The insertion of alpha–amino–3–hydroxy–5–methyl–4–isoxazolepropionic acid receptors (AMPARs) into the plasma membrane is a key step in synaptic delivery of AMPARs during the expression of synaptic plasticity. However, the molecular mechanisms regulating AMPAR insertion remain elusive. By directly visualizing individual insertion events of the AMPAR subunit GluR1, we demonstrate that Protein 4.1N is required for activity dependent GluR1 insertion. PKC phosphorylation of GluR1 S816 and S818 residues enhances 4.1N binding to GluR1, and facilitates GluR1 insertion. In addition, palmitoylation of GluR1 C811 residue modulates PKC phosphorylation and GluR1 insertion. Finally, disrupting 4.1N dependent GluR1 insertion decreases surface expression of GluR1 and the expression of long–term potentiation (LTP). Our study uncovers a novel mechanism that governs activity dependent GluR1 trafficking, reveals an interesting interplay between AMPAR palmitoylation and phosphorylation, and underscores the functional significance of the 4.1N protein in AMPAR trafficking and synaptic plasticity.
Modification of AMPA receptor function is a major mechanism for the regulation of synaptic transmission and underlies several forms of synaptic plasticity. Post-translational palmitoylation is a reversible modification that regulates localization of many proteins. Here, we report that palmitoylation of the AMPA receptor regulates receptor trafficking. All AMPA receptor subunits are palmitoylated on two cysteine residues in their transmembrane domain (TMD) 2 and in their C-terminal region. Palmitoylation on TMD 2 is upregulated by the palmitoyl acyl transferase GODZ and leads to an accumulation of the receptor in the Golgi and a reduction of receptor surface expression. C-terminal palmitoylation decreases interaction of the AMPA receptor with the 4.1N protein and regulates AMPA- and NMDA-induced AMPA receptor internalization. Moreover, depalmitoylation of the receptor is regulated by activation of glutamate receptors. These data suggest that regulated palmitoylation of AMPA receptor subunits modulates receptor trafficking and may be important for synaptic plasticity.
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