Dominant-negative activity of an alpha(1B)-adrenergic receptor signal-inactivating point mutation

alpha(1)-adrenergic receptors (alpha(1)-ARs) are members of the G-protein-coupled receptor (GPCR) superfamily and activate inositol phosphate (IP) turnover. We show that glycine and asparagine mutations of Phe303 in transmembrane segment VI (TMVI) of the alpha(1B)-AR, a highly conserved residue in GPCRs, although increasing agonist affinity, abolish agonist-activated IP signalling. Co-expression of the Phe303 mutants also inhibited (-)epinephrine-stimulated IP signalling by wild-type alpha(1B)-AR and other G(q)-coupled receptors, as well as IP signalling mediated by AlF(4)(-) stimulation of both wild-type G(q alpha) and a constitutively active mutant. The inability of the Phe303 mutants to signal is due to induction of a receptor conformation that dissociates G-protein binding from activation. As a result, the Phe303 mutants sequester G(q alpha) and stoichiometrically inhibit Gq signalling in a dominant-negative manner. We further show that both the enhanced basal and agonist-stimulated IP-signalling activity of the constitutively active alpha(1B)-AR mutants, C128F and A293E, are inhibited in the double mutants, C128F/F303G and A293E/F303G. Phe303, therefore, appears to be critically involved in coupling TMVI alpha-helical movement, a key step in receptor activation, to activation of the cognate G-protein.