Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology

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Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology. / Stensbøl, Tine B; Uhlmann, Peter; Morel, Sandrine; Eriksen, Birgitte L; Felding, Jakob; Kromann, Hasse; Hermit, Mette B; Greenwood, Jeremy R; Braüner-Osborne, Hans; Madsen, Ulf; Junager, Finn; Krogsgaard-Larsen, Povl; Begtrup, Mikael; Vedsø, Per; Bräuner-Osborne, Hans.

In: Journal of Medicinal Chemistry, Vol. 45, No. 1, 03.01.2002, p. 19-31.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Stensbøl, TB, Uhlmann, P, Morel, S, Eriksen, BL, Felding, J, Kromann, H, Hermit, MB, Greenwood, JR, Braüner-Osborne, H, Madsen, U, Junager, F, Krogsgaard-Larsen, P, Begtrup, M, Vedsø, P & Bräuner-Osborne, H 2002, 'Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology', Journal of Medicinal Chemistry, vol. 45, no. 1, pp. 19-31.

APA

Stensbøl, T. B., Uhlmann, P., Morel, S., Eriksen, B. L., Felding, J., Kromann, H., Hermit, M. B., Greenwood, J. R., Braüner-Osborne, H., Madsen, U., Junager, F., Krogsgaard-Larsen, P., Begtrup, M., Vedsø, P., & Bräuner-Osborne, H. (2002). Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology. Journal of Medicinal Chemistry, 45(1), 19-31.

Vancouver

Stensbøl TB, Uhlmann P, Morel S, Eriksen BL, Felding J, Kromann H et al. Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology. Journal of Medicinal Chemistry. 2002 Jan 3;45(1):19-31.

Author

Stensbøl, Tine B ; Uhlmann, Peter ; Morel, Sandrine ; Eriksen, Birgitte L ; Felding, Jakob ; Kromann, Hasse ; Hermit, Mette B ; Greenwood, Jeremy R ; Braüner-Osborne, Hans ; Madsen, Ulf ; Junager, Finn ; Krogsgaard-Larsen, Povl ; Begtrup, Mikael ; Vedsø, Per ; Bräuner-Osborne, Hans. / Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology. In: Journal of Medicinal Chemistry. 2002 ; Vol. 45, No. 1. pp. 19-31.

Bibtex

@article{e28d6024ea8247e39a22520af01422f6,
title = "Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology",
abstract = "A number of 1-hydroxyazole derivatives were synthesized as bioisosteres of (S)-glutamic acid (Glu) and as analogues of the AMPA receptor agonist (R,S)-2-amino-3-(3-hydroxy-5-methyl-4-isoxazolyl)propionic acid (AMPA, 3b). All compounds were subjected to in vitro pharmacological studies, including a series of Glu receptor binding assays, uptake studies on native as well as cloned Glu uptake systems, and the electrophysiological rat cortical slice model. Compounds 7a,b, analogues of AMPA bearing a 1-hydroxy-5-pyrazolyl moiety as the distal carboxylic functionality, showed only moderate affinity for [3H]AMPA receptor binding sites (IC(50) = 2.7 +/- 0.4 microM and IC(50) = 2.6 +/- 0.6 microM, respectively), correlating with electrophysiological data from the rat cortical wedge model (EC(50) = 280 +/- 48 microM and EC(50) = 586 +/- 41 microM, respectively). 1-Hydroxy-1,2,3-triazol-5-yl analogues of AMPA, compounds 8a,b, showed high affinity for [3H]AMPA receptor binding sites (IC(50) = 0.15 +/- 0.03 microM and IC(50) = 0.13 +/- 0.02 microM, respectively). Electrophysiological data showed that compound 8a was devoid of activity in the rat cortical wedge model (EC(50) > 1000 microM), whereas the corresponding 4-methyl analogue 8b was a potent AMPA receptor agonist (EC(50) = 15 +/- 2 microM). In accordance with this disparity, compound 8a was found to inhibit synaptosomal [3H]D-aspartic acid uptake (IC(50) = 93 +/- 25 microM), as well as excitatory amino acid transporters (EAATs) EAAT1 (IC(50) = 100 +/- 30 microM) and EAAT2 (IC(50) = 300 +/- 80 microM). By contrast, compound 8b showed no appreciable affinity for Glu uptake sites, neither synaptosomal nor cloned. Compounds 9a-c and 10a,b, possessing 1-hydroxyimidazole as the terminal acidic function, were devoid of activity in all of the systems tested. Protolytic properties of compounds 7a,b, 8b, and 9b were determined by titration, and a correlation between the pK(a) values and the activity at AMPA receptors was apparent. Optimized structures of all the synthesized ligands were fitted to the known crystal structure of an AMPA-GluR2 construct. Where substantial reduction or abolition of affinity at AMPA receptors was observed, this could be rationalized on the basis of the ability of the ligand to fit the construct. The results presented in this article point to the utility of 1-hydroxypyrazole and 1,2,3-hydroxytriazole as bioisosteres of carboxylic acids at Glu receptors and transporters. None of the compounds showed significant activity at metabotropic Glu receptors.",
keywords = "Animals, Azoles, Brain, CHO Cells, COS Cells, Carrier Proteins, Cricetinae, Electrophysiology, Glutamic Acid, Glutamine, Male, Models, Molecular, Radioligand Assay, Rats, Rats, Sprague-Dawley, Receptors, AMPA, Structure-Activity Relationship, Synaptosomes, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid",
author = "Stensb{\o}l, {Tine B} and Peter Uhlmann and Sandrine Morel and Eriksen, {Birgitte L} and Jakob Felding and Hasse Kromann and Hermit, {Mette B} and Greenwood, {Jeremy R} and Hans Bra{\"u}ner-Osborne and Ulf Madsen and Finn Junager and Povl Krogsgaard-Larsen and Mikael Begtrup and Per Veds{\o} and Hans Br{\"a}uner-Osborne",
year = "2002",
month = jan,
day = "3",
language = "English",
volume = "45",
pages = "19--31",
journal = "Journal of Medicinal Chemistry",
issn = "0022-2623",
publisher = "American Chemical Society",
number = "1",

