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)

Adenosine A1 receptors and alpha 2-adrenoceptors are both potent inhibitors of adipocyte lipolysis when activated by their agonists. The aim of this work was to compare the coupling of these receptors to the Gi-proteins in hamster adipocytes. The adenosine A1 receptor was characterized with the antagonist [3H]dipropyl-cyclopentyl-xanthine ([3H]DPCPX) and the agonist [3H](-)-phenylisopropyladenosine ([3H]PIA). It was demonstrated by [32P]ADP-ribosylation with pertussis toxin and immunoblotting that Gi1, Gi2 and Gi3 are expressed in hamster adipocytes. Partial ADP-ribosylation of Gi-proteins by pertussis toxin, acting on the intact cells or on the adipocyte membranes, demonstrated that the adenosine A1 receptor was less sensitive to the disappearance of functional Gi-proteins than the alpha 2-adrenoceptor. These results are in accordance with the weak sensitivity of the binding of the agonist [3H]PIA to guanine nucleotides and seem to confirm that the adenosine A1 receptor is strongly and differently coupled than the alpha 2-adrenoceptor to the Gi-proteins in hamster adipocyte membranes.
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PMID:Coupling of inhibitory receptors with Gi-proteins in hamster adipocytes: comparison between adenosine A1 receptor and alpha 2-adrenoceptor. 805 Apr 82

1. The whole-cell configuration of the gigaohm seal voltage clamp and an internal perfusion technique were used to study the effects of adenosine on the basal L-type Ca2+ current (ICa) in enzymatically isolated right ventricular myocytes of ferrets. Basal L-type ICa was isolated by using a Na(+)- and K(+)-free saline (replacement by N-methyl-D-glucamine+, Cs+ and TEA+, respectively). All experiments were conducted at room temperature (22-24 degrees C). 2. Basal ICa was markedly reduced during exposure to adenosine in a concentration-dependent manner with a half-inhibitory concentration (IC50) of 0.3 microM and maximum inhibition of 35%. This effect was completely abolished by 50 nM 8-cyclopentyl-1,3-dipropylxanthine (CPDPX), a specific A1 adenosine receptor antagonist with an inhibition constant, Ki = 0.48 nM. Inhibition was also observed in the presence of 1 microM atropine. 3. Adenosine decreased basal ICa by decreasing the peak amplitude of ICa without significantly altering (i) the voltage dependence of the current-voltage relationship, (ii) the apparent reversal potential, (iii) the voltage dependence of steady-state activation and inactivation, (iv) the kinetics of inactivation at 0 mV, and (v) the kinetics of recovery from inactivation at -70 mV. 4. Pretreatment of cells with 0.4 microns/ml pertussis toxin (PTX) for 4 h at 37 degrees C produced greater than 90% ADP ribosylation of PTX-sensitive G proteins. PTX pretreatment significantly attenuated the adenosine-mediated decrease in ICa (35% in control; 4.6% after PTX pretreatment). 5. The peptide inhibitor (PKI) of cyclic AMP-dependent protein kinase A at a concentration of 2 microM neither inhibited basal ICa nor attenuated the effects of adenosine on basal ICa. However, PKI decreased the stimulatory effects of 100 microM cAMP on ICa. 6. Increasing intracellular cAMP to a supra-saturable level by using 10 mM cAMP and 100 microM papaverine did not prevent adenosine from inhibiting ICa. 7. Consistent with the reduction of basal ICa, adenosine produced an inhibitory effect on the action potential under basal conditions, i.e. hyperpolarization of the plateau phase and marked shortening of action potential duration. These effects were concentration dependent. 8. These results demonstrate a reduction of the basal L-type ICa by adenosine in ferret ventricular myocardium. This reduction is not mediated by modification of voltage-dependent properties of macroscopic ICa. The shortening of action potentials may be explained in part by the reduction in ICa.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Modulation of basal L-type Ca2+ current by adenosine in ferret isolated right ventricular myocytes. 812 Aug 7

