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 effects of adenosine receptor stimulation on the contractile force of rabbit isolated left atrial preparations in the absence and presence of cAMP-generating and cAMP-independent agonists were investigated. Adenosine and the stable adenosine analogues 5'-(N-ethyl)carboxamido adenosine (NECA) and (-)-N6-phenylisopropyladenosine (R-PIA) produced a concentration-dependent direct negative inotropic effect. Responses to NECA and R-PIA were insensitive to atropine and were shifted to the right by the adenosine receptor antagonist 3-isobutyl-1-methyl xanthine (IBMX). NECA and R-PIA were found to reverse positive inotropic responses of left atria to the beta-adrenoceptor agonist, isoproterenol, but were less effective at reversing positive inotropic responses to the adenylate cyclase activator, forskolin, and were almost ineffective at reversing positive inotropic responses to alpha-adrenoceptor stimulation. Neither NECA nor R-PIA had a significant effect on basal cAMP levels or on cAMP levels elevated by isoproterenol in rabbit left atria. Similarly, R-PIA had no significant effect on basal cAMP levels or isoproterenol-induced increases in cAMP in the presence of adenosine deaminase to remove the influence of endogenous adenosine. Pretreatment of rabbits with 1.75 micrograms/kg pertussis toxin attenuated both the direct negative inotropic response of left atria to NECA and responses to NECA in the presence of isoproterenol and forskolin to a similar extent. Pretreatment of left atrial preparations with the potassium channel antagonist 4-aminopyridine resulted in a dose dependent attenuation of responses to NECA alone and in the presence of isoproterenol and forskolin. These data suggest that adenosine receptors in rabbit left atria are not coupled to adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The interaction of adenosine analogues with cAMP-generating and cAMP-independent positive inotropic agents in rabbit left atrium. 196 30

We have reported previously that prolonged incubation of adipocytes with (-)-N6-phenylisopropyl adenosine (PIA) (an A1 adenosine receptor agonist) down-regulates A1 adenosine receptors. There was a concomitant decrease in pertussis toxin catalyzed ADP-ribosylation of a 41-kDa peptide thought to be the alpha-subunit of Gi. To determine whether this represents true down-regulation of the G-protein, and if so which of the three known forms of Gi are down-regulated, we have used antipeptide antisera specific for Gi alpha-subunits. Serum SG1 recognizes alpha i1 and -2, I1C recognizes only alpha i1, and I3B recognizes alpha i3. Rat adipocytes were maintained in primary culture for up to 7 days with 0-1000 nM PIA. Crude membrane preparations were analyzed by Western blots. There was almost complete loss of alpha i1 and -3, and about 50% loss of alpha i2 from PIA-treated cells. The loss of each alpha i was detectable after 24 h with 300 nM PIA and maximal by 4 days. After 4 days, down-regulation was detectable with 3 nM and maximal with 100 nM PIA. Antiserum BN2 demonstrated approximately 50% loss of G-protein beta-subunits in cells treated with 300 nM PIA for 4 days. When cells were incubated for 4 days with 300 nM PIA and then washed to remove PIA, alpha i1, -2, and -3 and beta-subunits returned to control levels within 5 days. Antiserum CS1 detected normal amounts of both the 43- and 47-kDa forms of Gs alpha in PIA-treated cells. We conclude that Gi alpha-subunits are down-regulated along with the adenosine receptor in rat adipocytes.
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PMID:Down-regulation of Gi sub-types by prolonged incubation of adipocytes with an A1 adenosine receptor agonist. 210 70

