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)

An adenosine A1 receptor agonist R-N6-phenylisopropyladenosine (R-PIA) elicited a pronounced negative inotropic effect with the EC50 value of 0.69 mumol/l in the presence of a beta-adrenoceptor blocking agent bupranolol (0.3 mumol/l) in the isolated ferret papillary muscle. The negative inotropic effect of R-PIA was not associated with changes in cyclic AMP level. Adenosine and other A1 receptor agonists also elicited a negative inotropic effect. DPCPX (1,3-dipropyl-8-cyclopentyl xanthine) antagonized the negative inotropic effect of R-PIA in a competitive manner (pA2 value = 8.4). The inhibitory action of R-PIA was markedly attenuated in the ventricular muscle preparation isolated from ferrets pretreated with pertussis toxin that caused ADP-ribosylation of 39 kDa proteins in the membrane fraction. In the membrane fraction derived from the ferret ventricle, [3H]-DPCPX bound to a single binding site in a saturable and reversible manner with high affinity (Kd value = 1.21 +/- 0.41 nmol/l; Bmax = 12.8 +/- 3.02 fmol/mg protein; n = 7). The binding characteristics of [3H]-DPCPX in the rat ventricle (Kd value = 1.51 +/- 0.09 nmol/l; Bmax = 12.7 +/- 1.47 fmol/mg protein; n = 5) were similar to those in the ferret. On the other hand, the content of G(o), a major pertussis toxin-sensitive G protein in the ferret heart, was much higher in the ferret than in the rat ventricle. The present results indicate that adenosine receptors may play an important role in the inhibitory regulation of ventricular contractility in the ferret in contrast to other mammalian species. The signal transduction process subsequent to agonist binding to A1 receptors including the pertussis toxin-sensitive G protein and ion channels may be responsible for the unique inhibitory action of adenosine in this species.
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PMID:Pronounced direct inhibitory action mediated by adenosine A1 receptor and pertussis toxin-sensitive G protein on the ferret ventricular contraction. 823 6

In this study, the hypothesis that mammalian ventricular myocytes possess A2-adenosine receptors was tested. Electrophysiological, contractile, and cAMP responses to the selective A2-adenosine receptor agonists 2-[2-(4-methylphenyl)ethoxy]adenosine (WRC-0090) and 2-(2-cyclohexylethoxy)adenosine (WRC-0013) and the nonselective adenosine receptor agonist 5'-(N-ethylcarboxamido)adenosine (NECA) were measured using ventricular myocytes isolated from guinea pig, rabbit, and rat hearts. Pertussis toxin pretreatment and/or the selective A1-adenosine receptor antagonists 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) and (+/-)N6-endonorbornan-2-yl-9-methyladenine (N-0861) were used to prevent activation of A1-adenosine receptors in these cells. Action potential duration at 50% repolarization was not altered by WRC-0090, NECA, or WRC-0013 with or without 0.1 microM DPCPX or pertussis toxin pretreatment, and WRC-0090 and NECA failed to prolong the action potential duration of myocytes exposed to 0.1 or 1 microM forskolin. WRC-0090 alone or with 0.1 microM DPCPX did not increase the amplitude of shortening of pertussis toxin-treated or untreated myocytes, and WRC-0090 or NECA did not significantly increase cAMP accumulation. In contrast to these results with myocytes, in the smooth muscle cell line DDT1MF-2 the effect of both selective A2-agonists on cAMP accumulation was biphasic: low concentrations (< or = 0.3 microM) increased but higher concentrations decreased accumulation of cAMP. The decreased cAMP accumulation seen at higher agonist concentrations was completely abolished by either 0.1 microM DPCPX or pretreatment of cells with pertussis toxin. In summary, the results of the present study do not provide evidence for A2-adenosine receptors on mammalian ventricular cardiomyocytes but confirm reports of the coexistence of both A1 and A2 subtypes of adenosine receptors on DDT1MF-2 cells.
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PMID:Selective A2-adenosine receptor agonists do not alter action potential duration, twitch shortening, or cAMP accumulation in guinea pig, rat, or rabbit isolated ventricular myocytes. 838 Feb 61