}

RIS

TY - JOUR

T1 - Novel 1-hydroxyazole bioisosteres of glutamic acid. Synthesis, protolytic properties, and pharmacology

AU - Stensbøl, Tine B

AU - Uhlmann, Peter

AU - Morel, Sandrine

AU - Eriksen, Birgitte L

AU - Felding, Jakob

AU - Kromann, Hasse

AU - Hermit, Mette B

AU - Greenwood, Jeremy R

AU - Braüner-Osborne, Hans

AU - Madsen, Ulf

AU - Junager, Finn

AU - Krogsgaard-Larsen, Povl

AU - Begtrup, Mikael

AU - Vedsø, Per

AU - Bräuner-Osborne, Hans

PY - 2002/1/3

Y1 - 2002/1/3

N2 - A number of 1-hydroxyazole derivatives were synthesized as bioisosteres of (S)-glutamic acid (Glu) and as analogues of the AMPA receptor agonist (R,S)-2-amino-3-(3-hydroxy-5-methyl-4-isoxazolyl)propionic acid (AMPA, 3b). All compounds were subjected to in vitro pharmacological studies, including a series of Glu receptor binding assays, uptake studies on native as well as cloned Glu uptake systems, and the electrophysiological rat cortical slice model. Compounds 7a,b, analogues of AMPA bearing a 1-hydroxy-5-pyrazolyl moiety as the distal carboxylic functionality, showed only moderate affinity for [3H]AMPA receptor binding sites (IC(50) = 2.7 +/- 0.4 microM and IC(50) = 2.6 +/- 0.6 microM, respectively), correlating with electrophysiological data from the rat cortical wedge model (EC(50) = 280 +/- 48 microM and EC(50) = 586 +/- 41 microM, respectively). 1-Hydroxy-1,2,3-triazol-5-yl analogues of AMPA, compounds 8a,b, showed high affinity for [3H]AMPA receptor binding sites (IC(50) = 0.15 +/- 0.03 microM and IC(50) = 0.13 +/- 0.02 microM, respectively). Electrophysiological data showed that compound 8a was devoid of activity in the rat cortical wedge model (EC(50) > 1000 microM), whereas the corresponding 4-methyl analogue 8b was a potent AMPA receptor agonist (EC(50) = 15 +/- 2 microM). In accordance with this disparity, compound 8a was found to inhibit synaptosomal [3H]D-aspartic acid uptake (IC(50) = 93 +/- 25 microM), as well as excitatory amino acid transporters (EAATs) EAAT1 (IC(50) = 100 +/- 30 microM) and EAAT2 (IC(50) = 300 +/- 80 microM). By contrast, compound 8b showed no appreciable affinity for Glu uptake sites, neither synaptosomal nor cloned. Compounds 9a-c and 10a,b, possessing 1-hydroxyimidazole as the terminal acidic function, were devoid of activity in all of the systems tested. Protolytic properties of compounds 7a,b, 8b, and 9b were determined by titration, and a correlation between the pK(a) values and the activity at AMPA receptors was apparent. Optimized structures of all the synthesized ligands were fitted to the known crystal structure of an AMPA-GluR2 construct. Where substantial reduction or abolition of affinity at AMPA receptors was observed, this could be rationalized on the basis of the ability of the ligand to fit the construct. The results presented in this article point to the utility of 1-hydroxypyrazole and 1,2,3-hydroxytriazole as bioisosteres of carboxylic acids at Glu receptors and transporters. None of the compounds showed significant activity at metabotropic Glu receptors.

