Ingo H. Greger scite author profile

AMPA-receptor (AMPAR) transport to synapses plays a critical role in the modulation of synaptic strength. We show that the functionally critical GluR2 subunit stably resides in an intracellular pool in the endoplasmic reticulum (ER). GluR2 in this pool is extensively complexed with GluR3 but not with GluR1, which is mainly confined to the cell surface. Mutagenesis revealed that elements in the C terminus including the PDZ motif are required for GluR2 forward-transport from the ER. Surprisingly, ER retention of GluR2 is controlled by Arg607 at the Q/R-editing site. Reversion to Gln (R607Q) resulted in rapid release from the pool and elevated surface expression of GluR2 in neurons. Therefore, Arg607 is a central regulator. In addition to channel gating, it also controls ER exit and may thereby ensure the availability of GluR2 for assembly into AMPARs.

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Structural and Functional Architecture of AMPA-Type Glutamate Receptors and Their Auxiliary Proteins

Greger

Watson

Cull-Candy

2017

Neuron

322

305

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AMPA receptors (AMPARs) are tetrameric ion channels that together with other ionotropic glutamate receptors (iGluRs), the NMDA and kainate receptors, mediate a majority of excitatory neurotransmission in the central nervous system. Whereas NMDA receptors gate channels with slow kinetics, responsible primarily for generating long-term synaptic potentiation and depression, AMPARs are the main fast transduction elements at synapses and are critical for the expression of plasticity. The kinetic and conductance properties of AMPARs are laid down during their biogenesis and are regulated by post-transcriptional RNA editing, splice variation, post-translational modification, and subunit composition. Furthermore, AMPAR assembly, trafficking, and functional heterogeneity depends on a large repertoire of auxiliary subunits-a feature that is particularly striking for this type of iGluR. Here, we discuss how the subunit structure, stoichiometry, and auxiliary subunits generate a heterogeneous plethora of receptors, each tailored to fulfill a vital role in fast synaptic signaling and plasticity.

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AMPA Receptor Tetramerization Is Mediated by Q/R Editing

Greger

Khatri

Kong

et al. 2003

Neuron

279

280

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AMPA-type glutamate receptors (AMPARs) play a major role in excitatory synaptic transmission and plasticity. Channel properties are largely dictated by their composition of the four subunits, GluR1-4 (or A-D). Here we show that AMPAR assembly and subunit stoichiometry are determined by RNA editing in the pore loop. We demonstrate that editing at the GluR2 Q/R site regulates AMPAR assembly at the step of tetramerization. Specifically, edited R subunits are largely unassembled and ER retained, whereas unedited Q subunits readily tetramerize and traffic to synapses. This assembly mechanism restricts the number of the functionally critical R subunits in AMPAR tetramers. Therefore, a single amino acid residue affects channel composition and, in turn, controls ion conduction through the majority of AMPARs in the brain.

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Ingo H. Greger

Structure, Function, and Pharmacology of Glutamate Receptor Ion Channels

RNA Editing at Arg607 Controls AMPA Receptor Exit from the Endoplasmic Reticulum

Structural and Functional Architecture of AMPA-Type Glutamate Receptors and Their Auxiliary Proteins

AMPA Receptor Tetramerization Is Mediated by Q/R Editing

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