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)

Membrane currents and capacitance were measured to examine the effects of extracellular ATP on exocytosis in voltage-clamped rat adrenal chromaffin cells. ATP reversibly inhibited Ca2+ current (ICa) and exocytosis. The dependency of exocytosis on ICa evoked by 1-s depolarizations was determined. However, inhibition of exocytosis was 2.6 times larger than that estimated from the reduction of ICa, implying the existence of a Ca2+-channel-independent pathway. This inhibition did not rely on a further reduction of the intracellular Ca2+ concentration spike. ATP reduced the rate of exocytosis induced by clamping the intracellular Ca2+ concentration. Pertussis toxin blocked the inhibitory effects of ATP on ICa and exocytosis. Although RB-2, a P2Y antagonist, blocked the inhibitory effect of ATP on ICa, RB-2 itself produced large increase or decrease in membrane capacitance. Adenosine inhibited ICa via a pertussis-toxin-sensitive pathway but did not significantly inhibit exocytosis. Our data show that extracellular ATP inhibits exocytosis via inhibition of ICa by activation of a pertussis-toxin-sensitive G-protein linked to P2Y receptors. Furthermore, our data strongly suggest that ATP activates another pathway, which is also G-protein dependent and accounts for the majority of the inhibitory effect of ATP on exocytosis.
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PMID:Ca2+-channel-dependent and -independent inhibition of exocytosis by extracellular ATP in voltage-clamped rat adrenal chromaffin cells. 935 1

The regulation of the furosemide-sensitive Na+-ATPase activity and ouabain-sensitive (Na+ + K+)ATPase activities from proximal tubules by adenosine was investigated. When the concentration of adenosine was increased the furosemide-sensitive ATPase activity decreased with maximal inhibition at 10(-8) M (56% of inhibition). However, the (Na+ + K+)ATPase activity was not affected by adenosine. Theophylline, an antagonist of P1 adenosine receptor, completely reversed the effect of adenosine on the furosemide-sensitive ATPase activity in a dose-response manner. The adenosine effect was mimicked by N6-cyclohexyladenosine (CHA), an agonist for A1 adenosine receptor. 5'-N-ethylcarboxamideadenosine (NECA), an agonist for A2 adenosine receptor, did not affect the furosemide-sensitive ATPase activity. When adenosine was used in the presence of 1 microg ml(-1) pertussis toxin, a Gi protein inhibitor, no change in the furosemide-sensitive ATPase activity was observed. The addition of 1 nM cholera toxin increased the Na+-ATPase activity by 60%. Adenosine decreased the cholera toxin stimulated Na+-ATPase in 42%, similar to the effect observed in the absence of cholera toxin. Dibutyryl-cAMP reversed the effect of adenosine in a dose dependent manner while the protein kinase A peptide inhibitor mimicked it. These data are compatible with a modulatory effect of adenosine on the Na+-ATPase activity via A1 subtype receptor.
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PMID:Effect of adenosine on the ouabain-insensitive Na+-ATPase activity from basolateral membrane of the proximal tubule. 937 25

The purpose of this study was to investigate the mechanisms by which adenosine stimulates proliferation of osteoblast-like cells, MC3T3-E1. Adenosine by itself induces the stimulation of cell proliferation and accentuates the mitogenecity of PDGFs (AA and BB homodimers) for the cells. 8-Cyclopentyl-1,3-dimethylxanthine (CPX), a nonselective adenosine receptor antagonist, partially inhibited adenosine-induced DNA synthesis in a competitive manner, suggesting that the mitogenic action of adenosine is, at least in part, mediated by xanthine-sensitive receptors. In pertussis-toxin (PTX)-pretreated cells, adenosine- but not PDGF-BB-stimulated DNA synthesis was partially inhibited, and CPX did not exert a further inhibitory effect, suggesting an involvement of PTX-sensitive G-protein downstream of CPX-sensitive receptor. When adenosine uptake was prevented with dipyridamole, the stimulation of proliferation by adenosine was not decreased at all, indicating that the CPX-insensitive part of adenosine action is not associated with the uptake of adenosine and subsequent incorporation into the nucleotide pool. Adenosine did not influence the basal level or the PDGF-BB-induced increase in [Ca2+]i. Since it is known that the cAMP pathway acts in inhibiting osteoblast proliferation, the mitogenic action of adenosine would be dependent on neither the cAMP pathway nor the phospholipase C/Ca2+ pathway. It has been concluded that adenosine exerts a mitogenic effect via two pathways at least, one mediated by xanthine-sensitive receptor and PTX-sensitive G-protein and the other through an unknown xanthine- and PTX-insensitive process.
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PMID:Mitogenic action of adenosine on osteoblast-like cells, MC3T3-E1. 954 19

