxyethyl)phenethylamino-5'-N-ethylcarbozamido adenosine hydrochloride (33 nM vs. 40 microM, respectively). 5. A guanine nucleotide binding protein (G protein) appeared to be involved in the action of adenosine, because: 1) the adenosine-induced current inhibition could be largely relieved by depolarizing voltage prepulses; 2) tail current analysis revealed that adenosine shifted Ca(2+)-channel activation to more depolarized potentials; and 3) adenosine inhibition was abolished by 2 mM intracellular guanosine 5'-O-(2-thiodiphosphate) or 500 ng/ml pertussis toxin pretreatment. 6. Adenosine did not appear to inhibit L-type Ca2+ channels, because the prolonged tail current component induced by the dihydropyridine "agonist" 2,6-dimethy-3-carbomethoxy-5-nitro-4-(2-trifluoromethyl-phenyl)- 1,4-dihydropyridine (2 microM) was not affected by adenosine. 7. Adenosine-induced inhibition was reduced to approximately 15% after application of 10 microM omega-conotoxin GVIA, suggesting that adenosine primarily inhibits N-type Ca2+ channels. The Ca(2+)-current component resistant to omega-conotoxin GVIA was also resistant to omega-agatoxin IVA (200 nM), suggesting a lack of P-type of Ca2+ channels in SCG neurons. 8. In conclusion, adenosine produces a dose-, time-, and voltage-dependent inhibition of Ca2+ currents in SCG neurons. Adenosine acts on an A1 adenosine receptor subtype in SCG neurons via a pertussis toxin-sensitive G protein to inhibit N-type Ca2+ channels and an unidentified Ca(2+)-current component. Modulation of Ca2+ currents by adenosine may be an important mechanism for its inhibitory effect on neurotransmitter release in sympathetic neurons.
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PMID:Adenosine modulates voltage-gated Ca2+ channels in adult rat sympathetic neurons. 841 Jan 61

1. The effect of a range of adenosine receptor agonists on intracellular free calcium concentration ([Ca2+]i) has been studied in the hamster vas deferens smooth muscle cell line DDT1MF-2. 2. Adenosine receptor agonists elicited a rapid and maintained increase in [Ca2+]i in fura-2 loaded DDT1MF-2 cells. The initial rise could be maintained in the absence of extracellular calcium, whereas the maintained or plateau phase was dependent upon the presence of extracellular calcium and appeared to be associated with calcium influx. The rank order of agonist potencies was N6-cyclopentyladenosine > 5'-N-ethylcarboxamidoadenosine > 2-chloroadenosine > adenosine. 3. The response to 2-chloroadenosine was antagonized by the antagonists 8-cyclopentyl-1,3-dipropylxanthine (DPCPX, KD 0.14 nM) and 8-phenyltheophylline (KD 112 nM). 4. Pretreatment with the 5-lipoxygenase inhibitor AA861 (20 microM) produced only a small (14 +/- 2%) inhibition of the [Ca2+]i response elicted by N6-cyclopentyladenosine (300 nM), in nominally Ca(2+)-free buffer containing 0.1 mM EGTA. The cyclo-oxygenase inhibitor, indomethacin (2 microM) was without effect. 5. The Ca(2+)-influx associated with the plateau phase required the continued presence of agonist on the receptor. The antagonist DPCPX (100 nM) attenuated the rise in [Ca2+]i observed when extracellular Ca2+ was re-applied after the cells had been stimulated with N6-cyclopentyladenosine (CPA; 300 nM) in experiments initiated in nominally Ca(2+)-free buffer. 6. Pretreatment with pertussis toxin (200 ng ml-1 for 4 h) inhibited the CPA (100 nM) stimulated intracellular Ca2+ release and Ca2+ influx but was without effect on the response to histamine (100 microM). 7.These data suggest that adenosine A(1)-receptor activation in DDT(1)MF-2 cells stimulates release of Ca(2+) from intracellular stores and influx of extracellular Ca(2+) through Ca(2+) entry pathways in the plasma membrane which required the continued presence of agonist on the receptor.
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PMID:Adenosine A1-receptor stimulated increases in intracellular calcium in the smooth muscle cell line, DDT1MF-2. 842 18