1. The adenosine receptor (P1-purinoceptor) agonists N6-cyclopentyladenosine and N-5'-ethyl-carboxamidoadenosine at concentrations up to 10 mumols 1(-1) affected neither basal, nor noradrenaline- and angiotensin II-stimulated formation of inositol-1-phosphate, inositol-1,4-bisphosphate, and inositol-1,4,5-trisphosphate in slices of rat renal cortex. 2. In contrast, adenine nucleotides (P2-purinoceptor agonists) markedly stimulated inositol phosphate formation. The observed rank order of potency adenosine-5'-O-(2-thiodiphosphate) (EC50 39 mumols 1(-1] greater than adenosine-5'-O-(3-thiotriphosphate) (587) greater than or equal to 5'-adenylylimidodiphosphate (App(NH)p, 899) greater than adenylyl-(beta, gamma-methylene)-diphosphate (4,181) was consistent with the interaction of the compounds with the P2Y-subtype of P2-purinoceptors. AMP and the ADP analogue (alpha, beta-methylene)-adenosine-5'-diphosphate were ineffective. ATP and ADP (less than or equal to 10 mmol 1(-1] did not produce a consistent increase, owing to their hydrolytic degradation in the incubation medium. 3. Whereas the inositol phosphate response to App(NH)p was linear only up to 5 min incubation, the time-dependent stimulation of noradrenaline declined at a slower rate. Following pre-exposure of the renal cortical slices to App(NH)p, renewed addition of App(NH)p caused no further enhancement in the accumulation of inositol phosphates, whilst noradrenaline was still capable of eliciting a response. This suggests that the apparent loss of responsiveness to App(NH)p is not due to substrate depletion or enzymatic inactivation, but most likely attributable to homologous desensitization of the purinoceptor. 4. Pretreatment of the animals with pertussis toxin caused a substantial reduction of functional Gi-protein, as indicated by the lack of [32P]-NAD incorporation in a membrane preparation of the renal cortex. Nevertheless, the increase in inositol phosphate formation induced by noradrenaline, angiotensin II, and App(NH)p was not significantly impaired. 5. We conclude that P2 gamma-purinoceptors are present in the renal cortex; these receptors stimulate formation of inositol phosphates via a pertussis toxin-insensitive pathway and undergo homologous desensitization. On the other hand, our results suggest that renal A,-adenosine receptors do not use stimulation of phosphoinositide breakdown as a transmembrane signalling system.
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PMID:P2-, but not P1-purinoceptors mediate formation of 1, 4, 5-inositol trisphosphate and its metabolites via a pertussis toxin-insensitive pathway in the rat renal cortex. 211 89

To identify the involvement of dopamine receptors in the transmembrane signaling of the adenosine receptor-G protein-adenylate cyclase system in the CNS, we examined the effects of pertussis toxin (islet-activating protein, IAP) and apomorphine on A1 adenosine agonist (-)N6-R-[3H]phenylisopropyladenosine ([3H]PIA) and antagonist [3H]xanthine amine congener ([3H]XAC) binding activity and adenylate cyclase activity in cerebral cortex membranes of the rat brain. Specific binding to a single class of sites for [3H]XAC with a dissociation constant (KD) of 6.0 +/- 1.3 nM was observed. The number of maximal binding sites (Bmax) was 1.21 +/- 0.13 pmol/mg protein. Studies of the inhibition of [3H]XAC binding by PIA revealed the presence of two classes of PIA binding states, a high-affinity state (KD = 2.30 +/- 1.16 nM) and a low-affinity state (KD = 1.220 +/- 230 nM). Guanosine 5'-(3-O-thio)triphosphate or IAP treatment reduced the number of the high-affinity state binding sites without altering the KD for PIA. Apomorphine (100 microM) increased the KD value 10-fold and decreased Bmax by approximately 20% for [3H]PIA. The effect of apomorphine on the KD value increase was irreversible and due to a conversion from high-affinity to low-affinity states for PIA. The effect was dose dependent and was mediated via D2 dopamine receptors, since the D2 antagonist sulpiride blocked the phenomenon. The inhibitory effect of PIA on adenylate cyclase activity was abolished by apomorphine treatment. There was no effect of apomorphine on displacement of [3H]quinuclidinyl benzilate (muscarinic ligand) binding by carbachol. These data suggest that A1 adenosine receptor binding and function are selectively modified by D2 dopaminergic agents.
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PMID:Possible involvement of pertussis toxin-sensitive G proteins and D2 dopamine receptors in the A1 adenosine receptor-adenylate cyclase system in rat cerebral cortex. 214 96