We studied the effect of adenosine on prolactin secretion by the anterior pituitary, and the transduction mechanisms whereby the purine exerts its action. Adenosine inhibited prolactin release in basal and in vasoactive intestinal peptide (VIP)- or TRH-stimulated conditions. Pertussis toxin pretreatment reduced the inhibition of VIP-stimulated prolactin secretion which was induced by adenosine, while it completely abolished the effect of the purine on TRH-evoked prolactin release. In membrane preparations of anterior pituitary cells, adenosine reduced the adenylate cyclase activity stimulated by VIP. Such an inhibition was not blocked by pertussis toxin pretreatment. Furthermore, the purine reduced TRH-stimulated inositol phosphate production in cultured anterior pituitary cells, an effect that was reversed by pretreatment with pertussis toxin. In addition, the nucleoside did not significantly affect the TRH-induced rise in intracellular calcium. In conclusion, our data show that adenosine inhibits prolactin secretion, acting on purinergic receptors coupled to the adenylate cyclase enzyme and phospholipase C. The effect of the nucleoside on adenylate cyclase seems to be achieved either by the involvement of an adenosine receptor coupled to the catalytic subunit of the enzyme via a pertussis toxin-sensitive G protein, or by the activation of a site directly coupled to the catalytic subunit of the adenylate cyclase (the P site). Its effect on phospholipase C seems to be mediated by a purinergic receptor coupled to the intracellular effector via a pertussis toxin-sensitive G protein.
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PMID:Direct effect of adenosine on prolactin secretion at the level of the single rat lactotroph: involvement of pertussis toxin-sensitive and -insensitive transducing mechanisms. 814 40

Acetylcholine (ACh) is known to increase K+ conductance in the atrium and in pacemaker tissues in the heart. This effect has not been well defined in mammalian ventricular tissues. We have identified and characterized the ACh-sensitive muscarinic K+ channel [IK(ACh)] activity in isolated human, cat, and guinea pig ventricular myocytes using the patch-clamp technique. Application of ACh increased whole cell membrane current in human ventricular myocytes. Current-voltage relationship of the ACh-induced current in ventricle exhibited inward-rectification whose slope conductance was smaller than that in atrium. In single-channel recording from cell-attached patches, IK(ACh) activity was observed when ACh was included in the solution. The channel exhibited a slope conductance of 43 +/- 2 pS. Open times were distributed according to a single exponential function with mean open lifetime of 1.8 +/- 0.3 ms. The channel had conductance and kinetic characteristics similar to human atrial IK(ACh), which had a slope conductance of 43 +/- 3 pS and mean open lifetime of 1.6 +/- 0.3 ms. However, concentration of ACh at half-maximal stimulation (KD) of the channel in ventricle was greater (KD = 0.13 microM) than that in atrium (KD = 0.03 microM). Adenosine caused activation of the same K+ channel. After formation of an excised inside-out patch, channel activity disappeared. Application of GTP (100 microM) or GTP gamma S (100 microM) to the solution caused reactivation of the channel. When myocytes were preincubated with pertussis toxin (PTX), ACh failed to activate these channels, indicating that the PTX-sensitive G protein, Gi, is essential for activation of IK(ACh). IK(ACh) channel activity was also found in cat and guinea pig ventricular myocytes. We conclude that ACh directly activates the IK(ACh) in mammalian ventricular myocytes via Gi in a fashion almost identical to atrial myocytes.
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PMID:Acetylcholine-sensitive muscarinic K+ channels in mammalian ventricular myocytes. 820 80