Changes of intracellular calcium concentrations [Ca2+]i were measured in primary cultured rabbit proximal convoluted tubules (PCT). A dual-excitation, digital-imaging inverted microscope was used to monitor the fura-2 fluorescence. The basal calcium level was 106 +/- 11 nM (n = 36). The stimulatory effects of adenosine triphosphate (ATP), adenosine diphosphate (ADP) and adenosine were studied. ATP and ADP induced transient increases of [Ca2+]i (1059 +/- 115% of the resting level (n = 29), and 659 +/- 134% (n = 10), respectively) by releasing calcium from cytoplasmic stores. Adenosine had less effect (279 +/- 48% of the resting level, n = 3). In the same conditions the ATP antagonist suramin (100 microM) inhibited the action of ATP and ADP to 231 +/- 52% (n = 3), and 308 +/- 29% (n = 4) of the resting level, respectively, but did not modify that of adenosine (281 +/- 72%, n = 3). A pretreatment (500 ng/ml for 2 h at 37 degrees C) of the culture with the toxin of Bordetella pertussis completely blocked the ATP response. Our results are evidence for the presence of a functional suramin-sensitive ATP and ADP puriceptor in cultured renal proximal cells. A pertussis-toxin-sensitive G protein is linked to the transduction mechanism. This receptor is distinct from an adenosine puriceptor also found in the proximal monolayer.
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PMID:Nucleotides mobilize intracellular calcium stores of renal proximal cells in primary culture: existence of a suramin-sensitive mechanism. 845 82

This study characterizes the distribution of various guanosine triphosphate-binding proteins (G proteins) in rat intestinal epithelial membranes. Enriched basolateral membranes were prepared from isolated enterocytes through differential density centrifugation; apical membranes were prepared with a chaotropic agent. Enrichment and purity of the membrane fractions were assessed by various biochemical markers. G proteins were identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after adenosine diphosphate ribosylation in the presence of pertussis or cholera toxins. Western blotting was performed with the use of highly specific antibodies against the following subunits: alpha Gs, alpha G1(1 or 2), alpha G 1(3), alpha Go, alpha Gz, and beta subunits. Adenosine diphosphate ribosylation catalyzed by cholera toxins revealed two major substrates of molecular weights 47 and 43 kd in only the crude and basolateral fractions. The reaction catalyzed by pertussis toxin revealed a 41 kd substrate in the crude and basolateral fractions and a 40 kd substrate in the apical fraction. Immunoblotting confirmed the presence of alpha Gs, alpha G1(1 or 2), and alpha G1(3) but failed to identify alpha Go or alpha Gz subunits in the basolateral fraction; none of these subunits were identified in the apical fraction. Beta subunits were identified in both apical and basolateral fractions. These findings suggest selective sorting of the G proteins to regional domains in the plasma membrane of intestinal epithelial cells. The presence of previously unidentified G proteins is also suggested.
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PMID:Biochemical and immunochemical localization of GTP-binding proteins in the rat ileal enterocyte. 847 96

Adenosine evoked whole-cell potassium currents and enhanced intracellular free Ca2+ concentration ([Ca2+]i) in superior colliculus neurons through a P2Y purinoceptor linked to a pertussis toxin-insensitive G-protein, possibly Gq-protein, which is involved in a protein kinase C (PKC) activation pathway. The [Ca2+]i increase was inhibited by a phospholipase C (PLC) inhibitor, whereas the evoked currents were not affected by a PLC inhibitor or a phospholipase A2 (PLA2) inhibitor. Adenosine elicited single channel currents via PKC activation in cell-attached patches and furthermore, those currents with conductances of the same slope were induced even in excised patches, suggesting that PKC can be activated only by cell membrane factors without intracellular components. These results thus indicate that the P2Y purinoceptor-coupled potassium channel is regulated via a novel PKC activation pathway independent of PLC or PLA2.
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PMID:Adenosine evokes potassium currents by protein kinase C activated via a novel signaling pathway in superior colliculus neurons. 854 92