Although adenosine is known to activate K+ conduction in atrial tissue, there is still debate as to the involvement of cAMP-dependent mechanisms. In isolated adult guinea pig atrial myocytes, we demonstrate that the highly A1-selective adenosine receptor agonist 2-chloro-N6-cyclopentyladenosine reduced basal cAMP levels by 30-40% in the absence and presence of the nonxanthine phosphodiesterase inhibitor Ro 20-1724. Isoprenaline caused a concentration-dependent increase in cAMP levels, which was more pronounced in the presence of the phosphodiesterase inhibitor. Several adenosine derivatives suppressed the isoprenaline-induced cAMP increase by approximately 80%. The rank order of potency was 2-chloro-N6-cyclopentyladenosine (IC50, 93 nM) greater than (R)-N6-phenylisopropyladenosine (IC50, 309 nM) greater than 5'-N-ethylcarboxamidoadenosine (IC50, 813 nM) much greater than (S)-N6-phenylisopropyladenosine (IC50, 26,300 nM). A similar but complete suppression of the isoprenaline-induced cAMP increase was produced by the muscarinic receptor agonist carbachol (IC50, 398 nM), which like adenosine is known to activate atrial K+ channels. The A1-adenosine receptor-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine antagonized the effect of 2-chloro-N6-cyclopentyladenosine concentration-dependently, with a KB value of 9.6 nM. In atrial myocytes isolated from guinea pigs pretreated with pertussis toxin, the inhibitory effects of adenosine analogs on basal and isoprenaline-stimulated cAMP accumulation were markedly attenuated. It is concluded that the adenosine receptor in guinea pig atrial myocytes, which is known to be linked to K+ channels, is also coupled to adenylate cyclase via a pertussis toxin-sensitive guanine nucleotide-binding protein and shows the characteristics of the A1-adenosine receptor subtype.
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PMID:Pharmacological characterization of the adenylate cyclase-coupled adenosine receptor in isolated guinea pig atrial myocytes. 216 17

Human rTNF-alpha (greater than or equal to U/ml) decreased PMN nondirected and directed migration to FMLP to approximately 50% of control. Adenosine (100 microM) almost completely restored hrTNF-inhibited migration (nondirected from 54 to 92% and directed migration to from 54 to 93% of control). The lowest concentration of adenosine that restored hrTNF-inhibited migration was 3 microM, and the adenosine analogue, 5'-(N-cyclopropyl)-carboxamido-adenosine (CPCA) was more potent than adenosine. Although CPCA binds to A2-receptors and stimulates adenylate cyclase, the reversal of hrTNF-inhibited chemotaxis was found to be independent of both PMN cAMP content and binding to A2-receptors, because neither 8-Br-cAMP nor pertussis adenylate cyclase restored hrTNF-inhibited PMN chemotaxis and the A2-receptor antagonist, 1,3-dipropyl-7-methylxanthine decreased CPCA stimulated cAMP but enhanced CPCA-restoration of hrTNF-inhibited chemotaxis. The effect of adenosine could be augmented by inhibition of adenosine uptake and decreased by adenosine deamination. Pentoxifylline, (3,7 dimethyl-1-[5 oxo-hexyl] xanthine), like adenosine also restored PMN chemotaxis inhibited by hrTNF. The adenosine receptor antagonist, 1,3-dipropyl-8(phenyl-p-acrylate)-xanthine (BW A1433U), decreased restoration of hrTNF-inhibited chemotaxis by CPCA or pentoxifylline. Thus, the inhibitory effect of hrTNF on PMN migration can be counteracted by adenosine, CPCA, pentoxifylline, and compounds that increase adenosine availability to the surface of the PMN. Inasmuch as an A1-selective agonist N6-cyclopentyladenosine was less active, and the action of the A2-selective agonist CPCA was enhanced by an A2-receptor antagonist, we hypothesize that neither A1 or A2 receptors are involved in adenosine restoration of hrTNF-inhibited chemotaxis. Further, increased cAMP, an A2-regulated event, does not cause the effect, and adenosine restoration of hrTNF-inhibited migration does not appear to be mediated by changes in PMN [F-actin], FMLP receptor expression, or cytosolic calcium. Hence, the restoration of hrTNF-inhibited chemotaxis is controlled by a novel cyclic AMP-independent action on the PMN surface.
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PMID:Adenosine and related compounds counteract tumor necrosis factor-alpha inhibition of neutrophil migration: implication of a novel cyclic AMP-independent action on the cell surface. 216 64

