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)

Extracellular ATP modulates cardiac contraction through P2-purinoceptors on cardiac myocytes. To elucidate the molecular mechanism of this response, we examined the effects of P2-purinoceptor activation on phosphoinositide (PI) hydrolysis and the cAMP system in cultured ventricular myocytes of fetal mice. In a concentration-dependent manner, ATP stimulated accumulations of [3H]inositol monophosphate, bisphosphate, and trisphosphate with the half-maximum effective concentration of approximately 1 microM in the myocytes labeled with [3H]inositol. The order of efficacy of a series of adenyl compounds for stimulation of PI hydrolysis was adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S), ATP greater than ADP, 5'-adenylylimidodiphosphate (APPNP) greater than alpha,beta-methyleneadenosine 5'-triphosphate (APCPP) greater than beta,gamma-methyleneadenosine 5'-triphosphate, AMP greater than adenosine. On the other hand, 100 microM ATP gamma S inhibited isoproterenol-induced accumulation of cAMP by approximately 70% without decreasing the time to maximal cAMP levels, as measured by radioimmunoassay. This response was also concentration dependent, with a half-maximum inhibitory concentration (IC50) of approximately 1 microM. All of the tested ATP, ADP, and ATP analogues inhibited the cAMP system, and the responses to ATP gamma S, APPNP, and APCPP were insensitive to an A1-purinoceptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine. Pertussis toxin attenuated the ATP-induced PI hydrolysis by no more than 25% at 100 ng/ml but completely suppressed the ATP gamma S-induced inhibition of the cAMP system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:P2-purinoceptor activation stimulates phosphoinositide hydrolysis and inhibits accumulation of cAMP in cultured ventricular myocytes. 131 Dec 21

We have recently demonstrated that the amiloride-sensitive Na+ channel in the apical membrane of the renal epithelial cell line, A6, is modulated by the alpha i-3 subunit of the Gi-3 protein. We also showed that a 700-kDa protein complex can be purified from the membranes of A6 epithelia which (a) can reconstitute the amiloride-sensitive Na+ influx in liposomes and planar bilayer membranes and (b) consists of six major protein bands observed on reducing sodium dodecyl sulfate-polyacrylamide gels with molecular masses ranging from 35 to 320 kDa. The present study was undertaken to determine if the alpha i-3 subunit was a member of this Na+ channel complex. G alpha i structure and function were identified by Western blotting with specific G alpha i subunit antibodies and Na+ channel antibodies, through ADP-ribosylation with pertussis toxin, and by immunocytochemical localization of the Na+ channel and G alpha i proteins. We demonstrate that two protein substrates are ADP-ribosylated in the 700-kDa complex in the presence of pertussis toxin and are specifically immunoprecipitated with an anti-Na+ channel polyclonal antibody. One of these substrates, a 41-kDa protein, was identified as the alpha i-3 subunit of the Gi-3 protein on Western blots with specific antibodies. Na+ channel antibodies do not recognize G alpha i-3 on Western blots of Golgi membranes which contain alpha i-3 but not Na+ channel proteins, nor do they immunoprecipitate alpha i-3 from solubilized Golgi membranes; however, alpha i-3 is coprecipitated as part of the Na+ channel complex from A6 cell membranes by polyclonal Na+ channel antibodies. Both alpha i-3 and the Na+ channel have been localized in A6 cells by confocal imaging and immunofluorescence with specific antibodies and are found to be in distinct but adjacent domains of the apical cell surface. In functional studies, alpha i-3, but not alpha i-2, stimulates Na+ channel activity. These data are therefore consistent with the localization of Na+ channel activity and modulatory alpha i-3 protein at the apical plasma membrane, which together represent a specific signal transduction pathway for ion channel regulation.
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PMID:Purified epithelial Na+ channel complex contains the pertussis toxin-sensitive G alpha i-3 protein. 131 19

