Identification of a key amino acid of the beta2-adrenergic receptor for high affinity binding of salmeterol.

Transmembrane domains (TMDs) I, II, and VII of the beta2-adrenergic receptor (beta2AR) were replaced, individually or in combination, with the corresponding regions of the beta1AR, and vice versa. The beta2-selective binding of salmeterol was not affected by the exchange of TMD I between the beta1- and beta2ARs. The affinity of salmeterol was slightly decreased (32-fold) by replacement of TMD II of the beta2AR with the homologous region of the beta1AR; the affinity was strongly decreased (1870-fold) for the beta2AR with TMD VII of the beta1AR. The affinity of salmeterol was partially restored by the introduction of TMD VII, but not TMD II, of the beta2AR into the beta1AR. By analyzing alanine-substituted mutants, we found that Tyr308 in TMD VII was mainly responsible for the high affinity binding of salmeterol. Two salmeterol derivatives with the ether oxygen at different positions in the side chain showed 33- and 64-fold decreased affinities for the wild-type beta2AR, and a derivative with no ether oxygen showed 147-fold decreased affinity for the wild-type beta2AR. These results indicate that Tyr308 in TMD VII is the major amino acid conferring the beta2-selective binding of salmeterol to the beta2AR and that the position of the ether oxygen in the side chain is also important for beta2-selective binding. A three-dimensional model of the salmeterol-beta2AR complex shows that the phenyl group of Tyr308 interacts with methylene groups near the protonated amine of salmeterol and the ether oxygen interacts with Tyr316.