q 2001 International Society for Neurochemistry, Journal of Neurochemistry, 77, 445±451 445 Journal of Neurochemistry, 2001, 77, 445±451 Identi®cation of amino acid residues responsible for the a5 subunit binding selectivity of L-655,708, a benzodiazepine binding site ligand at the GABA A receptor M. Anna Casula, 1 Frances A. Bromidge, Gopalan V. Pillai, Peter B. Wingrove, Karine Martin, Karen Maubach, Guy R. Seabrook, Paul J. Whiting and Karen L. Hadingham Neuroscience Research Centre, Merck Sharp and Dohme Research Laboratories, Harlow, Essex, UK Abstract L-655,708 is a ligand for the benzodiazepine site of the g-aminobutyric acid type A (GABA A ) receptor that exhibits a 100-fold higher af®nity for a5-containing receptors compared with a1-containing receptors. Molecular biology approaches have been used to determine which residues in the a5 subunit are responsible for this selectivity. Two amino acids have been identi®ed, a5Thr208 and a5Ile215, each of which individually confer approximately 10-fold binding selectivity for the ligand and which together account for the 100-fold higher af®nity of this ligand at a5-containing receptors. L-655,708 is a partial inverse agonist at the GABA A receptor which exhibited no functional selectivity between a1- and a5-containing receptors and showed no change in ef®cacy at receptors containing a1 subunits where amino acids at both of the sites had been altered to their a5 counterparts (a1DSer205-Thr,Val212-Ile). In addition to determining the binding selectivity of L-655,708, these amino acid residues also in¯uence the binding af®nities of a number of other benzodiazepine (BZ) site ligands. They are thus important elements of the BZ site of the GABA A receptor, and further delineate a region just N-terminal to the ®rst transmembrane domain of the receptor a subunit that contributes to this binding site. Keywords: benzodiazepine binding site, GABA A receptor, site-directed mutagenesis. J. Neurochem. (2001) 77, 445±451. The mammalian g-aminobutyric acid type A (GABA A ) receptor is a pentameric structure containing different combinations of a1±6, b1±3, g1±3, d, 1 and u subunits (for reviews, see Barnard et al. 1998; Mehta and Ticku 1999). Among the many classes of drug which interact with the receptor are the benzodiazepines (BZs) that are used as anxiolytics, anticonvulsants and hypnotics. Immunoprecipi- tation with subunit speci®c antibodies, and recombinant receptor studies have demonstrated that high af®nity BZ-binding sites are found on receptors of abg 2 composi- tion. The differential af®nity of drugs such as diazepam for such receptors in which the a1 subunit has been substituted by a6, demonstrating that the a subunit is a major contributor to the BZ binding site present on the receptor (Lu Èddens et al. 1990). Site-directed mutagenesis studies have been shown in a number of cases (e.g. Pritchett and Seeburg 1991; Wieland et al. 1992; Amin et al. 1997; Buhr et al. 1997) to identify residues within the a subunit which are critical for the drug±receptor interaction. Although the diazepam insensitivity of receptors containing a4 and a6 is well documented (e.g. Lu Èddens et al. 1990; Wisden et al. 1991), few clinically ef®cacious drugs other than zolpidem (which is 10-fold selective for a1-containing receptors over a2- and a3-containing receptors, with negligible af®nity for a4-, a5- and a6-containing receptors) discriminate between receptors containing other a subunits. Recently, however, the identi®cation of a ligand (L-655,708) with selectivity for the a5-containing receptor has been reported (Quirk et al. Received September 26, 2000; revised manuscript received December 15, 2000; accepted December 15, 2000. Address correspondence and reprint requests to Peter B. Wingrove, Neuroscience Research Centre, Merck Sharp and Dohme Research Laboratories, Terlings Park, Eastwick Road, Harlow, Essex CM20 2QR, UK. E-mail: peter_wingrove@merck.com 1 Current address: University of Oxford, Department of Pharmacol- ogy, Mans®eld Road, Oxford OX1 3QT, UK. Abbreviations used: BZ, benzodiazepine; b-CCM, methyl-b-carbo- line-3-carboxylate; CDZ, chlordiazepoxide; DMCM, methyl-6,7- dimethoxy-4-ethyl-b-carboline-3-carboxylate; DMSO, dimethylsulph- oxide; MBS, modi®ed Barth's medium; TM, transmembrane domain.