Author
Listed:
- Kenneth A. Jones
(Synaptic Pharmaceutical Corporation)
- Beth Borowsky
(Synaptic Pharmaceutical Corporation)
- Joe A. Tamm
(Synaptic Pharmaceutical Corporation)
- Douglas A. Craig
(Synaptic Pharmaceutical Corporation)
- Margaret M. Durkin
(Synaptic Pharmaceutical Corporation)
- Meng Dai
(Synaptic Pharmaceutical Corporation)
- Wen-Jeng Yao
(Synaptic Pharmaceutical Corporation)
- Mary Johnson
(Synaptic Pharmaceutical Corporation)
- Caryn Gunwaldsen
(Synaptic Pharmaceutical Corporation)
- Ling-Yan Huang
(Synaptic Pharmaceutical Corporation)
- Cheng Tang
(Synaptic Pharmaceutical Corporation)
- Quanrong Shen
(Synaptic Pharmaceutical Corporation)
- John A. Salon
(Synaptic Pharmaceutical Corporation)
- Kelley Morse
(Synaptic Pharmaceutical Corporation)
- Thomas Laz
(Synaptic Pharmaceutical Corporation)
- Kelli E. Smith
(Synaptic Pharmaceutical Corporation)
- Dhanapalan Nagarathnam
(Synaptic Pharmaceutical Corporation)
- Stewart A. Noble
(Synaptic Pharmaceutical Corporation)
- Theresa A. Branchek
(Synaptic Pharmaceutical Corporation)
- Christophe Gerald
(Synaptic Pharmaceutical Corporation)
Abstract
The principal inhibitory neurotransmitter GABA (γ-aminobutyric acid) exerts its effects through two ligand-gated channels, GABAA and GABAC receptors, and a third receptor, GABAB (ref. 1), which acts through G proteins to regulate potassium and calcium channels. Cells heterologously expressing the cloned DNA encoding the GABABR1 protein exhibit high-affinity antagonist-binding sites2, but they produce little of the functional activity expected from studies of endogenous GABAB receptors in the brain. Here we describe a new member of the GABAB polypeptide family, GABABR2, that shows sequence homology to GABABR1. Neither GABABR1 nor GABABR2, when expressed individually, activates GIRK-type potassium channels; however, the combination of GABABR1 and GABABR2 confers robust stimulation of channel activity. Both genes are co-expressed in individual neurons, and both proteins co-localize in transfected cells. Moreover, immunoprecipitation experiments indicate that the two polypeptides associate with each other, probably as heterodimers. Several G-protein-coupled receptors (GPCRs) exist as high-molecular-weight species, consistent with the formation of dimers by these receptors3,4,5,6,7, but the relevance of these species for the functioning of GPCRs has not been established. We have now shown that co-expression of two GPCR structures, GABABR1 and GABABR2, belonging to the samesubfamily is essential for signal transduction by GABAB receptors.
Suggested Citation
Kenneth A. Jones & Beth Borowsky & Joe A. Tamm & Douglas A. Craig & Margaret M. Durkin & Meng Dai & Wen-Jeng Yao & Mary Johnson & Caryn Gunwaldsen & Ling-Yan Huang & Cheng Tang & Quanrong Shen & John , 1998.
"GABAB receptors function as a heteromeric assembly of the subunits GABABR1 and GABABR2,"
Nature, Nature, vol. 396(6712), pages 674-679, December.
Handle:
RePEc:nat:nature:v:396:y:1998:i:6712:d:10.1038_25348
DOI: 10.1038/25348
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