AB - A number of 1-hydroxyazole derivatives were synthesized as bioisosteres of (S)-glutamic acid (Glu) and as analogues of the AMPA receptor agonist (R,S)-2-amino-3-(3-hydroxy-5-methyl-4-isoxazolyl)propionic acid (AMPA, 3b). All compounds were subjected to in vitro pharmacological studies, including a series of Glu receptor binding assays, uptake studies on native as well as cloned Glu uptake systems, and the electrophysiological rat cortical slice model. Compounds 7a,b, analogues of AMPA bearing a 1-hydroxy-5-pyrazolyl moiety as the distal carboxylic functionality, showed only moderate affinity for [3H]AMPA receptor binding sites (IC(50) = 2.7 +/- 0.4 microM and IC(50) = 2.6 +/- 0.6 microM, respectively), correlating with electrophysiological data from the rat cortical wedge model (EC(50) = 280 +/- 48 microM and EC(50) = 586 +/- 41 microM, respectively). 1-Hydroxy-1,2,3-triazol-5-yl analogues of AMPA, compounds 8a,b, showed high affinity for [3H]AMPA receptor binding sites (IC(50) = 0.15 +/- 0.03 microM and IC(50) = 0.13 +/- 0.02 microM, respectively). Electrophysiological data showed that compound 8a was devoid of activity in the rat cortical wedge model (EC(50) > 1000 microM), whereas the corresponding 4-methyl analogue 8b was a potent AMPA receptor agonist (EC(50) = 15 +/- 2 microM). In accordance with this disparity, compound 8a was found to inhibit synaptosomal [3H]D-aspartic acid uptake (IC(50) = 93 +/- 25 microM), as well as excitatory amino acid transporters (EAATs) EAAT1 (IC(50) = 100 +/- 30 microM) and EAAT2 (IC(50) = 300 +/- 80 microM). By contrast, compound 8b showed no appreciable affinity for Glu uptake sites, neither synaptosomal nor cloned. Compounds 9a-c and 10a,b, possessing 1-hydroxyimidazole as the terminal acidic function, were devoid of activity in all of the systems tested. Protolytic properties of compounds 7a,b, 8b, and 9b were determined by titration, and a correlation between the pK(a) values and the activity at AMPA receptors was apparent. Optimized structures of all the synthesized ligands were fitted to the known crystal structure of an AMPA-GluR2 construct. Where substantial reduction or abolition of affinity at AMPA receptors was observed, this could be rationalized on the basis of the ability of the ligand to fit the construct. The results presented in this article point to the utility of 1-hydroxypyrazole and 1,2,3-hydroxytriazole as bioisosteres of carboxylic acids at Glu receptors and transporters. None of the compounds showed significant activity at metabotropic Glu receptors.

KW - Animals

KW - Azoles

KW - Brain

KW - CHO Cells

KW - COS Cells

KW - Carrier Proteins

KW - Cricetinae

KW - Electrophysiology

KW - Glutamic Acid

KW - Glutamine

KW - Male

KW - Models, Molecular

KW - Radioligand Assay

KW - Rats

KW - Rats, Sprague-Dawley

KW - Receptors, AMPA

KW - Structure-Activity Relationship

KW - Synaptosomes

KW - alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid

M3 - Journal article

C2 - 11754576

VL - 45

SP - 19

EP - 31

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

SN - 0022-2623

IS - 1

ER -

ID: 45613821