1. The mitogen-activated protein (MAP) kinase signalling pathway can be activated by a variety of heterotrimeric Gi/Go protein-coupled and Gq/G11 protein-coupled receptors. The aims of the current study were: (i) to investigate whether the Gi/Go protein-coupled adenosine A1 receptor activates the MAP kinase pathway in transfected Chinese hamster ovary cells (CHO-A1) and (ii) to determine whether adenosine A1 receptor activation would modulate the MAP kinase response elicited by the endogenous P2Y2 purinoceptor. 2. The selective adenosine A1 receptor agonist N6-cyclopentyladenosine (CPA) stimulated time and concentration-dependent increases in MAP kinase activity in CHO-A1 cells (EC50 7.1+/-0.4 nM). CPA-mediated increases in MAP kinase activity were blocked by PD 98059 (50 microM; 89+/-4% inhibition), an inhibitor of MAP kinase kinase 1 (MEKI) activation, and by pre-treating cells with pertussis toxin (to block Gi/Go-dependent pathways). 3. Adenosine A1 receptor-mediated activation of MAP kinase was abolished by pre-treatment with the protein tyrosine inhibitor, genistein (100 microM; 6+/-10% of control). In contrast, daidzein (100 microM), the inactive analogue of genistein had no significant effect (96+/-12 of control). MAP kinase responses to CPA (1 microM) were also sensitive to the phosphatidylinositol 3-kinase inhibitors wortmannin (100 nM; 55+/-8% inhibition) and LY 294002 (30 microM; 40+/-5% inhibition) but not to the protein kinase C (PKC) inhibitor Ro 31-8220 (10 microM). 4. Activation of the endogenous P2Y2 purinoceptor with UTP also stimulated time and concentration-dependent increases in MAP kinase activity in CHO-A1 cells (EC50=1.6+/-0.3 microM). The MAP kinase response to UTP was partially blocked by pertussis toxin (67+/-3% inhibition) and by the PKC inhibitor Ro 31-8220 (10 microm; 45+/-5% inhibition), indicating the possible involvement of both Gi/Go protein and Gq protein-dependent pathways in the overall response to UTP. 5. CPA and UTP stimulated concentration-dependent increases in the phosphorylation state of the 42 kDa and 44 kDa forms of MAP kinase as demonstrated by Western blotting. 6. Co-activation of CHO-A1 cells with CPA (10 nM) and UTP (1 microM) produced synergistic increases in MAP kinase activity which were not blocked by the PKC inhibitor Ro 31-8220 (10 microM). 7. Adenosine A1 and P2Y2 purinoceptor activation increased the expression of luciferase in CHO cells transfected with a luciferase reporter gene containing the c-fos promoter. However, co-activating these two receptors produced only additive increases in luciferase expression. 8. In conclusion, our studies have shown that the transfected adenosine A1 receptor and the endogenous P2Y2 purinoceptor couple to the MAP kinase signalling pathway in CHO-A1 cells. Furthermore, co-stimulation of the adenosine A1 receptor and the P2Y2 purinoceptor produced synergistic increases in MAP kinase activity but not c-fos mediated luciferase expression.
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PMID:Human adenosine A1 receptor and P2Y2-purinoceptor-mediated activation of the mitogen-activated protein kinase cascade in transfected CHO cells. 972 63