The neuromodulator adenosine is known to decrease neurotransmitter release at the neuromuscular junction by activation of an A1 adenosine receptor coupled to a pertussis toxin-sensitive G protein. Among the mechanisms that could contribute to the depression of neurotransmitter release is reduced entry of calcium through channels located in the presynaptic terminal. In the present study, we have examined the effects of adenosine on high-voltage-activated (HVA) calcium currents in motoneurons, the presynaptic cells of the neuromuscular junction. The motoneurons were isolated from embryonic mice, placed in primary tissue culture for 16 hr, and analyzed by means of the whole-cell patch-clamp technique. Adenosine (40 microM) reduced both transient and sustained components of HVA calcium current. This effect was blocked by the A1 antagonist 8-cyclopentyltheophylline (CPT; 100 nM) and was mimicked by the A1 agonist N6-cyclohexyladenosine (CHA; 50 nM to 10 microM) but not by the A2a agonist 2-p-(2-carboxyethyl)phenethylamino-5'-N-ethylcarboxamido adenosine (CGS-21680; 1 micron). Pretreatment with pertussis toxin (200 ng/ml, > 16 hr) abolished the depression of HVA calcium current by adenosine receptor activation. Brief (3 min) exposure of the cells to 10 microM omega-conotoxin GVIA irreversibly blocked a part of the HVA current, which can therefore be attributed to N-type channels; the remaining current was unaffected by adenosine receptor activation. Hence, it appears that adenosine decreases only the N-current portion of HVA current and that this inhibition occurs via an A1 receptor linked to a pertussis toxin-sensitive G protein. Other investigators have shown that N-type channels do not play a primary role in eliciting transmitter release at the mammalian neuromuscular junction. Thus, it is uncertain what motoneuronal functions are influenced by adenosine modulation of N-type channels.
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PMID:Adenosine acting at an A1 receptor decreases N-type calcium current in mouse motoneurons. 820 77

Adenosine and acetylcholine exert negative chronotropic and anti-adrenergic effects on nonischemic myocardium presumably via receptor coupling to the same or similar inhibitory guanine nucleotide binding protein (Gi). To determine whether the cardioprotective effect of adenosine is mediated via adenosine A1 receptor coupling to Gi proteins, isolated rat hearts, perfused at constant pressure and constant heart rate, were subjected to 30 min global normothermic (37 degrees C) ischemia and 45 min reperfusion. Untreated control hearts recovered 52 +/- 2% of preischemic left ventricular developed pressure (LVDP). Hearts treated for 10 minutes prior to ischemia with adenosine (100 microM) and the adenosine A1 receptor agonist cyclohexyladenosine (CHA, 0.25 microM) recovered 67 +/- 4% and 70 +/- 4%, respectively. Hearts treated with the non-specific muscarinic cholinergic agonist carbamylcholine (1 microM) exhibited similar enhanced postischemic recovery (70 +/- 3%). Pretreatment of rats with pertussis toxin (25 micrograms/kg i.p., 48 h prior to isolation) significantly reduced the negative chronotropic effects of adenosine and CHA. Pertussis toxin pretreatment also blocked the beneficial effects of adenosine (57 +/- 4% recovery) and CHA (49 +/- 4% recovery) on postischemic function. These results support the hypothesis that the salutary effect of adenosine on the ischemic myocardium is mediated via adenosine A1 receptor coupling to a pertussis toxin sensitive G protein, presumably Gi.
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PMID:Pertussis toxin blocks adenosine A1 receptor mediated protection of the ischemic rat heart. 823 Feb 43

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 rat seminiferous epithelium, FSH-stimulated cAMP production is cyclically modulated by spermatogenic cells and is highest in stages XIV-V and lowest in stages VII-VIII of the epithelial cycle. Adenosine has been proposed to be an inhibitory paracrine molecule in Sertoli cells. In this paper the effect of adenosine analog n-phenylisopropyladenosine (PIA) on FSH-stimulated cAMP production was studied in staged rat seminiferous tubules. In low responsive stages VII-VIII of the cycle, 100 nM and 10 microM PIA inhibited FSH-stimulated cAMP production by 24% and 28%, respectively. To study whether PIA effect is mediated through Gi-protein, pertussis toxin (PT) pretreatment was used to block the Gi-protein. PT pretreatments of 3 or 18 h caused 42% or 16% elevation in FSH-stimulated cAMP production, respectively. PIA blocked the stimulation caused by PT pretreatment. At 38 days post irradiation, when spermatocytes and round spermatids were decreased in number, in stages VII-VIII of the cycle the inhibitory effect of PIA was abolished. In high responsive stages XIV-V of the cycle, 100 nM PIA stimulated cAMP production by 27%, while 10 microM PIA had no effect. At 38 days post irradiation FSH response was decreased by 19% when compared to non-irradiated level, and PIA stimulated FSH-stimulated cAMP production by 22%. The results suggest that there are stage-specific mechanisms for adenosine-dependent regulation of FSH-stimulated cAMP production in the rat seminiferous epithelium. Advanced spermatogenic cells seem to maintain the mechanisms that include PIA-mediated inhibition of FSH response. Other mechanisms than PT-sensitive Gi-protein seem to be involved in the inhibition.
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PMID:Effects of adenosine analog PIA (n-phenylisopropyladenosine) on FSH-stimulated cyclic AMP (cAMP) production in the rat seminiferous epithelium. 827 29

