Mutagenesis of a Single Amino Acid in the Rat μ‐Opioid Receptor Discriminates Ligand Binding

Abstract

To investigate the role of Asp¹¹⁴ in the cloned rat μ-opioid receptor for ligand binding, the charged amino acid was mutated to an asparagine to generate the mutant μ receptor D114N. The wild-type μ receptor and the D114N mutant were then stably expressed in human embryonic kidney 293 cells, and the binding affinities of a series of opioids were investigated. The μ-selective agonists [d-Ala²,MePhe⁴,Gly-ol⁵]enkephalin and morphine and the endogenous peptides Met-enkephalin and β-endorphin exhibited greatly reduced affinities for the D114N mutant compared with the wild-type μ receptor, as did the potent synthetic agonist etorphine. In contrast to the full agonists, the partial agonists buprenorphine and nalorphine and the antagonists diprenorphine and naloxone bound with similar affinities to the wild-type and D114N mutant μ receptors. The reduced affinities of the full agonists for the D114N mutant did not involve an uncoupling of the receptor from G proteins because methadone and etorphine stimulated the D114N μ receptors to inhibit adenylyl cyclase. Although the Asp¹¹⁴ to Asn¹¹⁴ mutation reduced full-agonist binding, mutation of His²⁹⁷ to Asn²⁹⁷ in the μ receptor did not but, in contrast, did reduce binding affinity of the partial agonist buprenorphine and the antagonist diprenorphine. These results indicate that some partial agonists and antagonists may have different determinants for binding to the μ receptor than do the prototypical full agonists.