Biomimetic divalent ligands for the acute disruption of synaptic AMPAR stabilization

Abstract: The interactions of the AMPA receptor (AMPAR) auxiliary subunit Stargazin with PDZ domain-containing scaffold proteins such as PSD-95 are critical for the synaptic stabilization of AMPARs. To investigate these interactions, we have developed biomimetic competing ligands that are assembled from two Stargazin-derived PSD-95/DLG/ZO-1 (PDZ) domain-binding motifs using 'click' chemistry. Characterization of the ligands in vitro and in a cellular FRET-based model revealed an enhanced affinity for the multiple PDZ do… Show more

“…For instance, stimulated G-protein coupled receptors that contain PDZ-binding domains segregate into specific clathrin-coated pits to greatly extend their surface lifetime through actin association (39). Similar to the present study, a correlative analysis of protein diffusion and internalization has been performed for the neuronal ␣-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) (40). The AMPAR forms a complex with Stargazin and the PDZ scaffold PSD-95, which result in receptor immobilization at the neuronal postsynaptic density.…”

“…The AMPAR forms a complex with Stargazin and the PDZ scaffold PSD-95, which result in receptor immobilization at the neuronal postsynaptic density. Disruption of Stargazin-PSD-95 interactions with a cell permeable peptide mimetic of the Stargazin PDZ binding domain increased AMPAR diffusive range by ϳ1.3-fold and endocytosis by ϳ4-fold (40). For CFTR, Thelin et al (41) reported that the S13F mutation increased CFTR diffusion coefficient by only ϳ20%, but increased internalization by ϳ2-fold.…”

Reduced PDZ Interactions of Rescued ΔF508CFTR Increases Its Cell Surface Mobility

“…For instance, stimulated G-protein coupled receptors that contain PDZ-binding domains segregate into specific clathrin-coated pits to greatly extend their surface lifetime through actin association (39). Similar to the present study, a correlative analysis of protein diffusion and internalization has been performed for the neuronal ␣-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) (40). The AMPAR forms a complex with Stargazin and the PDZ scaffold PSD-95, which result in receptor immobilization at the neuronal postsynaptic density.…”

“…The AMPAR forms a complex with Stargazin and the PDZ scaffold PSD-95, which result in receptor immobilization at the neuronal postsynaptic density. Disruption of Stargazin-PSD-95 interactions with a cell permeable peptide mimetic of the Stargazin PDZ binding domain increased AMPAR diffusive range by ϳ1.3-fold and endocytosis by ϳ4-fold (40). For CFTR, Thelin et al (41) reported that the S13F mutation increased CFTR diffusion coefficient by only ϳ20%, but increased internalization by ϳ2-fold.…”

Reduced PDZ Interactions of Rescued ΔF508CFTR Increases Its Cell Surface Mobility

“…This principle has been demonstrated for the interaction between the N-methyl-D-aspartate-type glutamate receptors and the scaffolding postsynaptic density protein 95 (PSD-95), which has been targeted by peptide-based inhibitors [47][48][49][50][51][52] . This approach has shown great promise both as a pharmacological tool 51,53 and, in particular, in the development of therapeutically relevant compounds 54,55 . We therefore propose that conceptually similar molecules could be used to interfere with the receptor-scaffold interactions in vivo to modulate GABAergic and/or glycinergic transmission.…”

Molecular basis of the alternative recruitment of GABAA versus glycine receptors through gephyrin

“…38 These phthalimide and naphthalimide-based FlAAs have also been incorporated into peptides recognizing PDZ and SH2 domains revealing their versatility in diverse applications. [39][40][41][42] The success of the dimethylaminonaphthalimide family led to their further exploration as environment-sensitive FlAAs. For example, the 4-(N,Ndimethylamino)naphthalimide amino acid (4-DMNA) was developed to complement 4-DAPA and 6-DMNA, and also yielded excellent improvements in stability towards hydrolysis and ease of synthesis.…”

Fluorescent Amino Acids: Modular Building Blocks for the Assembly of New Tools for Chemical Biology