Whether the opening of ATP-sensitive K+ channels responsible for adenosine A2 receptor-mediated vasodepression involves a pertussis toxin (PTX)-sensitive G protein was investigated in pithed rats. Adenosine and levcromakalim were used as reference substances. The blood pressure of pithed rats was kept elevated with an i.v. infusion of methoxamine. 2-(1-Octynyl)-adenosine (YT-146; 0.1-10 micrograms/kg i.v.), a selective adenosine A2 receptor agonist, produced a dose-dependent and long-lasting decrease in mean blood pressure (MBP) scarcely affecting heart rate (HR). Levcromakalim (0.3-10 micrograms/kg per min i.v. for 20 min) produced a dose-dependent and slowly developing decrease in MBP. The vasodepressor effects of YT-146 and levcromakalim were antagonized by glibenclamide (20 mg/kg i.v.), a blocker of ATP-sensitive K+ channels; the ED50 values for YT-146 and levcromakalim both increased about 2.5-fold. In rats pretreated with PTX (10 micrograms/kg i.v.), in which vagally induced bradycardia was nearly abolished, the vasodepressor effects of YT-146 and levcromakalim were slightly enhanced. Adenosine (0.3-10 mg/kg per min i.v. for 1 min) produced a dose-dependent and long-lasting decrease in MBP accompanied by a transient decrease in HR. The vasodepressor effect of adenosine was antagonized by glibenclamide; the ED50 value for adenosine increased about 3.2-fold, but not after PTX pretreatment. In contrast, the transient bradycardia was antagonized by PTX pretreatment but not by glibenclamide. These results suggest that the opening of ATP-sensitive K+ channels in vascular smooth muscle following stimulation of adenosine A2 receptors by YT-146 and adenosine does not involve a PTX-sensitive G protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Opening of ATP-sensitive K+ channels responsible for adenosine A2 receptor-mediated vasodepression does not involve a pertussis toxin-sensitive G protein. 831 53

The ability of physiological concentrations of adenosine to inhibit formylmethionylleucylphenylalanine (fMLP)-stimulated superoxide anion (O2-) generation, adherence and degranulation is well established in human neutrophils. However, the mechanism of inhibition remains to be determined. To better understand where adenosine blocks the fMLP signal transduction pathway, we examined the ability of adenosine to inhibit neutrophil adherence stimulated by phorbol myristate acetate (PMA), NaF, and A23187; these agents activate intermediate steps in fMLP signal transduction. Adenosine (0.1-100 microM) did not inhibit adherence mediated by these receptor-independent agonists or NaF- and A23187-mediated O2- production. Additionally, NaF and A23187 completely abrogated adenosine inhibition of fMLP-stimulated neutrophil adherence. We also found that pertussis toxin (5 and 10 microM) completely inhibited fMLP-induced neutrophil adherence and O2- generation, indicating that both processes are G protein mediated. Furthermore, fMLP-stimulated GTPase activity in neutrophil membrane preparations was significantly inhibited by adenosine (1 and 10 microM) or 5'-N-ethylcarboxamidoadenosine (1 microM) (NECA). These data indicate that adenosine inhibits a G-protein-dependent pathway of fMLP stimulation by uncoupling G proteins from the fMLP receptor. This may be a general mechanism of adenosine inhibition of cell-surface receptor-mediated signals as both fMLP- and C5a-stimulated neutrophil adherence were inhibited at similar concentrations.
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PMID:Adenosine inhibits fMLP-stimulated adherence and superoxide anion generation by human neutrophils at an early step in signal transduction. 838 84


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