Platelet-activating factor (PAF) is an unusually potent phospholipid known to be produced by neuronal cells and to modulate cerebral blood flow and metabolism. In previous studies with NCB-20 cells, we reported that PAF induced a significant mobilization of intracellular free Ca2+ ([Ca2+]i), which was inhibited by PAF antagonists. The increase was the result of release from intracellular stores and influx from extracellular sources. The present study was designed to characterize further PAF receptor-mediated cellular signal-transduction mechanisms in myo-[3H]inositol-labeled cells. PAF induced a concentration-dependent increase in phosphatidylinositol (Pl) metabolism, with EC50 values of 1.96 +/- 0.62 nM and 1.12 +/- 0.50 nM for inositol trisphosphate (IP3) and inositol monophosphate (IP1) formation, respectively (four experiments). The maximal production of IP3 and IP1 induced by 50 nM PAF was 254 +/- 34% and 178 +/- 25% over the basal, respectively (four experiments). PAF-induced Pl metabolism was concentration-dependently inhibited by the PAF antagonist BN50739, with an IC50 value of 6.48 +/- 0.52 nM (four experiments). The protein kinase C (PKC) activator phorbol 12,13-dibutyrate concentration-dependently inhibited PAF-induced Pl metabolism and [Ca2+]i mobilization in NCB-20 cells, of NCB-20 cells with pertussis toxin (PTX) resulted in a concentration-dependent inhibition of PAF-induced IP3 production and intracellular Ca2+ release, with a maximal reduction of 66.9 +/- 3.5% and 63 +/- 6.1%, respectively, at 300 ng/ml PTX. PTX in the presence of [32P]NAD specifically [32P]ADP-ribosylated a 38-kDa protein in membranes prepared from NCB-20 cells. Pretreatment of the cells with PTX resulted in a concentration-dependent inhibition of subsequent 32P-labeling of the toxin substrate in the membranes and correlated with the uncoupling of PAF-induced IP3 formation. PAF (0.01-10 nM) elicited a concentration-related stimulation in guanosine 5'-O-(3-[35S]) triphosphate ([35S]GTP gamma S) binding to G alpha i(1,2) proteins, which was inhibited by the PAF antagonist BN50739. PAF at 10 nM also increased [35S]GTP gamma S binding to G alpha s and G alpha o. PAF-evoked activation of G alpha i(1,2) and G alpha o was reduced by preincubation with PTX. Our results reveal that neuronal cells possess PAF receptors linked through guanine nucleotide-binding proteins to phospholipase C and receptor-operated Ca2+ channels that are regulated by PKC. Both PTX-sensitive and -insensitive guanine nucleotide-binding proteins appear to couple the PAF receptor to activation of phospholipase C and the increase in [Ca2+]i. These results contribute to the further understanding of the mechanisms behind PAF actions on neuronal cells.
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PMID:Platelet-activating factor stimulates phosphoinositide turnover in neurohybrid NCB-20 cells: involvement of pertussis toxin-sensitive guanine nucleotide-binding proteins and inhibition by protein kinase C. 131 8

Collagen fibres in suspension have been shown to inhibit adenylate cyclase in human platelet preparations. Direct inhibition by collagen fibres was observed when intact platelets were used, although secondary events such as ADP secretion or prostanoid formation were important contributors to the inhibition of adenylate cyclase after treatment of platelets with collagen. The nature of the direct inhibition caused by collagen has been investigated in platelet membrane preparations, with the following results. (1) Collagen fibres inhibit platelet membrane adenylate cyclase in a dose-dependent manner. (2) Inhibition of adenylate cyclase by thrombin, adrenaline or collagen fibres could be abolished in the presence of guanosine 5'-[beta-thio]diphosphate; half-maximal inhibition was obtained at about 100 microM for the inhibitory action of thrombin, and at about 500 microM for that of either adrenaline or collagen. (3) The action of each ligand was blocked to a similar extent by pertussis-toxin treatment of the platelet membranes. Taken together, these results indicate that the action of collagen, like that of thrombin and adrenaline, is G-protein-dependent. (4) inhibition of adenylate cyclase by collagen fibres was additive with that caused by adrenaline, but co-operative with that caused by thrombin, suggesting that inhibitory pathways exists for collagen and adrenaline which are distinct from, but interactive with, that for thrombin. (5) Modification of the collagen fibres by pepsin treatment attenuated the effects of collagen, whereas heat-denaturation of the collagen fibres completely abolished their effects. These data suggest that the effects of collagen are specific, and depend on the detailed structure of the collagen fibres.
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PMID:Inhibition of human platelet adenylate cyclase by collagen fibres. Effect of collagen is additive with that of adrenaline, but interactive with that of thrombin. 131 55

