Non‐competitive antagonism of β2‐agonist‐mediated cyclic AMP accumulation by ICI 118551 in BC3H1 cells endogenously expressing constitutively active β2‐adrenoceptors

Abstract

Constitutive activity of the β₂‐adrenoceptor, which is sensitive to inhibition by an inverse agonist such as ICI 118551, has been readily demonstrated in recombinant systems expressing constitutively‐active mutant receptors or over‐expressing the wild‐type β₂‐adrenoceptor. Here we demonstrate the presence of constitutive β₂‐adrenoceptor activity in BC3H1 cells which endogenously express this receptor. In BC3H1 cells, only ICI 118551 behaved as an inverse agonist at β₂‐adrenoceptors, while propranolol, ICI 118551, atenolol and, to a lesser extent, alprenolol exhibited inverse agonism in CHO‐β₂4 cells transfected with cDNA for the human β₂‐adrenoceptor (310 fmol.mg protein⁻¹). The level of expression of β2‐adrenoceptors in BC3H1 cells was not high (78 fmol.mg protein−1) and the efficiency of receptor–effector coupling in this cell line was much lower than in the recombinant CHO‐β₂4 cells (as judged by the partial agonist nature of both salbutamol and clenbuterol). ICI 118551 (log K_D−9.73±0.07) and propranolol (log K_D−9.25±0.12) both behaved as conventional competitive antagonists of isoprenaline‐stimulated cyclic AMP accumulation in high expressing CHO‐β₂4 cells. In contrast, ICI 118551 appeared to act as a non‐competitive antagonist in BC3H1 cells and in low expressing CHO‐β₂6 cells (50 fmol.mg protein⁻¹). This non‐competitive effect of ICI 118551 in BC3H1 cells was also observed when either salbutamol was used as agonist, or the incubation period with isoprenaline was extended to 30 min. The possibility that these effects of ICI 118551 are due to an interaction with different affinity states (R, R^* and R′) of the receptor is discussed. British Journal of Pharmacology (2000) 131, 124–130; doi:10.1038/sj.bjp.0703535