We have shown previously that low doses of selective sigma (sigma)-receptor ligands potentiate the excitatory response of pyramidal neurons to NMDA in the CA3 region of the dorsal hippocampus in the rat. Because progesterone competitively displaces the binding of the ligand N-[3H]allyl-normetazocine (SKF-10,047), the present studies were undertaken to determine in vivo the effect of neuroactive steroids on NMDA-induced excitation of rat CA3 pyramidal neurons. Low doses of dehydroepiandrosterone (DHEA) potentiated the NMDA response selectively and dose-dependently. The effect of DHEA was reversed by the selective sigma antagonist N-dipropyl-2-(4-methoxy-3- (2-phenylethoxy)phenyl)-ethylamine monohydrochloride (NE-100) and by haloperidol, but not by spiperone. Progesterone had no effect by itself but reversed, at low doses, the potentiation of the NMDA response induced by DHEA as well as those induced by nonsteroidal sigma ligands. Neither pregnenolone nor pregnenolone sulfate had any effect on the NMDA response--nor did they antagonize the potentiation of the NMDA response induced by DHEA and by nonsteroidal sigma ligands. A pertussis toxin pretreatment, which inactivates Gi/o-proteins, abolished the potentiating effects of DHEA. Ovariectomy enhanced the potentiation of the NMDA response by the nonsteroidal sigma ligand di(2-tolyl)guanidine (DTG). There was a reciprocal occlusion of the effects of DHEA and DTG; DTG did not potentiate the NMDA response further after DHEA, and DHEA did not do so after DTG. These results suggest that some neuroactive steroids modulate the NMDA response via sigma receptors.
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PMID:Potentiation of neuronal NMDA response induced by dehydroepiandrosterone and its suppression by progesterone: effects mediated via sigma receptors. 855 48

A variety of receptors coupled to GTP-binding regulatory proteins (G proteins) initiate signals that culminate in activation of the mitogen-activated protein kinases ERK1 and ERK2. We demonstrate here that the human 5-HT1A receptor expressed in Chinese hamster ovary cells similarly promotes activation of ERK1 and ERK2, but that the pathway used does not conform entirely to those proposed previously for G protein-coupled receptors. Activation of ERK2 by the 5-HT1A receptor-selective agonist 8-hydroxy-N,N-dipropyl-2-aminotetralin hydrobromide (8-OH-DPAT) was inhibited completely by pertussis toxin and substantially by prolonged treatment of cells with phorbol 12-myristate 13-acetate. The implied requirement for protein kinase C, however, was negated in studies with bisindolylmaleimide and Ro-31-8220, which, although completely inhibiting activation of ERK2 by phorbol ester, had no impact on activation by 8-OH-DPAT. The anticipated inhibition by the tyrosine kinase inhibitors genistein and herbimycin A, moreover, was marginal at best. As expected for a Gi-coupled receptor, the inhibitors of phosphatidylinositol 3-kinase wortmannin and LY294002 inhibited activation of ERK2, albeit only partly (70%). Of significance, an inhibitor of a phosphatidylcholine-specific phospholipase C, tricyclodecan-9-yl-xanthogenate (D609), caused a similar degree of inhibition. When the two types of inhibitors were combined, an almost complete inhibition was achieved. Our data suggest that phosphatidylinositol 3-kinase and phosphatidylcholine-specific phospholipase C represent components of different, but partly overlapping pathways that can account almost entirely for the activation of ERK2 by the 5-HT1A receptor.
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PMID:Activation of a mitogen-activated protein kinase (ERK2) by the 5-hydroxytryptamine1A receptor is sensitive not only to inhibitors of phosphatidylinositol 3-kinase, but to an inhibitor of phosphatidylcholine hydrolysis. 879 86

The expression and function of stimulatory adenosine A2 receptor on the cardiac myocyte is not well defined. The objective of the present study is to characterize the A2a receptor in adult rat cardiac ventricular myocytes. After selection of an optimal lot of collagenase for myocyte isolation and for consistent measurement of adenosine-mediated responses, the A1-receptor pathway was inactivated by pertussis toxin and by the A1-selective antagonist 1,3-dipropyl-8-cyclopentylxanthine. Effects of the adenosine agonist and antagonist or cardiac myocyte contractile amplitude and on adenosine 3',5'-cyclic monophosphate (cAMP) levels were determined. The A2a-receptor-selective agonist 2-[p-(2-carboxyethyl)phenylethylamino]-5'-N-ethylcarboxamidoade nos ine (CGS-21680) caused a pronounced stimulation of myocyte contractile amplitude and an increase in the cAMP level, as did the nonselective agonists 5'-(N-ethylcarboxamido) adenosine (NECA) and adenosine. The A2a-receptor-selective antagonist 8-(3-chlorostyryl)caffeine blocked the NECA- and adenosine-induced positive inotropic response. Probing of myocyte RNA with a rat A2a-receptor cDNA demonstrated a 2.6-kb mRNA, corresponding to that encoding the A2a receptor. Together, data from contractile, cAMP, and RNA studies indicate that A2a receptors are expressed and are functionally coupled to stimulation of cAMP accumulation and cardiac contractility in adult rat ventricular myocytes.
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PMID:Characterization of a stimulatory adenosine A2a receptor in adult rat ventricular myocyte. 892 71

