Identification of peptide binding residues in the extracellular domains of the AT1 receptor.

To locate essential determinants for angiotensin II binding, we have performed a systematic mutational analysis of the exterior domain of the AT1 receptor. Receptor mutants, deficient in peptide binding, were analyzed using radiolabeled nonpeptide ligand as an important tool. Two independent strategies for mutagenesis were employed: conservative segment exchange and point mutagenesis of evolutionarily conserved residues. Results from the conservative segment exchange in which 6-17 residues were replaced with chemically similar, yet different, amino acid sequences of the same length suggested that important peptide ligand binding epitopes are located in the N-terminal extension of the AT1 receptor, in particular adjacent to the top of transmembrane segment I (TM-I), and in the third extracellular loop, close to the top of TM-VII. The substitution of residues from either of these regions resulted in a 5,000-20,000-fold decrease in affinity for the peptide agonist angiotensin II (AII) and the peptide antagonist [Sar1,Leu8]AII without affecting the binding of nonpeptide antagonists. Alanine substitution of evolutionarily conserved residues demonstrated that peptide binding was dependent on several residues in the N-terminal extension, near the top of TM-I, a tyrosine residue located in extracellular loop 1, close to TM-II, and 2 aspartate residues positioned in extracellular loop 3 on the same face of an alpha-helical extension of TM-VII. In all cases the binding of nonpeptide antagonist was unaffected by these substitutions. It is concluded that important epitopes involved in angiotensin II binding are located around the top of transmembrane segments I, II, and VII which conceivably are in close spatial proximity in the folded receptor structure.