Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity

Fabao  Zhao; Unai Atxabal; Sofia Mariottini; Feng Yi; James S. Lotti; Michael S. Layeux; Chandler Currier Currier; Matthew P.  Maderia; Lauren E.  Cornelison; Carly M.  Anderson; Eric P. Schultz; Zhucheng Zhang; Liyang  Jiang; Zhen  Gao; Na Liu; Erica Lynn Woodahl; Lennart Bunch; Kasper B Hansen; Rasmus Prætorius Clausen

doi:10.1021/acs.jmedchem.4c02715

Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity

Fabao Zhao, Unai Atxabal, Sofia Mariottini, Feng Yi, James S. Lotti, Michael S. Layeux, Chandler Currier Currier, Matthew P. Maderia, Lauren E. Cornelison, Carly M. Anderson, Eric P. Schultz, Zhucheng Zhang, Liyang Jiang, Zhen Gao, Na Liu, Erica Lynn Woodahl, Lennart Bunch, Kasper B Hansen^*, Rasmus Prætorius Clausen^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

NMDA receptor ligands have therapeutic potential in neurological and psychiatric disorders. We designed (R)-3-(5-thienyl)carboxamido-2-aminopropanoic acid derivatives with nanomolar agonist potencies at NMDA receptor subtypes (GluN12/A-D). These compounds are superagonists at GluN1/2C compared to glycine and partial to full agonists at GluN1/2A and GluN1/2D but display functional antagonism at GluN1/2B due to low agonist efficacy. Notably, 8d display 864% agonist efficacy at GluN1/2C relative to glycine, and 8j has high potency at GluN1/2A (0.018 μM), GluN1/2C (0.0029 μM), and GluN1/2D (0.016 μM). We evaluated the binding mode in the glycine site using molecular modeling and mutagenesis. In vitro absorption, distribution, metabolism, and excretion (ADME) assays predict high metabolic stability but poor blood–brain barrier permeability. However, an ester prodrug for the carboxylate group of 7j display moderately high blood–brain barrier permeability. The thiophenecarboxamide agonists expand the synthetic pharmacology of NMDA receptors and provide structural insights that facilitate the design of GluN1 agonists with GluN2 subunit-specific activity.

Original language	English
Journal	Journal of Medicinal Chemistry
Volume	68
Issue number	3
Pages (from-to)	3572–3590
ISSN	0022-2623
DOIs	https://doi.org/10.1021/acs.jmedchem.4c02715
Publication status	Published - 2025

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10.1021/acs.jmedchem.4c02715

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Zhao, F., Atxabal, U., Mariottini, S., Yi, F., Lotti, J. S., Layeux, M. S., Currier, C. C., Maderia, M. P., Cornelison, L. E., Anderson, C. M., Schultz, E. P., Zhang, Z., Jiang, L., Gao, Z., Liu, N., Woodahl, E. L., Bunch, L., Hansen, K. B., & Clausen, R. P. (2025). Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity. Journal of Medicinal Chemistry, 68(3), 3572–3590. https://doi.org/10.1021/acs.jmedchem.4c02715

Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity. / Zhao, Fabao ; Atxabal, Unai; Mariottini, Sofia; Yi, Feng; Lotti, James S.; Layeux, Michael S.; Currier, Chandler Currier; Maderia, Matthew P. ; Cornelison, Lauren E. ; Anderson, Carly M. ; Schultz, Eric P.; Zhang, Zhucheng; Jiang, Liyang ; Gao, Zhen ; Liu, Na; Woodahl, Erica Lynn ; Bunch, Lennart; Hansen, Kasper B; Clausen, Rasmus Prætorius.

In: Journal of Medicinal Chemistry, Vol. 68, No. 3, 2025, p. 3572–3590.

Research output: Contribution to journal › Journal article › Research › peer-review

Zhao, F, Atxabal, U, Mariottini, S, Yi, F, Lotti, JS, Layeux, MS, Currier, CC, Maderia, MP, Cornelison, LE, Anderson, CM, Schultz, EP, Zhang, Z, Jiang, L, Gao, Z, Liu, N, Woodahl, EL , Bunch, L, Hansen, KB & Clausen, RP 2025, 'Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity', Journal of Medicinal Chemistry, vol. 68, no. 3, pp. 3572–3590. https://doi.org/10.1021/acs.jmedchem.4c02715

Zhao F, Atxabal U, Mariottini S, Yi F, Lotti JS, Layeux MS et al. Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity. Journal of Medicinal Chemistry. 2025;68(3):3572–3590. https://doi.org/10.1021/acs.jmedchem.4c02715

Zhao, Fabao ; Atxabal, Unai ; Mariottini, Sofia ; Yi, Feng ; Lotti, James S. ; Layeux, Michael S. ; Currier, Chandler Currier ; Maderia, Matthew P. ; Cornelison, Lauren E. ; Anderson, Carly M. ; Schultz, Eric P. ; Zhang, Zhucheng ; Jiang, Liyang ; Gao, Zhen ; Liu, Na ; Woodahl, Erica Lynn ; Bunch, Lennart ; Hansen, Kasper B ; Clausen, Rasmus Prætorius. / Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity. In: Journal of Medicinal Chemistry. 2025 ; Vol. 68, No. 3. pp. 3572–3590.

