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  • Title: Structural elements of the gamma-aminobutyric acid type A receptor conferring subtype selectivity for benzodiazepine site ligands.
    Author: Renard S, Olivier A, Granger P, Avenet P, Graham D, Sevrin M, George P, Besnard F.
    Journal: J Biol Chem; 1999 May 07; 274(19):13370-4. PubMed ID: 10224099.
    Abstract:
    gamma-aminobutyric acid type A (GABAA) receptors comprise a subfamily of ligand-gated ion channels whose activity can be modulated by ligands acting at the benzodiazepine binding site on the receptor. The benzodiazepine binding site was characterized using a site-directed mutagenesis strategy in which amino acids of the alpha5 subunit were substituted by their corresponding alpha1 residues. Given the high affinity and selectivity of alpha1-containing compared with alpha5-containing GABAA receptors for zolpidem, mutated alpha5 subunits were co-expressed with beta2 and gamma2 subunits, and the affinity of recombinant receptors for zolpidem was measured. One alpha5 mutant (bearing P162T, E200G, and T204S) exhibited properties similar to that of the alpha1 subunit, notably high affinity zolpidem binding and potentiation by zolpidem of GABA-induced chloride current. Two of these mutations, alpha5P162T and alpha5E200G, might alter binding pocket conformation, whereas alpha5T204S probably permits formation of a hydrogen bond with a proton acceptor in zolpidem. These three amino acid substitutions also influenced receptor affinity for CL218872. Our data thus suggest that corresponding amino acids of the alpha1 subunit, particularly alpha1-Ser204, are the crucial residues influencing ligand selectivity at the binding pocket of alpha1-containing receptors, and a model of this binding pocket is presented.
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