1. The effect of the non-steroidal anti-inflammatory drugs naproxen, mefenamic acid, phenylbutazone, piroxicam and tolmetin on the vanadate (0.3 mM)-induced tonic contraction, as well as the modifications of these effects by the G-protein inhibitor pertussis toxin, and the inhibitors of protein kinase A, Rp-cAMPS (Rp-Adenosine 3',5'-cyclic monophosphothioate triethylamine salt) and protein kinase C, H-7 [1(5-isoquinolynilsulfonyl)-2-methyl-piperazine], have been assayed to study the possible nature of intracellular mediators contributing to the inhibitory effects of NSAIDs in rat uterine smooth muscle incubated in medium lacking calcium plus EDTA. The effect of phorbol 12,13-dibutyrate on vanadate contraction and its modification with H-7 has also been examined. 2. Naproxen (6-600 microM), mefenamic acid (6-300 microM), phenylbutazone (6-300 microM), piroxicam (6-600 microM) and tolmetin (6-600 microM) produced concentration-dependent relaxation of vanadate-induced tonic contraction. The potency order, in accordance with their respective IC50 values was: phenylbutazone > or = mefenamic acid > or = naproxen > tolmetin > or = piroxicam. 3. The relaxant effects of naproxen, phenylbutazone, piroxicam and tolmetin were significantly antagonized with pertussis toxin (50 ng ml-1), Rp-cAMPS (100 microM) and H-7 (1 microM). However, the effect of mefenamic acid was unmodified by the three drugs. This suggests that the effect of mefenamic acid and other NSAIDs occur by different mechanisms. 4. Phorbol 12,13-dibutyrate relaxed the vanadate contraction but the maximal relaxation achieved (54.8 +/- 8.3%, n = 4) was lower than those induced with the NSAIDs. On the other hand, H-7 (1 microM) did not modify the relaxant effect of phorbol 12,13-dibutyrate. This suggests that H-7 behaves as a PKA, but not a PKC inhibitor, under the present experimental conditions. 5. The relaxation by naproxen, phenylbutazone, piroxicam and tolmetin is presumably produced by increasing cAMP because the effects of these are antagonized with Rp-cAMPS and H-7, and by pertussis-toxin-sensitive mechanisms.
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PMID:Contribution of cAMP to the inhibitory effect of non-steroidal anti-inflammatory drugs in rat uterine smooth muscle. 972 23

1. The effects of adenosine receptor agonists upon phenylephrine-stimulated contractility and [3H]-cyclic adenosine monophosphate ([3H]-cyclic AMP) accumulation in the cauda epididymis of the guinea-pig were investigated. The alpha1-adrenoceptor agonist, phenylephrine elicited concentration dependent contractile responses from preparations of epididymis. In the absence or presence of the L-type Ca2+ channel blocker, nifedipine (10 microM) the non-selective adenosine receptor agonist, 5'-N-ethylcarboxamidoadenosine (NECA, 1 microM) shifted phenylephrine concentration-response curves to the left (4 and 5 fold respectively). Following the incubation of preparations with pertussis toxin (200 ng ml(-1) 24 h) NECA shifted phenylephrine concentration-response curves to the right (5.7+/-0.9 fold). 2. In the presence of phenylephrine (1 microM), NECA and the A1 adenosine receptor selective agonists, N6-cyclopentyladenosine (CPA) and (2S)-N6-[2-endo-norbornyl]adenosine ((S)-ENBA) elicited concentration-responses dependent contractions from preparations of epididymis (pEC50 values 8.18+/-0.19, 7.79+/-0.29 and 8.15+/-0.43 respectively). The A3 adenosine receptor agonists N6-iodobenzyl-5'-N-methylcarboxamido adenosine (IBMECA) and N6-2-(4-aminophenyl) ethyladenosine (APNEA) mimicked this effect (but only at concentrations greater than 10 microM). In the presence of 8-cyclopentyl-1,3-dipropylxanthine (DPCPX, 30 nM) CPA concentration-response curves were shifted, in parallel to the right (apparent pKB 8.75+/-0.88) and the maximal response to NECA was reduced. 3. In the presence of DPCPX (100 nM) the adenosine agonist NECA and the A2A adenosine receptor selective agonist, CGS 21680 (2-p-(2-carboxyethyl)-phenethylamino-N-ethylcarboxamido adenosine), but not CPA, inhibited phenylephrine (20 microM) stimulated contractions (pIC50 7.15+/-0.48). This effect of NECA was blocked by xanthine amine congener (XAC, 1 microM) and the A2A adenosine receptor-selective antagonist 4-(2-[7-amino-2-(2-furyl)[1,2,4]triazolo[2,3-a][1,3,5]triazin-5-++ +ylamino]ethyl)phenol (ZM 241385; 30 nM). 4. (S)-ENBA (in the absence and presence of ZM 241385, 100 nM), but not NECA or CPA inhibited the forskolin (30 microM)-stimulated accumulation of [3H]-cyclic AMP in preparations of the epididymis of the guinea-pig (by 17+6% of control). In the presence of DPCPX (100 nM) NECA and CGS 21680, but not (S)-ENBA, increased the accumulation of [3H]-cyclic AMP in preparations of epididymis (pEC50 values 5.35+/-0.35 and 6.42+/-0.40 respectively), the NECA-induced elevation of [3H]-cyclic AMP was antagonised by XAC (apparent pKB 6.88+/-0.88) and also by the A2A adenosine receptor antagonist, ZM 241385 (apparent pKB 8.60+/-0.76). 5. These studies are consistent with the action of stable adenosine analogues at post-junctional A1 and A2 adenosine receptors in the epididymis of the guinea-pig. A1 Adenosine receptors potentiate alpha1-adrenoceptor contractility, an effect blocked by pertussis toxin, but which may not be dependent upon an inhibition of adenylyl cyclase. The epididymis of the guinea-pig also contains A2 adenosine receptors, possibly of the A2A subtype, which both inhibit contractility and also stimulate adenylyl cyclase.
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PMID:A1 and A2 adenosine receptor modulation of contractility in the cauda epididymis of the guinea-pig. 980 42

