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Expression and Pharmacological Characterization of a Stimulatory Subtpe of Adenosine Receptor in Fetal Chick Ventricular Myocytes

 

作者: David Xu,   Haeyoung Kong,   Bruce Liang,  

 

期刊: Circulation Research  (OVID Available online 1992)
卷期: Volume 70, issue 1  

页码: 56-65

 

ISSN:0009-7330

 

年代: 1992

 

出版商: OVID

 

关键词: adenosine;A1--and A2-adenosine receptors;cultured cardiac myocytes;adenylate cyclase;contractility

 

数据来源: OVID

 

摘要:

Ventricular and atrial myocytes cultured from chick embryos 14 days in ovo were used as model systems to study cardiac adenosine receptors. In membranes of ventricular cultures, blocking of the A1-adenosine receptor pathway by the A1-selective antagonist 8-cyclopentyl-1,3-dipropyl-xanthine (DPCPX) or by pertussis toxin treatment of the myocyte resulted in a significant adenosine agonist-mediated stimulation of the adenylate cyclase activity. The maximal increases in adenylate cyclase activity caused by the equipotent or the A2-adenosine receptor-selective agonists (from 52.1±3% to 63±10% [mean±SEM]) were significantly greater than those caused by the A1-selective agonists (from 11±5% to 34.6±7%) (p<0.01, byttest,n=4–8). However, in membranes of atrial myocytes, when Al-subtype had been blocked, the various adenosine agonists had no effect on the adenylate cyclase activity. Whether the stimulatory adenylate cyclase-coupled adenosine receptor is also capable of stimulating contractility in the intact ventricular myocyte was next investigated. In ventricular but not in atrial cells, the various adenosine agonists caused an increase in the contractile amplitude in the presence of DPCPX or in myocytes preexposed to pertussis toxin. The increase in contraction amplitude caused by each agonist was expressed as percent of maximum (maximum is the increase in contractility, caused by 2.4 mM calcium). In the pertussis toxin-treated myocyte, the maximal increases caused by the equipotent or A2-agonists (NECA, MECA, CV-1808, and CGS21680, from 49.6±3% to 52.5±6%,n=8–12) were significantly greater than those elicited by the Al-agonists (2-CADO,S-PIA,R-PIA, and DCCA, from 12±4% to 37±3%,n=8) (p<0.05, byttest). These data demonstrated that a stimulatory adenosine receptor, likely the A2-adenosine receptor, was present on the ventricular but not the atrial myocytes and was linked directly to a stimulation of the cardiac contractility. The functional effects mediated by the A1-subtype became manifested in the presence of isoproterenol, as evidenced by an inhibition of the isoproterenol-stimulated increases in adenylate cyclase activity and in cardiac contractility by adenosine agonists. Thus, both subtypes of adenosine receptors, each mediating opposing responses, were present on the ventricular myocytes, whereas only the A1-subtype was found in the atria. The presence of a stimulatory functional A2-adenosine receptor may help explain the absence of a direct negative inotropic response to adenosine in the ventricle.

 

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