The effect of the adenosine A1 receptor activation on calcitonin secretion was studied in medullary thyroid carcinoma cells of the rat (rMTC 6-23). Calcitonin was determined by radioimmunoassay, intracellular cAMP by protein binding assay, intracellular calcium in fura-2 loaded single cells using microspectrofluorimetry, and calcium channel activity by patch clamp technique. The adenosine A1 receptor analogue N-6 phenylisopropyl-adenosine (PIA) (10(-10)-10(-6) M) inhibits dose-dependently glucagon (10(-7) M) and rGRH (10(-7) M) stimulated cAMP formation and calcitonin secretion. These effects were partly abolished by pretreatment with pertussis toxin (PT) (100 ng/ml). PIA (10(-10)-10(-6) M) also suppressed extracellular calcium-stimulated calcitonin secretion, rises in intracellular calcium, and calcium channel currents. PT (100 ng/ml) pretreatment again partly abolished this inhibitory effect. The addition to the medium of adenosine deaminase (0.4 U/ml) stimulated calcitonin secretion. Our results suggest that in calcitonin-secreting cells A1 receptors couple to adenylate cyclase and calcium channels via PT-sensitive G proteins and thus inhibit calcitonin secretion. Adenosine seems to act as an autocrine/paracrine factor in calcitonin-secreting cells.
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PMID:Adenosine A1-receptors inhibit cAMP and Ca2+ mediated calcitonin secretion in C-cells. 855 39

1. The effect of adenosine A1-receptor and P2-purinoceptor agonists on [3H]-inositol phosphate accumulation has been investigated in CHO-K1 cells transfected with the human adenosine A1-receptor. 2. Adenosine receptor agonists stimulated [3H]-inositol phosphate accumulation in CHO-K1 cells with a rank potency order of N6-cyclopentyladenosine (CPA) > 5'-N-ethylcarboxamidoadenosine (NECA) > 2-chloroadenosine > N6-2-(4-aminophenyl) ethyladenosine (APNEA). The responses to both CPA and APNEA were antagonized by the A1 selective antagonist, 1,3-dipropylcyclopentylxanthine (DPCPX) yielding KD values of 1.2 nM and 4.3 nM respectively. 3. ATP, UTP and ATP gamma S were also able to stimulate [3H]-inositol phosphate accumulation in these cells with EC50 values of 1.9 microM, 1.3 microM and 5.0 microM respectively. 2-Methyl-thio-ATP was a weak agonist of this response (EC50 > 100 microM). 4. The [3H]-inositol phosphate response to CPA was completely attenuated by pertussis toxin treatment (24 h; 100 ng ml-1). In contrast, the responses to ATP, UTP and ATP gamma S were only reduced by circa 30% in pertussis toxin-treated cells. 5. The simultaneous addition of CPA and either ATP, UTP or ATP gamma S produced a large augmentation of [3H]-inositol phospholipid hydrolysis. This was due to an increase in the maximal response and was significantly greater than the predicted additive response for activation of these two receptor systems. The synergy was not observed in pertussis toxin-treated cells. 6. No synergy was observed between the [3H]-inositol phosphate responses to histamine and ATP in CHO-K1 cells transfected with the bovine histamine H1-receptor. In these cells the response to histamine was completely resistant to inhibition by pertussis toxin treatment. 7. This study provides a clear demonstration of a synergy between pertussis toxin-sensitive and insensitive receptor systems in a model cell system which is an ideal host for transfected cDNA sequences. This model system should provide a unique opportunity to unravel the mechanisms underlying this example of receptor cross-talk involving phospholipase C.
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PMID:Synergy between the inositol phosphate responses to transfected human adenosine A1-receptors and constitutive P2-purinoceptors in CHO-K1 cells. 856

The effect of ATP on release of dopamine (DA) from rat striatum was studied using in vivo microdialysis. ATP increased the striatal extracellular levels of DA dose-dependently. These analogs produced an increase in DA according to this order of potency: 2-methylthio ATP > ATP > or = alpha,beta-methylene ATP > ADP > AMP > adenosine. Adenosine 5'-[beta, gamma imido]-triphosphate had a more prolonged effect on the increase in DA level than ATP. The ATP-induced increase in DA was inhibited by adding suramin, a nonselective P2 purinoceptor antagonist, and reactive blue 2, a P2Y purinoceptor antagonist, but not inhibited by xanthine amine congener, an adenosine receptor antagonist. Pertussis toxin reduced the increase in DA produced by ATP, which suggests that the P2 purinoceptor may be coupled with a G-protein in the rat striatum. Results suggest that P2Y purinoceptors may involve an ATP-induced increase in DA. The ATP-induced release of DA was tetrodotoxin-sensitive, Ca(2+)-dependent and was abolished by omega-conotoxin GVIA, indicating that the opening of voltage-sensitive Na+ channel and the Ca2+ influx through the N-type voltage-dependent calcium channel are both required for the ATP-induced increase in DA. The ATP-induced increase in DA is presumably due to the release of DA via the stimulation of P2Y purinoceptors in the rat striatum.
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PMID:ATP increases extracellular dopamine level through stimulation of P2Y purinoceptors in the rat striatum. 859 54

