Discovery of (R)-2-amino-3-triazolpropanoic acid derivatives as NMDA receptor glycine site agonists with GluN2 subunit-specific activity
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N-Methyl-d-aspartate (NMDA) receptors play critical roles in central nervous system function and are involved in variety of brain disorders. We previously developed a series of (R)-3-(5-furanyl)carboxamido-2-aminopropanoic acid glycine site agonists with pronounced variation in activity among NMDA receptor GluN1/2A-D subtypes. Here, a series of (R)-2-amino-3-triazolpropanoic acid analogues with a novel chemical scaffold is designed and their pharmacological properties are evaluated at NMDA receptor subtypes. We found that the triazole can function as a bioisostere for amide to produce glycine site agonists with variation in activity among NMDA receptor subtypes. Compounds 13g and 13i are full and partial agonists, respectively, at GluN1/2C and GluN1/2D with 3- to 7-fold preference in agonist potency for GluN1/2C-D over GluN1/2A-B subtypes. The agonist binding mode of these triazole analogues and the mechanisms by which the triazole ring can serve as a bioisostere for amide were further explored using molecular dynamics simulations. Thus, the novel (R)-2-amino-3-triazolpropanoic acid derivatives reveal insights to agonist binding at the GluN1 subunit of NMDA receptors and provide new opportunities for the design of glycine site agonists.
Original language | English |
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Article number | 1008233 |
Journal | Frontiers in Chemistry |
Volume | 10 |
Number of pages | 13 |
ISSN | 2296-2646 |
DOIs | |
Publication status | Published - 2022 |
Bibliographical note
Funding Information:
The authors acknowledge financial support from the National Institutes of Health [NS097536, GM140963] to KH and a Summer Fellowship to ML. from the Center for Structural and Functional Neuroscience at the University of Montana. FZ acknowledge financial support from the National Natural Science Foundation of China [82204200], the China Scholarship Council, the International Postdoctoral Exchange Fellowship Program (Talent-Introduction Program) [YJ20210,279], the China Postdoctoral Science Foundation [2022M711939], and the Natural Science Foundation of Shandong Province [ZR2022QH287 and ZR2022QH312].
Funding Information:
We would like to acknowledge Alexandria University, Alexandria, Egypt, and King Abdullah University of Science and Technology, Saudi Arabia, for supporting the research.
- co-agonist, ionotropic glutamate receptors, ligand-gated ion channel, subtype selectivity, two-electrode voltage-clamp electrophysiology
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