Adenosine, an endogenously released purine, modulates the functions of many cells through surface A1 and A2 receptors. We examined the hypothesis that adenosine receptor ligation regulates Fc gamma R-triggered inflammatory response by polymorphonuclear leukocytes (PMN), a response which is critical to the pathogenesis of immune complex diseases. The effects of adenosine analogs on Fc gamma R-mediated phagocytosis and superoxide anion (O2-) generation in human neutrophils were investigated. 5'(N-ethyl)carboxamidoadenosine (NECA), the most potent A2 receptor agonist, inhibited Fc gamma R-mediated phagocytosis and O2- generation, whereas N6-cyclopentyladenosine (CPA), a highly selective A1 receptor agonist, enhanced these functions. The effects of the adenosine analogs were markedly accentuated in neutrophils adherent to biologic surfaces. Both the inhibition by NECA and the enhancement by CPA of PMN Fc gamma R functions were blocked by the adenosine receptor antagonist 8-p-sulfophenyltheophylline, which suggests that occupancy of surface adenosine receptors mediated the actions of these analogs. Because A1 receptors on PMN are linked to pertussis toxin-sensitive G proteins, our evidence that pertussis toxin blocked the effects on Fc gamma R function brought about by CPA but not by NECA further supports the hypothesis that CPA acts via an A1 receptor. Our data indicate that adenosine A1 and A2 receptors modulate neutrophil Fc gamma R function in opposing ways, allowing for a concentration-dependent, adenosine-regulated feed-back loop. At low concentrations there is enhancement of neutrophil Fc gamma R function via PMN A1 receptors, whereas at higher concentrations (those which may occur at sites of damaged tissues), there is inhibition via A2 receptors. Our observation that adenosine analogs had more potent effects on adherent neutrophils emphasizes the potential importance of adenosine as a modulator of Fc gamma R-triggered inflammation in vivo.
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PMID:Fc gamma receptor-mediated functions in neutrophils are modulated by adenosine receptor occupancy. A1 receptors are stimulatory and A2 receptors are inhibitory. 216 19

In myocardial membranes from hearts with dilated cardiomyopathy (DCM), there was a 37% increase of the Gi alpha-protein as measured by 32P-ADP-ribosylation of a approximately 40 kDa pertussis toxin substrate. Immunoblotting techniques also showed increased amounts of Gi alpha in DCM. In hearts with ischemic cardiomyopathy (ICM), Gi alpha was not altered compared with nonfailing myocardium (NF). Basal and Gpp(NH)p-stimulated adenylate cyclase activity was reduced in DCM but not in ICM. The number of beta-adrenoceptors was similarly reduced both in DCM and ICM compared with NF. Alterations of m-cholinoceptors or A1-adenosine receptors did not occur. Consistently, "indirect" negative inotropic effects of the m-cholinoceptor agonist carbachol and the A1-adenosine receptor agonist R-PIA were not different in ICM, DCM, and nonfailing myocardium. In ICM and DCM, there was a marked reduction of the positive inotropic responses to isoprenaline and milrinone. However, there was a further reduction in DCM compared with ICM. It is concluded that the increase of Gi alpha is accompanied by a reduction of basal and guanine-nucleotide-stimulated adenylate cyclase activity. Alterations of m-cholinoceptors and A1-adenosine receptors do not appear to be involved. The further decrease of the positive inotropic effects of isoprenaline and milrinone in DCM provides evidence that the increase of Gi alpha is functionally relevant in DCM but not ICM and hence might contribute to the reduced effects of endogenous catecholamines and exogenous cAMP-dependent positive inotropic agents in the former but not the latter condition.
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PMID:Increase of Gi alpha in human hearts with dilated but not ischemic cardiomyopathy. 216 57

