Implication of the First and Third Extracellular Loops of the μ-Opioid Receptor in the Formation of the Ligand Binding Site: A Study Using Chimeric μ-Opioid/Angiotensin Receptors

Abstract: Recent studies on chimeric μ/δ-, μ/κ- and δ/κ-opioid receptors have suggested that extracellular loops of the receptors were involved in the discriminatory binding of selective ligands by controlling their entry into the transmembrane binding site. Since homochimeric opioid receptors are mostly informative in terms of selectivity, the role of extracellular loops was examined here by studying heterochimeric μ receptors where the totality or parts of extracellular loops were replaced by the corresponding regions of the receptor for angiotensin II. Chimeric μ receptors with extracellular loop EL1 or EL3 originating from the angiotensin receptor had 100-fold decreased affinities for opioids; the length of the first extracellular loop, which is one residue longer in angiotensin than μ receptors, was shown to be responsible for this situation. Substitution of the μ receptor second extracellular loop by that of the angiotensin receptor diminished by ∼10-fold the affinities for opioids. Since all chimeras had altered affinities for selective and nonselective ligands, we propose that extracellular domains of the μ receptor, particularly the first and third loops, constrain the relative positioning of the connected transmembrane domains where selective as well as nonselective contact points form the opioid binding site.