The effect of adenosine triphosphate (ATP) on the intracellular Ca2+ concentration ([Ca2+]i) of cultured neurohypophysial astrocytes (pituicytes) was studied by fluorescence videomicroscopy. ATP evoked a [Ca2+]i increase, which was dose dependent in the 2.5-50 microM range (EC50=4.3 microM). The ATP-evoked [Ca2+]i rise was not modified during the first minute following the removal of external Ca2+. Application of 500 nM thapsigargin inhibited the ATP-dependent [Ca2+]i increase. Caffeine (10 mM) and ryanodine (1 microM) did not affect the ATP-induced [Ca2+]i rise. The pituicytes responded to various P2 purinoceptor agonists with the following order of potency: ATP=ATP[gamma-S]=2-MeSATP>/=ADP, where ATP[gamma-S] is adenosine 5'-O-(3-thiotriphosphate) and 2-MeSATP is 2-methylthio-adenosine-5'-triphosphate. Adenosine, AMP, alpha, beta-methylene adenosine-5'-triphosphate (alpha,beta-MeATP), beta, gamma methylene adenosine-5'-triphosphate (beta,gamma-MeATP) and uridine 5'-triphosphate (UTP) were ineffective. The P2 purinoceptor antagonists blocked the ATP-evoked [Ca2+]i increase with the following selectivity: RB-2>suramin>PPADS, where RB-2 is Reactive Blue 2 and PPADS is pyridoxal-phosphate-6-azophenyl-2', 4'-disulphonic acid. The ATP-evoked [Ca2+]i increase was substantially blocked by pertussis toxin treatment, suggesting that it might be mediated by a pertussis-toxin-sensitive G protein. The phospholipase C (PLC) inhibitor U-73122 (0.5 microM) abolished the ATP-evoked [Ca2+]i rise, whereas its inactive stereoisomer U-73343 (0.5 microM) remained ineffective. Our results indicate that, in rat cultured pituicytes, ATP stimulation induces an increase in [Ca2+]i due to PLC-mediated release from intracellular stores through activation of a pertussis-toxin-sensitive, G-protein-linked P2Y receptor.
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PMID:ATP acting on P2Y receptors triggers calcium mobilization in primary cultures of rat neurohypophysial astrocytes (pituicytes). 1008 53

1. ATP, UTP, ADP and ADP-beta-S elicited Ca2+ -signals in cultured aortic smooth muscle cells although ADP, UDP and ADP-beta-S gave approximately 40% of the maximal response seen with ATP and UTP. Adenosine, AMP or alpha,beta-methylene-ATP had no effect. These responses were attributed to P2Y2/4 and P2Y1 receptors, which we assumed could be selectively activated by UTP and ADP-beta-S respectively. 2. The response to UTP was reduced (approximately 50%) by pertussis toxin, whilst this toxin had no effect upon the response to ADP-beta-S. This suggests P2Y2/4 receptors simultaneously couple to pertussis toxin-sensitive and -resistant G proteins whilst P2Y1 receptors couple to only the toxin-resistant proteins. 3. Repeated stimulation with UTP or ADP-beta-S caused desensitization which was potentiated by 12-O-tetradecanoyl phorbol-13-acetate (TPA) and attenuated by staurosporine. 4. TPA completely abolished sensitivity to ADP-beta-S but the response to UTP had a TPA-resistant component. In pertussis toxin-treated cells, however, TPA could completely abolish sensitivity to UTP and so the TPA-resistant part of this response seems to be mediated by pertussis toxin-sensitive G proteins. 5. Loss of sensitivity to UTP did not occur when pertussis toxin-treated cells were repeatedly stimulated with this nucleotide, suggesting that pertussis toxin-sensitive G proteins mediate this effect. The toxin did not, however affect desensitization to ADP-beta-S.
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PMID:P2Y receptor-mediated Ca2+ signalling in cultured rat aortic smooth muscle cells. 1032