The regulation in expression of human 5-hydroxytryptamine1A (5-HT1A) receptors by agonists and antagonists was studied in a stable transfected Chinese hamster ovary cell line expressing the human 5-HT1A receptor. Receptor density and affinity were measured with [125I]4-(2'-methoxyphenyl)-1-[2'-[N-(2'-pyridinyl)-p-iodobenzamido ]ethyl]piperazine ([125I]p-MPPI), a selective antagonist of 5-HT1A receptors. Treatment of Chinese hamster ovary cells with serotonin or the selective agonist (+/-)-8-hydroxy-N,N-dipropyl-2-aminotetralin stimulated a 2.5-fold increase in receptor density. The antagonists 4-(2'-methoxyphenyl)-1-[2'-[N-(2'-pyridinyl)-p-iodobenzamidoethyl] piperazine, (-)-(S)-pindolol, and spiperone also stimulated up-regulation of receptor expression. Agonist- and antagonist-stimulated up-regulations of receptor expression were mechanistically different. The effect of agonists was inhibited by pertussis toxin, actinomycin D, and cycloheximide. Antagonist-stimulated up-regulation was inhibited by cycloheximide, only partially inhibited by actinomycin D, and not inhibited by pertussis toxin. In the course of identifying potential pathways for coupling of the receptor to activation of transcription, we demonstrated that agonists activate the transcription regulatory factor nuclear factor-kappaB (NF-kappaB). Agonists were found to stimulate degradation of the inhibitory subunit, IkappaB alpha, and to increase the activity of a NF-kappaB-dependent CAT reporter gene. In contrast, the antagonist 4-(2'-methoxyphenyl)-1-[2'-[N-(2'-pyridinyl)-p-iodobenzamidoethyl] piperazine neither elicited degradation of Ikappa-B alpha nor increased reporter activity. Our data suggest that expression of 5-HT1A receptors can be regulated by both agonists and antagonists and that the agonist but not antagonist stimulation occurs concomitantly with activation of NF-kappaB.
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PMID:5-hydroxytryptamine1A receptor-mediated increases in receptor expression and activation of nuclear factor-kappaB in transfected Chinese hamster ovary cells. 927 44

A1 adenosine receptors (A1ARs) have been recently shown to be expressed in rodent embryonic hearts at very early stages of development. To determine the functional significance of fetal cardiac A1AR expression during embryogenesis, murine fetal heart preparations were studied between postconceptual days 9 and 12. Dose-response curves generated using a variety of adenosine agonists revealed that A1AR activation potently regulated fetal heart rates. The A1AR agonist, N6-cyclopentyladenosine, inhibited heart rates in a dose-dependent manner (half-maximal effective concentration = 3.6 x 10(-8) M) and stopped fetal cardiac contractions in 63% of preparations. In contrast, A2a and A2b receptor activation did not alter heart rates, and activation of A3 receptors produced modest declines in heart rates. Endogenous adenosine also acted tonically to suppress fetal heart rates, as demonstrated by the A1AR antagonist 1,3-dipropyl-8-cyclopentylxanthine, increasing heart rates, whereas the adenosine reuptake blocker dipyridamole lowered fetal heart rates. Pertussis toxin treatment blocked A1AR action, showing that A1AR action was G protein mediated. Using drugs that alter cAMP levels and ion channel action, we were able to show that A1AR action involves events mediated by cAMP, ATP-dependent K, L-type calcium, sodium, and chloride channels, and the pacemaker current. These data show that adenosine and A1ARs potently regulate mammalian heart rates via multiple effector systems at very early stages of prenatal development.
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PMID:A1 adenosine receptors potently regulate heart rate in mammalian embryos. 936 2

