A fluorophore–ligand conjugate for the rapid and reversible staining of native AMPA receptors in living neurons

Abstract

AbstractThe subcellular localizations of neurotransmitter receptors are strictly regulated in neurons. Changes in the trafficking of α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid (AMPA)-type glutamate receptors (AMPARs) play an essential role in synaptic plasticity, which is the cellular basis of learning and memory. To explore receptor trafficking, genetically encoded approaches (e.g., the fusion of fluorescent proteins to receptors) are often used. However, concerns remain that genetic approaches cannot fully reproduce the receptor function that is inherent to neurons. Herein, we report a chemical probe, PFQX1(AF488), for the visualization of cell-surface AMPARs without any genetic manipulation to neurons. The rapid and reversible staining features of this probe allowed the visualization of AMPAR accumulation in dendritic spines during synaptic plasticity in living hippocampal neurons. Moreover, the mechanisms of this synaptic accumulation, for which genetically encoded approaches have given controversial results, were revealed by integrating two chemical methods: PFQX1(AF488) and covalent chemical labeling.