Decreased response with age of the cardiac catecholamine sensitive adenylate cyclase system

Abstract

The cardiac β-adrenergic coupled adenylate cyclase system was examined in young and old male Wistar rats. The concentration of binding sites for (−) 3H-DHA in membranes prepared from cardiac ventricles was 21.1 ± 2.78 (SD) fmoles/mg protein in 3–4 month old rats (young rats) and 31.2 ± 2.20 fmoles/mg protein in 24 month old rats (old rats). The dissociation constant, K D was 4.3 ± 1.8 nM and 6.7 ± 1.7 nM for young and old rats, respectively. Various compounds were used to study the characteristics of activation of adenylate cyclase in homogenates from cardiac ventricles. Basal adenylate cyclase was reduced 30% in old animals compared to young (6.1 pmoles/min/mg protein in 24 month vs. 8.6 pmoles/min/mg protein in 3–4 month). (−)Isoproterenol (10 −5M) alone stimulated adenylate cyclase greater than two-fold in young rats (10.6 pmoles/min/mg protein above basal) and this stimulation was 34% lower in old animals. GppNHp (100 μM), fluoride (10 mM), and forskolin (100 μM) activation of adenylate cyclase above basal was reduced 38, 37, and 34%, respectively, in the old animals. No significant changes between the two groups were noted in the apparent affinity of GppNHp either alone or in the presence of (−)isoproterenol nor in the affinities of catecholamine agonists for activation of cyclase. These results suggest a reduction in the amount of functional regulatory protein or possibly cyclase in 24 month old rat ventricular tissue compared to 3–4 month old tissue. However, this data does not rule out the possibility of altered molecular interactions of a full complement of regulatory protein (s) with β-adrenergic receptor and/or catalytic adenylate cyclase.