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title = "Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity",

abstract = "NMDA receptor ligands have therapeutic potential in neurological and psychiatric disorders. We designed (R)-3-(5-thienyl)carboxamido-2-aminopropanoic acid derivatives with nanomolar agonist potencies at NMDA receptor subtypes (GluN12/A-D). These compounds are superagonists at GluN1/2C compared to glycine and partial to full agonists at GluN1/2A and GluN1/2D but display functional antagonism at GluN1/2B due to low agonist efficacy. Notably, 8d display 864% agonist efficacy at GluN1/2C relative to glycine, and 8j has high potency at GluN1/2A (0.018 μM), GluN1/2C (0.0029 μM), and GluN1/2D (0.016 μM). We evaluated the binding mode in the glycine site using molecular modeling and mutagenesis. In vitro absorption, distribution, metabolism, and excretion (ADME) assays predict high metabolic stability but poor blood–brain barrier permeability. However, an ester prodrug for the carboxylate group of 7j display moderately high blood–brain barrier permeability. The thiophenecarboxamide agonists expand the synthetic pharmacology of NMDA receptors and provide structural insights that facilitate the design of GluN1 agonists with GluN2 subunit-specific activity.",

author = "Fabao Zhao and Unai Atxabal and Sofia Mariottini and Feng Yi and Lotti, {James S.} and Layeux, {Michael S.} and Currier, {Chandler Currier} and Maderia, {Matthew P.} and Cornelison, {Lauren E.} and Anderson, {Carly M.} and Schultz, {Eric P.} and Zhucheng Zhang and Liyang Jiang and Zhen Gao and Na Liu and Woodahl, {Erica Lynn} and Lennart Bunch and Hansen, {Kasper B} and Clausen, {Rasmus Pr{\ae}torius}",

note = "{\textcopyright} 2025 The Authors. Published by American Chemical Society",

year = "2025",

doi = "10.1021/acs.jmedchem.4c02715",

language = "English",

volume = "68",

pages = "3572–3590",

journal = "Journal of Medicinal Chemistry",

issn = "0022-2623",

publisher = "American Chemical Society",

number = "3",

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T1 - Design of (R)-3-(5-Thienyl)carboxamido-2-aminopropanoic Acid Derivatives as Novel NMDA Receptor Glycine Site Agonists: Variation in Molecular Geometry to Improve Potency and Augment GluN2 Subunit-Specific Activity

AU - Zhao, Fabao

AU - Atxabal, Unai

AU - Mariottini, Sofia

AU - Yi, Feng

AU - Lotti, James S.

AU - Layeux, Michael S.

AU - Currier, Chandler Currier

AU - Maderia, Matthew P.

AU - Cornelison, Lauren E.

AU - Anderson, Carly M.

AU - Schultz, Eric P.

AU - Zhang, Zhucheng

AU - Jiang, Liyang

AU - Gao, Zhen

AU - Liu, Na

AU - Woodahl, Erica Lynn

AU - Bunch, Lennart

AU - Hansen, Kasper B

AU - Clausen, Rasmus Prætorius

PY - 2025

Y1 - 2025

N2 - NMDA receptor ligands have therapeutic potential in neurological and psychiatric disorders. We designed (R)-3-(5-thienyl)carboxamido-2-aminopropanoic acid derivatives with nanomolar agonist potencies at NMDA receptor subtypes (GluN12/A-D). These compounds are superagonists at GluN1/2C compared to glycine and partial to full agonists at GluN1/2A and GluN1/2D but display functional antagonism at GluN1/2B due to low agonist efficacy. Notably, 8d display 864% agonist efficacy at GluN1/2C relative to glycine, and 8j has high potency at GluN1/2A (0.018 μM), GluN1/2C (0.0029 μM), and GluN1/2D (0.016 μM). We evaluated the binding mode in the glycine site using molecular modeling and mutagenesis. In vitro absorption, distribution, metabolism, and excretion (ADME) assays predict high metabolic stability but poor blood–brain barrier permeability. However, an ester prodrug for the carboxylate group of 7j display moderately high blood–brain barrier permeability. The thiophenecarboxamide agonists expand the synthetic pharmacology of NMDA receptors and provide structural insights that facilitate the design of GluN1 agonists with GluN2 subunit-specific activity.

AB - NMDA receptor ligands have therapeutic potential in neurological and psychiatric disorders. We designed (R)-3-(5-thienyl)carboxamido-2-aminopropanoic acid derivatives with nanomolar agonist potencies at NMDA receptor subtypes (GluN12/A-D). These compounds are superagonists at GluN1/2C compared to glycine and partial to full agonists at GluN1/2A and GluN1/2D but display functional antagonism at GluN1/2B due to low agonist efficacy. Notably, 8d display 864% agonist efficacy at GluN1/2C relative to glycine, and 8j has high potency at GluN1/2A (0.018 μM), GluN1/2C (0.0029 μM), and GluN1/2D (0.016 μM). We evaluated the binding mode in the glycine site using molecular modeling and mutagenesis. In vitro absorption, distribution, metabolism, and excretion (ADME) assays predict high metabolic stability but poor blood–brain barrier permeability. However, an ester prodrug for the carboxylate group of 7j display moderately high blood–brain barrier permeability. The thiophenecarboxamide agonists expand the synthetic pharmacology of NMDA receptors and provide structural insights that facilitate the design of GluN1 agonists with GluN2 subunit-specific activity.

U2 - 10.1021/acs.jmedchem.4c02715

DO - 10.1021/acs.jmedchem.4c02715

M3 - Journal article

C2 - 39847708

VL - 68

SP - 3572

EP - 3590

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

SN - 0022-2623

IS - 3

ER -