Abstract
The multifunctional scaffolding protein gephyrin is a key player in the formation of the postsynaptic scaffold at inhibitory synapses, clustering both inhibitory glycine receptors (GlyRs) and selected GABA(A) receptor (GABA(A)R) subtypes. We report a direct interaction between the GABA(A)R α3 subunit and gephyrin, mapping reciprocal binding sites using mutagenesis, overlay, and yeast two-hybrid assays. This analysis reveals that critical determinants of this interaction are located in the motif FNIVGTTYPI in the GABA(A)R α3 M3-M4 domain and the motif SMDKAFITVL at the N terminus of the gephyrin E domain. GABA(A)R α3 gephyrin binding-site mutants were unable to co-localize with endogenous gephyrin in transfected hippocampal neurons, despite being able to traffic to the cell membrane and form functional benzodiazepine-responsive GABA(A)Rs in recombinant systems. Interestingly, motifs responsible for interactions with GABA(A)R α2, GABA(A)R α3, and collybistin on gephyrin overlap. Curiously, two key residues (Asp-327 and Phe-330) in the GABA(A)R α2 and α3 binding sites on gephyrin also contribute to GlyR β subunit-E domain interactions. However, isothermal titration calorimetry reveals a 27-fold difference in the interaction strength between GABA(A)R α3 and GlyR β subunits with gephyrin with dissociation constants of 5.3 μm and 0.2 μm, respectively. Taken together, these observations suggest that clustering of GABA(A)R α2, α3, and GlyRs by gephyrin is mediated by distinct mechanisms at mixed glycinergic/GABAergic synapses.
Highlights
The molecular basis of GABAA receptor ␣3 subtype-specific synaptic localization is unknown
GABAA receptor (GABAAR) ␣3 interacts with the gephyrin E domain via defined intracellular motifs that partially overlap with glycine receptor binding determinants
We report a direct interaction between the GABAAR ␣3 subunit and gephyrin, mapping reciprocal binding sites using mutagenesis, overlay, and yeast two-hybrid assays
Summary
The molecular basis of GABAA receptor ␣3 subtype-specific synaptic localization is unknown. Conclusion: GABAAR subtypes containing ␣3 are clustered at postsynaptic specializations via direct interactions with gephyrin. The multifunctional scaffolding protein gephyrin is a key player in the formation of the postsynaptic scaffold at inhibitory synapses, clustering both inhibitory glycine receptors (GlyRs) and selected GABAA receptor (GABAAR) subtypes. We report a direct interaction between the GABAAR ␣3 subunit and gephyrin, mapping reciprocal binding sites using mutagenesis, overlay, and yeast two-hybrid assays. Isothermal titration calorimetry reveals a 27-fold difference in the interaction strength between GABAAR ␣3 and GlyR  subunits with gephyrin with dissociation constants of 5.3 M and 0.2 M, respectively Taken together, these observations suggest that clustering of GABAAR ␣2, ␣3, and. The subcellular localization of gephyrin is in turn dependent on the presence
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