Identification of a putative binding site for 5-alkyl-benzothiadiazides in the AMPA receptor dimer interface.

Crystal structures of three different allosteric modulators co-crystallized with the iGluR2 ligand-binding domain are currently available. The modulators, cyclothiazide, aniracetam and CX614, bind at overlapping binding sites in the dimer interface between two iGluR2 subunits. However, pharmacological data indicate that there are one or more additional binding sites for this class of compounds.

In vitro characterization of 5-carboxyl-2,4-di-benzamidobenzoic acid (NS3763), a noncompetitive antagonist of GLUK5 receptors.

Accumulating preclinical data suggest that compounds that block the excitatory effect of glutamate on the kainate subtype of glutamate receptors may have utility for the treatment of pain, migraine, and epilepsy. In the present study, the in vitro pharmacological properties of the novel glutamate antagonist 5-carboxyl-2,4-di-benzamido-benzoic acid (NS3763) are described. In functional assays in human embryonic kidney (HEK)293 cells expressing homomeric GLU(K5) or GLU(K6) receptors, NS3763 is shown to display selectivity for inhibition of domoate-induced increase in intracellular calcium mediated through the GLU(K5) subtype (IC(50) = 1.

2-arylureidobenzoic acids: selective noncompetitive antagonists for the homomeric kainate receptor subtype GluR5.

A series of 2-arylureidobenzoic acids (AUBAs) was prepared by a short and effective synthesis, and the pharmacological activity at glutamate receptors was evaluated in vitro and in vivo. The compounds showed noncompetitive antagonistic activity at the kainate receptor subtype GluR5. The most potent compounds showed more than 50-fold selectivity for GluR5 compared to GluR6 and the AMPA receptor subtypes GluR1-4.

The beta subunit determines the ion selectivity of the GABAA receptor.

The gamma-aminobutyric acid, type A (GABA(A)) receptor is a chloride-conducting receptor composed of alpha, beta, and gamma subunits assembled in a pentameric structure forming a central pore. Each subunit has a large extracellular agonist binding domain and four transmembrane domains (M1-M4), with the second transmembrane (M2) domain lining the pore. Mutation of five amino acids in the M1-M2 loop of the beta(3) subunit to the corresponding amino acids of the alpha(7) nicotinic acetylcholine subunit rendered the GABA(A) receptor cation-selective upon co-expression with wild type alpha(2) and gamma(2) subunits.