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  • Spectrin-beta 2 facilitates the selective accumulation of GABAA receptors at somatodendritic synapses.

Spectrin-beta 2 facilitates the selective accumulation of GABAA receptors at somatodendritic synapses.

Communications biology (2023-01-06)
Joshua L Smalley, Noell Cho, Shu Fun Josephine Ng, Catherine Choi, Abigail H S Lemons, Saad Chaudry, Christopher E Bope, Jake S Dengler, Chuansheng Zhang, Matthew N Rasband, Paul A Davies, Stephen J Moss
ZUSAMMENFASSUNG

Fast synaptic inhibition is dependent on targeting specific GABAAR subtypes to dendritic and axon initial segment (AIS) synapses. Synaptic GABAARs are typically assembled from α1-3, β and γ subunits. Here, we isolate distinct GABAARs from the brain and interrogate their composition using quantitative proteomics. We show that α2-containing receptors co-assemble with α1 subunits, whereas α1 receptors can form GABAARs with α1 as the sole α subunit. We demonstrate that α1 and α2 subunit-containing receptors co-purify with distinct spectrin isoforms; cytoskeletal proteins that link transmembrane proteins to the cytoskeleton. β2-spectrin was preferentially associated with α1-containing GABAARs at dendritic synapses, while β4-spectrin was associated with α2-containing GABAARs at AIS synapses. Ablating β2-spectrin expression reduced dendritic and AIS synapses containing α1 but increased the number of synapses containing α2, which altered phasic inhibition. Thus, we demonstrate a role for spectrins in the synapse-specific targeting of GABAARs, determining the efficacy of fast neuronal inhibition.

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Anti-β-Actin-Antikörper, Maus monoklonal, clone AC-15, purified from hybridoma cell culture