Characterization of adenosine receptors in intact cultured heart cells

Abstract: Adenosine receptors were studied on heart cells grown in cultures by the radioligand binding technique. We used the hydrophilic A 1 adenosine receptor radioligand [ 3 H]-8-cyclopentyl-1,3-dipropylxanthine ([ 3 H]CPX), to monitor the level of the receptors on intact cardiocytes. The binding showed high affinity (K d = 0.13 nM) and the number of [ 3 H]CPX binding sites (B max ) was 23.1 fmol/dish (21 fmol/mg protein). The K i of the agonists R-N 6 -(2-phenylisopropyl)-adenosine (R-PIA) and S-N 6 -(2-phenylisopro… Show more

“…ES at low temperature or amiodarone, respectively. As in the previous study utilizing adrenergic and cholinergic stimulation [7], the change in contraction rate in rat heart cell cultures was associated with changes in the density of A 1 adenosine receptors. …”

“…The elevation in A 1 adenosine receptors probably increases cardiac sensitivity to adenosine and indicates by which mechanism the heart cells may adapt to electrical stimulation stress. Further support for this mechanism of adaptation to stress was demonstrated by the effect of thyroid hormones and catecholamines that accelerated heart rate and also upregulated the A 1 adenosine receptor [7,15].…”

“…The A 1 adenosine receptor is upregulated in hyperthyroidism [7], an effect accompanied by stimulation of myocardial contractility and a biochemical transition of slow-twitch ("red") ‡ Corresponding author: Prof. Asher Shainberg, Department of Life Sciences, Bar-Ilan University, Ramat-Gan 52900, Israel. TEL: 972-3-5318265; FAX: 972-3-5351824; shaina@ashur.cc.biu.ac.il.…”

“…The elevation in A 1 adenosine receptors probably increases cardiac sensitivity to adenosine and indicates by which mechanism the heart cells may adapt to electrical stimulation stress. Further support for this mechanism of adaptation to stress was demonstrated by the effect of thyroid hormones and catecholamines that accelerated heart rate and also upregulated the A 1 adenosine receptor [7,15].The important role of the A 1 adenosine receptor and not A 2 receptors in relation to heart contractility was reported for electrically stimulated cardiocytes that were acutely treated with R-PIA [30,31]. In those cells R-PIA decreased contractility, while CPX, a selective A 1 adenosine antagonist, antagonized the effect of R-PIA on contractile response.…”

Regulation of A1 adenosine receptors by amiodarone and electrical stimulation in rat myocardial cells in vitro

“…ES at low temperature or amiodarone, respectively. As in the previous study utilizing adrenergic and cholinergic stimulation [7], the change in contraction rate in rat heart cell cultures was associated with changes in the density of A 1 adenosine receptors. …”

“…The elevation in A 1 adenosine receptors probably increases cardiac sensitivity to adenosine and indicates by which mechanism the heart cells may adapt to electrical stimulation stress. Further support for this mechanism of adaptation to stress was demonstrated by the effect of thyroid hormones and catecholamines that accelerated heart rate and also upregulated the A 1 adenosine receptor [7,15].…”

“…The A 1 adenosine receptor is upregulated in hyperthyroidism [7], an effect accompanied by stimulation of myocardial contractility and a biochemical transition of slow-twitch ("red") ‡ Corresponding author: Prof. Asher Shainberg, Department of Life Sciences, Bar-Ilan University, Ramat-Gan 52900, Israel. TEL: 972-3-5318265; FAX: 972-3-5351824; shaina@ashur.cc.biu.ac.il.…”

“…The elevation in A 1 adenosine receptors probably increases cardiac sensitivity to adenosine and indicates by which mechanism the heart cells may adapt to electrical stimulation stress. Further support for this mechanism of adaptation to stress was demonstrated by the effect of thyroid hormones and catecholamines that accelerated heart rate and also upregulated the A 1 adenosine receptor [7,15].The important role of the A 1 adenosine receptor and not A 2 receptors in relation to heart contractility was reported for electrically stimulated cardiocytes that were acutely treated with R-PIA [30,31]. In those cells R-PIA decreased contractility, while CPX, a selective A 1 adenosine antagonist, antagonized the effect of R-PIA on contractile response.…”

Regulation of A1 adenosine receptors by amiodarone and electrical stimulation in rat myocardial cells in vitro

“…This phenomenon cannot be exclusively explained by the moderately decreased A 1 receptor affinity explored in the present study, so (an)other mechanism(s) should be supposed. Thyroid hormones increased the A 1 receptor number in both the rat atrium (Kaasik et al 1994) and ventricle (El-Ani et al 1994), with unchanged concentration of the relevant G protein subtypes (El-Ani et al 1994;Kaasik et al 1994). Starting from this, the suppressed negative inotropic response cannot be ascribed to a change in the A 1 receptor or G protein density in hyperthyroidism.…”

Thyroid hormones decrease the affinity of 8-cyclopentyl-1,3-dipropylxanthine (CPX), a competitive antagonist, for the guinea pig atrial A1 adenosine receptor

Activation of Adenosine A1 and A3 Receptors Protects Mitochondria during Hypoxia in Cardiomyocytes by Distinct Mechanisms