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RECEPTORS AND SIGNAL TRANSDUCTION

Coupling of GABA_B receptor GABA_B2 subunit to G proteins: evidence from Xenopus oocyte and baby hamster kidney cell expression system

Departments of ¹Pharmacology and ²Anesthesiology, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki, Japan; and ³Department of Physiology and Pharmacology, Sackler School of Medicine, Tel Aviv University, Ramat Aviv, Israel

Submitted 8 June 2005 ; accepted in final form 17 August 2005

Coupling of functional GABA_B receptors (GABA_BR) to G proteins was investigated with an expression system of baby hamster kidney (BHK) cells and Xenopus oocytes. Fluorescence resonance energy transfer (FRET) analysis of BHK cells coexpressing GABA_B1a receptor (GB_1aR) fused to Cerulean, a brighter variant of cyan fluorescent protein, and GABA_B2 receptor (GB₂R) fused to Venus, a brighter variant of yellow fluorescent protein, revealed that GB_1aR-Cerulean and GB₂R-Venus form a heterodimer. The GABA_BR agonists baclofen and 3-aminopropylphosphonic acid (3-APPA) elicited inward-rectifying K⁺ currents in a concentration-dependent manner in oocytes expressing GB_1aR and GB₂R, or GB_1aR-Cerulean and GB₂R-Venus, together with G protein-activated inward-rectifying K⁺ channels (GIRKs), but not in oocytes expressing GB_1aR alone or GB₂R alone together with GIRKs. Oocytes coexpressing GB_1aR + G_i2-fused GB₂R (GB₂R-G_i2) caused faster K⁺ currents in response to baclofen. Furthermore, oocytes coexpressing GB_1aR + GB₂R fused to G_qi5 (a chimeric G_q protein that activates PLC pathways) caused PLC-mediated Ca²⁺-activated Cl^– currents in response to baclofen. In contrast, these responses to baclofen were not observed in oocytes coexpressing GB_1aR-G_i2 or GB_1aR-G_qi5 together with GB₂R. BHK cells and Xenopus oocytes coexpressing GB_1aR-Cerulean + a triplet tandem of GB₂R-Venus-G_qi5 caused FRET and Ca²⁺-activated Cl^– currents, respectively, with a similar potency in BHK cells coexpressing GB_1aR-Cerulean + GB₂R-Venus and in oocytes coexpressing GB_1aR + GB₂R-G_qi5. Our results indicate that functional GABA_BR forms a heterodimer composed of GB₁R and GB₂R and that the signal transducing G proteins are directly coupled to GB₂R but not to GB₁R.

fluorescence resonance energy transfer

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