We have investigated the modulation of tumor necrosis factor (TNF)-mediated tumor cell lysis by cAMP. Among a panel of human breast tumor cell lines, MCF7 and MDA MB 231 were shown to be, respectively, sensitive and resistant to TNF-mediated cell lysis in vitro. 125I-labeled TNF-binding experiments demonstrated that both cell lines bind TNF, indicating that the differential sensitivity to TNF was not related to TNF receptor expression. To study the relationship between TNF-mediated cell lysis and cAMP accumulation, cAMP measurement was performed following TNF treatment. Our data show that TNF alone did not induce an enhancement of intracellular cAMP accumulation either in the TNF-sensitive or in the TNF-resistant cell line. Experiments in which cells were exposed to forskolin revealed that this cAMP elevating drug was efficient in enhancing the sensitivity to TNF of MCF7 cell line. This potentiating effect of forskolin was maximal for suboptimal concentrations of TNF (10 ng/ml), reaching up to 100% when forskolin was added at 100 microM. However, co-stimulating with forskolin of either MDA MB 231 or a TNF-resistant MCF7 clone (MCF7-R-A1) did not induce any reversal of resistance to TNF. We further assessed the interaction of TNF with transmembrane signalling and the possible involvement of guanine nucleotide-binding proteins (G-proteins). Bacterial toxin-catalyzed ADP ribosylation of MCF7 and MDA MB 231 membranes was, therefore, performed. Using cholera toxin, we demonstrate that TNF treatment did not quantitatively alter the activity of stimulatory G-proteins either in MCF7 or MDA MB 231 cell line. In contrast, pertussis toxin-catalyzed ADP ribosylation experiments suggest a functional coupling of TNF receptors to a 40-kDa pertussis toxin-sensitive G-protein in the TNF-sensitive MCF78 cell line but not in the TNF-resistant MDA MB 231 cell line. Taken together, these data indicate that cAMP might play a role in TNF-mediated cell lysis and are in support of the involvement of a pertussis toxin-sensitive G-protein in TNF-mediated MCF7 cells lysis.
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PMID:Tumor necrosis factor-mediated cell lysis in vitro: relationship to cAMP accumulation and guanine nucleotide-binding proteins. 131 37

High affinity agonist-binding (HAB) sites are formed from specific receptor interaction with guanine nucleotide-binding (Gi) proteins. To determine whether the release of endothelium-derived relaxing factor (EDRF) is regulated by specific receptor-Gi protein coupling, we treated bovine aortic endothelial cells with 100 ng/ml pertussis toxin (PTX) for 16 hours to effect receptor-Gi protein uncoupling. The degree of receptor uncoupling as measured by the loss of HAB sites for the alpha 2-adrenergic receptor and bradykinin receptor was assessed by radioligand binding studies using partially purified bovine aortic endothelial cell membranes. The release of EDRF in response to UK14304 (an alpha 2-adrenergic receptor agonist) and bradykinin stimulation was measured with a bioassay apparatus. The Gi protein isoforms were characterized by Western blotting, and complete ADP-ribosylation of these proteins was confirmed by PTX-catalyzed [32P]NAD ribosylation. PTX produced a greater inhibition of EDRF release via the alpha 2-adrenergic receptor pathway compared with the bradykinin receptor pathway (80% versus 46%, p less than 0.01). This corresponded to the loss of HAB sites from the alpha 2-adrenergic receptor and bradykinin receptor pathway (72% versus 46%, p less than 0.01) as compared with complete loss of both HAB sites in the presence of GppNHp (0.1 mM). Since loss of HAB sites from PTX-mediated receptor uncoupling parallels the inhibition of EDRF release, these data suggest that Gi proteins contribute to a greater proportion of HAB sites derived from alpha 2-adrenergic receptor rather than bradykinin receptor interaction and that the inhibition of EDRF release by PTX is mainly due to the loss of these HAB sites.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Specific receptor-guanine nucleotide binding protein interaction mediates the release of endothelium-derived relaxing factor. 131 14