Short periods of ischemia render the myocardium more resistant to a subsequent prolonged coronary occlusion resulting in a reduction of infarct size. This cardioprotective mechanism has been called ischemic preconditioning. Acute myocardial ischemia results in a rapid decline of high energy phosphates. After short periods of ischemia the high energy phosphate levels are better preserved and the increase of lactate is slower during the prolonged subsequent ischemia in the preconditioned group compared to control. The duration of ischemia needed for induction of the protective effect is 2.5 min in dogs and 20 min in our swine model. In porcine myocardium the protection is lost about 1 h after induction and a renewal is not possible at that time, but is 24 h later. For rabbits or dogs, but not in pigs, a late protection 24 h after induction or preconditioning has been shown ("second window of protection"). Adenosine or adenosine A1 receptor agonists, muscarinic M2 receptor agonists, alpha 1-receptor agonists and bradykinin B2 receptor agonists as well as opening of the K+ATP-channel substitute for ischemia in the induction of protection. Activation of protein kinase C results in protection in rats and rabbits, but not in dogs or pigs. Inhibition of protein kinase C translocation or kinase activity results in a loss of the protection induced by preceding ischemia. After blockade of the K+ATP-channel the protection induced by adenosine A1 receptor activation is lost. Therefore opening of the K+ATP-channel is a prerequisite for induction of the protective effect. Inhibition of the inhibitory G-protein by pertussis toxin has been shown to result in a loss of protection, therefore the Gi-protein seems to be involved in the evolution of protection. In humans during coronary angioplasty anginal pain and lactate production during a second balloon occlusion is diminished without any change in the regional myocardial perfusion. This adaptation is inhibited by blockade of the K+ATP-channel or of the adenosine A1 receptor. Intermittent cross-clamping before a longer occlusion during open-heart surgery results in a better preservation of high energy phosphates compared to controls without preceding short ischemia. These observations support the hypothesis that ischemic preconditioning also occurs in humans. Angina pectoris preceding the myocardial infarction may have preconditioned the human heart against the subsequent myocardial infarction, but studies concerning the influence of angina pectoris on short-term outcome after thrombolysis are conflicting. In the future, ischemic preconditioning or preconditioning with drugs may prolong the duration of ischemia tolerated without necrosis and improve the prognosis of patients by reducing the infarct size.
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PMID:-Myocardial protection by preconditioning. Experimental and clinical significance-. 865 Sep 86

These is debate about the mechanisms mediating adenosine release from neurons. In this study, the release of adenosine evoked by depolarizing cultured cerebellar granule neurons with 50 mM K+ was inhibited by 49 +/- 7% in Ca2+-free medium. The remaining release was blocked by dipyridamole (IC50 = 6.4 x 10(-8) M) and nitrobenzylthioinosine (IC50 = 3.6 x 10(-8) M), inhibitors of adenosine uptake. Ca2+-dependent release was reduced by 78 +/- 9% following a 21-h pretreatment of the cells with pertussis toxin, which ADP-ribosylates Gi/Go G proteins, thereby preventing their dissociation. The nucleoside transporter-mediated component of K+-induced adenosine release also was inhibited by 62 +/- 8% by pertussis toxin and was potentiated by 78 +/- 11% following cholera toxin treatment, which permanently activates Gs. Uptake of [3H]adenosine into cultured cerebellar granule neurons over a 10-min period was not dependent on extracellular Na+ but was reduced by dipyridamole (IC50 = 3.2 x 10(-8) M) and nitrobenzylthioinosine (IC50 = 2.6 x 10(-8) M). Thus, adenosine uptake likely occurs via the same transporter mediating Ca2+-independent adenosine release. Adenosine uptake was potentiated by cholera toxin pretreatment (152 +/- 15% of control), but pertussis toxin had no statistically significant effect. It is possible that Gs, Gi/Go, or free Gbetagamma dimer modulate the equilibrative, inhibitor-sensitive nucleoside carrier to enhance adenosine transport.
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PMID:Adenosine release and uptake in cerebellar granule neurons both occur via an equilibrative nucleoside carrier that is modulated by G proteins. 866 29

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