Abstract

The metabotropic glutamate receptors belong to family C of the G-protein coupled receptor superfamily. These receptors all possess large extracellular amino terminal domains, where agonist binding takes place. We have previously constructed a molecular model of the amino terminal domain of the mGlu 1 receptor based on a weak amino acid sequence similarity with a family of bacterial periplasmic binding proteins (PBPs). The residues Ser 165 and Thr 188 were demonstrated to be involved in agonist binding to the receptor. Here, we report that mutation of Arg 78 in the mGlu 1b receptor to leucine or glutamate completely knocks out [ 3H]quisqualic acid binding to the receptor. The constructed mutants, R78L and R78E, have also been characterized in a inositol phosphate assay. Here, the potency of ( S)-glutamic acid and ( S)-quisqualic acid was reduced 1000- and 100-fold, respectively, on R78L compared to the wild type (WT) receptor. ( S)-Quisqualic acid was as potent on mutant R78E as it was on R78L, whereas ( S)-glutamic acid was unable to activate R78E significantly at concentrations up to 10 mM. In conclusion, Arg 78 appears to be essential for agonist binding to the mGlu 1 receptor, most likely, through the formation of an ionic bond between its positively charged side chain and the distal acid group of the agonists. Furthermore, the different impact of the two mutations on ( S)-glutamic acid and ( S)-quisqualic acid potencies strongly indicates that while Arg 78 appears to be a common site of interaction for the agonists, the Group I subtype selectivity of ( S)-quisqualic acid is probably determined by other residues in the amino terminal domain.

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