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Control of AMPA receptor activity by the extracellular loops of auxiliary proteins.

eLife (2017-09-06)
Irene Riva, Clarissa Eibl, Rudolf Volkmer, Anna L Carbone, Andrew Jr Plested
RESUMEN

At synapses throughout the mammalian brain, AMPA receptors form complexes with auxiliary proteins, including TARPs. However, how TARPs modulate AMPA receptor gating remains poorly understood. We built structural models of TARP-AMPA receptor complexes for TARPs γ2 and γ8, combining recent structural studies and de novo structure predictions. These models, combined with peptide binding assays, provide evidence for multiple interactions between GluA2 and variable extracellular loops of TARPs. Substitutions and deletions of these loops had surprisingly rich effects on the kinetics of glutamate-activated currents, without any effect on assembly. Critically, by altering the two interacting loops of γ2 and γ8, we could entirely remove all allosteric modulation of GluA2, without affecting formation of AMPA receptor-TARP complexes. Likewise, substitutions in the linker domains of GluA2 completely removed any effect of γ2 on receptor kinetics, indicating a dominant role for this previously overlooked site proximal to the AMPA receptor channel gate.

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Anti-polihistidina monoclonal antibody produced in mouse, clone HIS-1, ascites fluid
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Anti-Mouse IgG (whole molecule)–Peroxidase antibody produced in sheep, affinity isolated antibody, buffered aqueous solution