Interleukin-1 (IL-1), which plays an important role in the inflammatory response, was found to induce colony-stimulating factor-1 (CSF-1) expression in the MIA PaCa-2 cells. IL-1-induced CSF-1 production was markedly suppressed (70%) by pertussis toxin. This inhibition by pertussis toxin was reversed by benzamide, an inhibitor of ADP-ribosylation reactions. Similarly, IL-1-induced CSF-1 production was inhibited by cholera toxin and this inhibition was reversed by an arginine analog, p-methoxy-benzylaminodecamethylene guanidine sulfate. Dibutyryl-cAMP as well as other cAMP elevating agents such as theophylline and forskolin also suppressed IL-1-induced CSF-1 production, suggesting that cAMP concentrations inversely regulate the biosynthesis of CSF-1. Measurement of cAMP concentration indicated that IL-1 treatment of MIA PaCa-2 cells did not change the cAMP level. IL-1-induced CSF-1 production was not suppressed by the protein kinase C (PKC) inhibitor, H7, under conditions in which 12-O-tetradecanoylphorbol-13-acetate-induced CSF-1 production was completely abolished. These data suggest that IL-1-induced CSF-1 production is not mediated via the activation of PKC. Analysis of oncogene c-fos and c-jun expression has shown the enhancement of expression of both protooncogenes prior to CSF-1, suggesting that the expression of these two oncogenes may be the mechanism which triggers CSF-1 gene expression.
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PMID:Stimulation of macrophage colony-stimulating factor synthesis by interleukin-1. 131 5

In previous studies we have identified and isolated a prostaglandin E2 (PGE2) receptor from cardiac sarcolemmal (SL) membranes. Binding of PGE2 to this receptor in permeabilized SL vesicles inhibits adenylyl cyclase activity. The purpose of this study was to determine if the cardiac PGE2 receptor is coupled to adenylyl cyclase via a pertussis toxin sensitive guanine nucleotide binding inhibitory (Gi) protein. Incubation of permeabilized SL vesicles in the presence of 100 microM 5'-guanylamidiophosphate, Gpp(NH)p, a nonhydrolyzable analogue of GTP, resulted in a shift in [3H]PGE2 binding from two sites, one of high affinity (KD = 0.018 +/- 0.003 nM) comprising 7.7% of the total available binding sites and one of lower affinity (KD = 1.9 +/- 0.7 nM) to one site of intermediate affinity (KD = 0.52 +/- 0.01 nM) without a significant change in the total number of PGE2 binding sites. A shift from two binding sites to one binding site in the presence of Gpp(NH)p was also observed for [3H]dihydroalprenolol binding to permeabilized cardiac SL. When permeabilized SL vesicles were pretreated with activated pertussis toxin, ADP-ribosylation of a 40- to 41-kDa protein corresponding to Gi was observed. ADP-ribosylation of SL resulted in a shift in [3H]PGE2 binding to one site of intermediate affinity without significantly changing the number of binding sites. In alamethicin permeabilized SL vesicles, 1 nM PGE2 significantly decreased (30%) adenylyl cyclase activity. Pretreatment with activated pertussis toxin overcame the inhibitory effects of PGE2. These results demonstrate that the cardiac PGE2 receptor is coupled to adenylyl cyclase via a pertussis toxin sensitive Gi protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandin E2 receptors in the heart are coupled to inhibition of adenylyl cyclase via a pertussis toxin sensitive G protein. 131 18