Adenosine A2a receptor (A2aR) stimulation enhances the shortening of ventricular myocytes. Whether the A2aR-mediated increase in myocyte contractility is associated with alterations in the amplitude of intracellular Ca2+ transients was investigated in isolated, contracting rat ventricular myocytes using the Ca2+-sensitive fluorescent dye fura 2-AM. In the presence of intact inhibitory G protein pathways, 10(-4) M 2-p-(2-carboxyethyl)phenethyl-amino-5'-N-ethylcarboxamidoadenosine (CGS-21680), an A2aR agonist, insignificantly increased Ca2+ transients by 8 +/- 5%, whereas myocyte shortening increased by 54 +/- 1%. In contrast, 2 x 10(-7) M isoproterenol, a beta-adrenergic receptor agonist, increased Ca2+ transients by 104 +/- 15% and increased myocyte shortening by 61 +/- 6%. When A2aR were stimulated in myocytes that had the antiadrenergic actions of adenosine (Ado) abolished by either treatment with pertussis toxin (PTx) or the presence of 8-cyclopentyl-1,3-dipropylxanthine (DPCPX), an adenosine A1-receptor antagonist, the maximum increases in Ca2+ transients were similarly nominal (with PTx: 10(-4) M CGS-21680, 14 +/- 6% and 10(-4) M Ado, 15 +/- 4%; without PTx: 10(-5) M Ado + 2 x 10(-7) M DPCPX, 19 +/- 1%). These results indicate that compared with beta-adrenergic stimulation, which markedly increases myocyte Ca2+ transients and shortening, A2aR-mediated increases in myocyte shortening are accompanied by only modest increases in Ca2+ transients. These observations suggest that the A2aR-induced contractile effects are mediated predominantly by Ca2+-independent inotropic mechanisms.
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PMID:Adenosine A2a-receptor activation enhances cardiomyocyte shortening via Ca2+-independent and -dependent mechanisms. 1033 Feb 25

Confluent AKR-2B fibroblasts rapidly disintegrate after serum deprivation.27 ATP or adenosine added immediately after serum removal afforded substantial protection against cell death even for a long period of 24 h. ED50 values were 14 and 110 microM for ATP and adenosine, respectively. In the presence of 5 microg/ml cycloheximide the protective effect of both substances was suppressed, indicating that protein synthesis is required. The protective effect of ATP was highly specific since among numerous tested derivatives only ATP-[gamma-S] exhibited a substantial protective effect. The ability of ATP and adenosine to modulate cell division was analyzed. Both substances did not exhibit any mitogenic effect. Adenosine completely blocked PDGF-BB induced cell division, whereas ATP had no effect. Unlike adenosine, ATP strongly stimulated Ca2+-release from intracellular stores. On the other hand, adenosine stimulated an increase in the intracellular concentration of cAMP from 0.4 - 1.5 microM, whereas ATP decreased the content below 0.1 microM. ATP stimulated the phosphorylation of MAP-kinase, RSK and p70S6-kinase; adenosine was inactive. After complexation of [Ca2+]i the protective effect of ATP was greatly lost while adenosine was still active. Surprisingly neither ATP nor adenosine caused an activation of PKC-isoforms. After incubation with pertussis toxin, the protection by ATP was reduced indicating an involvement of Gi-proteins in the signal transduction induced by ATP. Our results indicate that ATP as well as adenosine are potent inhibitors of cell death caused by serum deprivation and that this protective effect apparently occurs via distinct pathways. However, both pathways must converge at the point of caspase activation, since the stimulation of DEVDase- and VEIDase-activities, respectively, are suppressed by either ATP or adenosine.
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PMID:ATP and adenosine prevent via different pathways the activation of caspases in apoptotic AKR-2B fibroblasts. 1038 45

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