The antagonistic interactions between adenosine A1 and dopamine D1 receptors were studied in a mouse Ltk- cell line stably cotransfected with human adenosine A1 receptor and dopamine D1 receptor cDNAs. In membrane preparations, both the adenosine A1 receptor agonist N6-cyclopentyladenosine and the GTP analogue guanyl-5'-yl imidodiphospate induced a decrease in the proportion of dopamine D1 receptors in a high affinity state. In the cotransfected cells, the adenosine A1 agonist induced a concentration-dependent inhibition of dopamine-induced cAMP accumulation. Blockade of adenosine A1 receptor signal transduction with the adenosine A1 receptor antagonist 1,3-dipropyl-8-cyclopentylxanthine or with pertussis toxin pretreatment increased both basal and dopamine-stimulated cAMP levels, indicating the existence of tonic adenosine A1 receptor activation. Pretreatment with pertussis toxin also counteracted the effects of low concentrations of the A1 agonist on D1 receptor-agonist binding. The results suggest that adenosine A1 receptors antagonistically modulate dopamine D1 receptors at the level of receptor binding and the generation of second messengers.
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PMID:Adenosine A1 receptor-mediated modulation of dopamine D1 receptors in stably cotransfected fibroblast cells. 946 34

1. The effects of alpha1 adrenoceptor blocking agents doxazosin, indoramin, 5-methylurapidil, niguldipine, WB-4101 and chloroethylclonidine (CEC) on the force of contraction (Fc), velocity of contraction (+dF/dt) and relaxation (-dF/dt) of guinea pig papillary muscles were studied. 2. All examined substances were applied in a wide concentration range (0.01-30.0 microM) for at least 30 min at each concentration. Only alpha1a blockers [i.e., niguldipine (0.01-0.3 microM), 5-methylurapidil (1-30 microM) and WB-4101 (1-30 microM)] showed a concentration-dependent negative inotropic action. 3. This effect was significantly attenuated in the presence of glibenclamide (1 microM) and almost completely abolished by 1,3-dipropyl-8-p-sulfophenylxanthine (1 microM), an antagonist of adenosine receptors with a slight selectivity for the A1 subtype. 4. Pretreatment with dibenamine, an irreversible blocker of alpha1 adrenoceptors (0.6 microM for 40 min), abolished this effect, whereas pretreatment with CEC, an irreversible blocker of alpha1b adrenoceptors (1 microM for 20 min), and pertussis toxin (10 microg/kg IP, 4 to 5 days before experiments) diminished it. 5. The alpha1a adrenoceptor blocking agents in the presence of the unblocked alpha1b adrenoceptor trigger the negative inotropic action, which seems to include adenosine receptor stimulation and activation of ATP-sensitive K+ channels (K[ATP]) through an inhibitory G protein.
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PMID:Negative inotropic action of alpha-1a adrenoceptor blocking agents: role of adenosine and ATP-sensitive K+ channels. 951 86

We have investigated the effect of endogenous adenosine on the release of [3H]acetylcholine ([3H]ACh) in cultured chick amacrine-like neurons. The release of [3H]ACh evoked by 50 mM KCl was mostly Ca2+ dependent, and it was increased in the presence of adenosine deaminase and in the presence of 1,3-dipropyl-8-cyclopentylxanthine (DPCPX), an adenosine A1 receptor antagonist. The effect of adenosine on [3H]ACh release was sensitive to pertussis toxin (PTX) and was due to a selective inhibition of N-type Ca2+ channels. Ligand binding studies using [3H]DPCPX confirmed the presence of adenosine A1 receptors in the preparation. Using specific inhibitors of the plasma membrane adenosine carriers and of the ectonucleotidases, we found that the extracellular accumulation of adenosine in response to KCl depolarization was due to the release of endogenous adenosine per se and to the extracellular conversion of released nucleotides into adenosine. Activation of adenosine A1 receptors was without effect on the intracellular levels of cyclic AMP under depolarizing conditions, but it inhibited the accumulation of inositol phosphates. Our results indicate that in cultured amacrine-like neurons, the Ca2+-dependent release of [3H]ACh evoked by KCl is under tonic inhibition by adenosine, which activates A1 receptors. The effect of adenosine on the [3H]ACh release may be due to a direct inhibition of N-type Ca2+ channels and/or secondary to the inhibition of phospholipase C and involves the activation of PTX-sensitive G proteins.
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PMID:Modulation of [3H]acetylcholine release from cultured amacrine-like neurons by adenosine A1 receptors. 972 33


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