Five separate guanine nucleotide-binding proteins (G proteins) were immunologically identified in membranes from neuroblastoma x glioma NG108-15 hybrid cells. These alpha subunit proteins were Gi2 alpha, two isoforms of Gi3 alpha, and two isoforms of Go alpha. The G proteins that interacted with delta-opioid receptors in these membranes were identified using cholera toxin (CTX)-induced ADP-ribosylation and antisera selective for various G protein alpha subunits. In the presence of delta-opioid agonists, CTX induced the incorporation of [32P]ADP-ribose into three pertussis toxin substrates. Using antisera generated against peptide sequences from G alpha subunits, these three pertussis toxin substrates were identified as Gi2 alpha, Go2 alpha, and one isoform of Gi3 alpha, which has yet to be identified. This CTX-induced labeling was demonstrated to be mediated via the delta-opioid receptor in these hybrid cells by the observation that delta agonists D-Ala2-D-Leu5-enkephalin (DA-DLE) and D-Pen2-D-Pen5-enkephalin, as well as the nonselective agonists etorphine and bremazocine, were active, but the mu agonist PL017 and the kappa agonist U-50-488H did not show this activity. This incorporation into all three substrates induced by DADLE was dose dependent, with EC50 (95% confidence interval) values ranging from 12 (3-52) to 183 (65-520) nM, which compared with the Kd value of 10 +/- 1.5 nM for this agonist, a dose that produces maximal inhibition of adenylate cyclase activity. Furthermore, pretreatment of the cells with pertussis toxin or treatment of the membranes with the antagonist naloxone blocked the incorporation induced by DADLE. Incorporation of [32P]ADP-ribose into all three substrates decreased 35-83% in membranes in which the receptors had been down-regulated by chronic treatment of the cells with DADLE. Thus, a single opioid receptor type can interact with three separate G proteins.
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PMID:Identification of three separate guanine nucleotide-binding proteins that interact with the delta-opioid receptor in NG108-15 neuroblastoma x glioma hybrid cells. 131

The mechanisms of action of lithium and antidepressants were investigated with reference to effects of these drugs on monoaminergic receptors and receptor-coupled adenylate cyclase systems in rat brain. Oral administration of lithium carbonate for 21 days decreased significantly the density of beta-adrenergic receptors in rat cerebral cortex, which is the same change as reported as the result of long-term treatment with many antidepressants. With regard to 5-hydroxytryptamine (5-HT) receptor subtypes, lithium treatment reduced the maximum number of 5-HT1A receptors in rat hippocampus but not in cerebral cortex, whereas repetitive injections with imipramine or desipramine did not. beta-Adrenoceptor-coupled adenylate cyclase activity was subsensitized by long-term lithium treatment in consistency with above-mentioned down-regulation of beta-adrenergic receptors. Stimulation of adenylate cyclase activity by non-hydrolyzable GTP analogue, guanyl-5'-ylimidodiphosphate (Gpp(NH)p), was, however, unaltered in lithium-treated rats as compared with controls. On the other hand, 5-HT1A-mediated inhibition of forskolin-stimulated adenylate cyclase in rat hippocampal membranes was not altered by chronic treatment with lithium or antidepressants. Gpp(NH)p-induced inhibition of forskolin-stimulated adenylate cyclase activity was not influenced by lithium treatment, either. [3H]Forskolin binding to rat cerebral cortex, which is assumed to be associated with the activated complex of catalytic subunit of adenylate cyclase and stimulatory guanine nucleotide-binding regulatory proteins (Gs), was not changed by administration of lithium or antidepressants under any condition studied. Pertussis toxin (islet-activating protein, IAP) sensitive G proteins (Gi/Go) as determined by using IAP-catalyzed [32P]ADP-ribosylation was not altered by lithium- or antidepressant-treatment, either. The implication of these results is discussed with a view of clarifying the mechanisms of action of these thymoleptic drugs.
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PMID:[Effects of lithium and antidepressants on monoaminergic receptors and receptor-coupled adenylate cyclase system in rat brain]. 131 19

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