1. A role for transmembrane domains V and VI in ligand binding and maturation of the angiotensin II AT1 receptor
- Author
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Raphael Rozenfeld, Lakshmi A. Devi, Emer S. Ferro, Graciela Conceição Pignatari, Antonio C.M. Paiva, and Laerte Oliveira
- Subjects
Stereochemistry ,Clinical Biochemistry ,Molecular Sequence Data ,Glutamic Acid ,Plasma protein binding ,Ligands ,Biochemistry ,Protein Structure, Secondary ,Receptor, Angiotensin, Type 1 ,Humans ,Amino Acid Sequence ,Site-directed mutagenesis ,Molecular Biology ,Peptide sequence ,G protein-coupled receptor ,Alanine ,Chemistry ,Angiotensin II ,Cell Membrane ,Membrane Proteins ,Protein Structure, Tertiary ,Transmembrane domain ,Gene Expression Regulation ,Helix ,Mutation ,Hydrophobic and Hydrophilic Interactions ,Protein Binding - Abstract
Several studies have proposed that angiotensin II (Ang II) binds to its receptor AT1 through interactions with residues in helices V and VI, suggesting that the distance between these helices is crucial for ligand binding. Based on a 3D model of AT1 in which the C-terminus of Ang II is docked, we identified the hydrophobic residues of TM V and VI pointing towards the external face of the helices, which may play a role in the structure of the binding pocket and in the structural integrity of the receptor. We performed a systematic mutagenesis study of these residues and examined the binding, localization, maturation, and dimerization of the mutated receptors. We found that mutations of hydrophobic residues to alanine in helix V do not alter binding, whereas mutations to glutamate lead to loss of binding without a loss in cell surface expression, suggesting that the external face of helix V may not directly participate in binding, but may rather contribute to the structure of the binding pocket. In contrast, mutations of hydrophobic residues to glutamate in helix VI lead to a loss in cell surface expression, suggesting that the external surface of helix VI plays a structural role and ensures correct folding of the receptor.
- Published
- 2006