AI Article Synopsis
- The G-protein-coupled receptor (GPCR) for GABA consists of two subunits, GABA(B1) for agonist binding and GABA(B2) for trafficking and activating G proteins.
- Researchers used a glycan wedge scanning method to explore how GABA(B) subunits work together, identifying a dimerization interface crucial for receptor activity.
- Introducing N-glycans at specific sites affected subunit association and receptor activation, providing new insights into the activation mechanisms of GPCRs.
Article Abstract
The G-protein-coupled receptor (GPCR) activated by the neurotransmitter GABA is made up of two subunits, GABA(B1) and GABA(B2). GABA(B1) binds agonists, whereas GABA(B2) is required for trafficking GABA(B1) to the cell surface, increasing agonist affinity to GABA(B1), and activating associated G proteins. These subunits each comprise two domains, a Venus flytrap domain (VFT) and a heptahelical transmembrane domain (7TM). How agonist binding to the GABA(B1) VFT leads to GABA(B2) 7TM activation remains unknown. Here, we used a glycan wedge scanning approach to investigate how the GABA(B) VFT dimer controls receptor activity. We first identified the dimerization interface using a bioinformatics approach and then showed that introducing an N-glycan at this interface prevents the association of the two subunits and abolishes all activities of GABA(B2), including agonist activation of the G protein. We also identified a second region in the VFT where insertion of an N-glycan does not prevent dimerization, but blocks agonist activation of the receptor. These data provide new insight into the function of this prototypical GPCR and demonstrate that a change in the dimerization interface is required for receptor activation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2374841 | PMC |
| http://dx.doi.org/10.1038/emboj.2008.64 | DOI Listing |
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