Adenosine receptors in the smooth muscle cell line DDT1 MF-2 were studied by radioligand binding using the A1 receptor-selective antagonist [3H]8-cyclopentyl-1,3-dipropylxanthine [( 3H]DPCPX) as the ligand. Binding characteristics were similar in intact cells and in membranes (KD value of approximately 1 nM). The maximum binding amounted to 183 fmol/10(6) intact cells or 344 fmol/mg of membranes. To characterize the receptor, competition experiments were performed by inhibiting [3H]DPCPX binding with several adenosine agonists and antagonists. Adenosine receptor antagonists appeared to bind to a single class of binding site, both in membranes and intact cells. The order of potency was DPCPX = CGS 15943A greater than 8-cyclopentyl-1,3-dimethylxanthine greater than 8-(p-sulfophenyl)-theophylline greater than 3-isobutyl-1-methylxanthine greater than theophylline. Competition curves with adenosine agonists in membranes were best described by a two-site rather than a one-site model. At equilibrium in intact cells, only a single site was detected at both 4 degrees and 25 degrees. However, short term incubations (1-4 min) at 25 degrees showed biphasic binding curves in intact cells. The equilibrium KD values for intact cells were similar to the low affinity KD values in membranes (KL). The order of potency was N6-cyclopentyladenosine greater than or equal to (-)-(R)-N6-phenylisopropyladenosine[(R)-PIA] greater than or equal to N6-cyclohexyl adenosine greater than 5'-N-ethylcarboxamidoadenosine (NECA) greater than 2-chloroadenosine greater than adenosine (intact cells only) greater than 2-phenylaminoadenosine (CV 1808). Treatment of cells with pertussis toxin ADP-ribosylated GTP-binding proteins and eliminated the high affinity agonist binding in membranes but did not affect binding to intact cells. The addition of GTP (100 microM) also shifted the competition curves from bi- to monophasic curves in membranes. Adenosine receptor agonists inhibited the formation of cAMP induced by isoprenaline (IC50 for (R)-PIA, 0.4 nM). This inhibition could be prevented with adenosine receptor antagonists. Pretreatment with pertussis toxin also reversed these effects and actually revealed functional A2 receptors, as shown by the formation of cAMP induced by NECA. In conclusion, the equilibrium binding of A1 receptor agonists to intact smooth muscle cells is similar to the low affinity binding observed in membranes. In addition, it is suggested that agonists may transiently convert the A1 receptor from a "resting" low affinity state to a high affinity state coupled to a GTP-binding protein.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of adenosine A1 receptors in intact DDT1 MF-2 smooth muscle cells. 217 73

The effects of adenosine on gastrin release were studied in enzymatically dispersed canine antral cells after 24-36 h in primary culture. We found two contrasting actions for adenosine: inhibition of forskolin-stimulated gastrin release and potentiation of bombesin-stimulated gastrin release. These actions appeared to be mediated by A1 and A2 receptors, respectively. Forskolin-stimulated gastrin release was reduced by adenosine and the A1-selective agonist N6-(L-2-phenylisopropyl)adenosine (L-PIA) but not by the A2-selective agonist 2-phenylaminoadenosine (CV 1808). This inhibition by adenosine was reversed by the preferential A1-receptor antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) as well as by the nonselective adenosine receptor antagonist 8-phenyltheophylline (8-PT). Incubation of the cells with pertussis toxin (200 ng, 8 h) reversed the inhibition by adenosine. In contrast, bombesin stimulation of gastrin release was potentiated by adenosine and CV 1808 but not altered by L-PIA. This effect was enhanced by DPCPX and was not altered by treatment of cells with pertussis toxin. In the absence of exogenous adenosine, 8-PT and DPCPX produced a small increase in basal and stimulated gastrin release. These data suggest dual modulation by adenosine of G-cell function. A1 receptors inhibit adenosine 3,5'-cyclic monophosphate (cAMP)-mediated gastrin release via a pertussis toxin-sensitive mechanism, whereas A2 receptors potentiated the response to cAMP-independent stimuli of gastrin release. Enhancement of gastrin release by adenosine antagonists suggests functional restraint by endogenous adenosine.
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PMID:Dual modulation by adenosine of gastrin release from canine G-cells in primary culture. 222 Oct 65

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