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Characterization of the active enantiomer and mapping of the stereospecific intermolecular pattern of a reference P2X7 allosteric antagonist

Characterization of the active enantiomer and mapping of the stereospecific intermolecular pattern of a reference P2X7 allosteric antagonist
Characterization of the active enantiomer and mapping of the stereospecific intermolecular pattern of a reference P2X7 allosteric antagonist
The P2X purinergic receptor 7 (P2X7) has an essential role in inflammation, innate immunity, tumor progression, neurodegenerative diseases, and several other diseases, leading subsequently to the development of P2X7 modulators. AZ11645373 is a frequently studied P2X7 antagonist tool compound but always used as a racemic mixture. Racemic AZ11645373 can be separated into its respective enantiomers by chiral chromatography, albeit in small batches, and these were stereochemically intact over two years later, by chiral high-performance liquid chromatography (HPLC) analysis. On a higher scale, significant decomposition is observed during purification. One of the enantiomers was crystallized as a palladium complex, and its (R)-configuration was determined by single-crystal X-ray diffraction, further confirmed, in solution, by vibrational circular dichroism. Biological studies demonstrated that both (S)- and (R)-forms were able to fully inhibit human P2X7, but (R)-AZ11645373 was more potent, with an IC50 of 32.9 nM. Contrary to its effect on human P2X7, (S)-AZ11645373 was ineffective on mouse P2X7, while the (R)-AZ11645373 enantiomer was a full antagonist. These results demonstrated that the antagonistic effects of racemic AZ11645373 are mainly due to its (R)-enantiomer. Site-directed mutagenesis and molecular dynamics simulations indicated that the (R)-enantiomer may form specific interactions with Phe95 and the antagonists bound to other P2X7 monomers. Phe95 is situated in the allosteric binding site at the edge of the upper vestibule and appears to be the pivotal molecular gateway between AZ11645373 allosteric binding and locking of the closed state of the P2X7 channel. All together, these structure–function relationships should be helpful for drug design of P2X7 modulators.
AZ11645373, Crystal X-Ray diffraction, Enantiometer, Molecular Dynamics, P2X7, Vibrational Circular Dichroism, vibrational circular dichroism, enantiomer, molecular dynamics, crystal X-ray diffraction
2575-9108
446-459
McGown, Andrew
5809e935-f2bc-4222-8757-f8a07296bcb1
Renault, Nicolas
1899fb25-ead0-4df4-9664-89b89e44b79b
Barczyk, Amélie
8c442017-1e79-4033-afc4-88b51572113d
Nafie, Jordan
59e81e45-ddbc-424a-939d-1c8f24db82b9
Barluzzi, Luciano
449e59e7-6eda-4f64-a281-746fad4be827
Guest, Daniel
ce26b6d7-202c-4c54-aadf-a02a34b2137a
Tizzard, Graham J.
8474c0fa-40df-43a6-a662-7f3c4722dbf2
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Leach, David
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von Emloh, Daniel
36760021-c585-483f-9211-93a1525bd77a
Sutton, Léa
cfdd9f64-9277-4b3b-a611-c6f5ec896bd6
Bailey, Kiera
23a7c731-0fc5-4e30-8b62-830115b32713
Edmunds, Lewis
fb59a904-93a3-4bf5-90a7-6fd80719cfc7
Greenland, Barnaby W.
fd91bfa7-8217-4006-bdfa-e1d0f6cc84f1
Millet, Régis
034f1a84-30ad-4f1d-9260-a85a1aa1bcd6
Spencer, John
a3cf55cd-a4c7-4af6-b16c-96c8fb8c4cf4
Dezitter, Xavier
f2cbc72d-c925-436a-90ca-3c8e02152eda
McGown, Andrew
5809e935-f2bc-4222-8757-f8a07296bcb1
Renault, Nicolas
1899fb25-ead0-4df4-9664-89b89e44b79b
Barczyk, Amélie
8c442017-1e79-4033-afc4-88b51572113d
Nafie, Jordan
59e81e45-ddbc-424a-939d-1c8f24db82b9
Barluzzi, Luciano
449e59e7-6eda-4f64-a281-746fad4be827
Guest, Daniel
ce26b6d7-202c-4c54-aadf-a02a34b2137a
Tizzard, Graham J.
8474c0fa-40df-43a6-a662-7f3c4722dbf2
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Leach, David
3a997999-627a-4d9d-bdae-b189cf8904c0
von Emloh, Daniel
36760021-c585-483f-9211-93a1525bd77a
Sutton, Léa
cfdd9f64-9277-4b3b-a611-c6f5ec896bd6
Bailey, Kiera
23a7c731-0fc5-4e30-8b62-830115b32713
Edmunds, Lewis
fb59a904-93a3-4bf5-90a7-6fd80719cfc7
Greenland, Barnaby W.
fd91bfa7-8217-4006-bdfa-e1d0f6cc84f1
Millet, Régis
034f1a84-30ad-4f1d-9260-a85a1aa1bcd6
Spencer, John
a3cf55cd-a4c7-4af6-b16c-96c8fb8c4cf4
Dezitter, Xavier
f2cbc72d-c925-436a-90ca-3c8e02152eda

McGown, Andrew, Renault, Nicolas, Barczyk, Amélie, Nafie, Jordan, Barluzzi, Luciano, Guest, Daniel, Tizzard, Graham J., Coles, Simon J., Leach, David, von Emloh, Daniel, Sutton, Léa, Bailey, Kiera, Edmunds, Lewis, Greenland, Barnaby W., Millet, Régis, Spencer, John and Dezitter, Xavier (2025) Characterization of the active enantiomer and mapping of the stereospecific intermolecular pattern of a reference P2X7 allosteric antagonist. ACS Pharmacology and Translational Science, 8 (2), 446-459. (doi:10.1021/acsptsci.4c00582).

Record type: Article

Abstract

The P2X purinergic receptor 7 (P2X7) has an essential role in inflammation, innate immunity, tumor progression, neurodegenerative diseases, and several other diseases, leading subsequently to the development of P2X7 modulators. AZ11645373 is a frequently studied P2X7 antagonist tool compound but always used as a racemic mixture. Racemic AZ11645373 can be separated into its respective enantiomers by chiral chromatography, albeit in small batches, and these were stereochemically intact over two years later, by chiral high-performance liquid chromatography (HPLC) analysis. On a higher scale, significant decomposition is observed during purification. One of the enantiomers was crystallized as a palladium complex, and its (R)-configuration was determined by single-crystal X-ray diffraction, further confirmed, in solution, by vibrational circular dichroism. Biological studies demonstrated that both (S)- and (R)-forms were able to fully inhibit human P2X7, but (R)-AZ11645373 was more potent, with an IC50 of 32.9 nM. Contrary to its effect on human P2X7, (S)-AZ11645373 was ineffective on mouse P2X7, while the (R)-AZ11645373 enantiomer was a full antagonist. These results demonstrated that the antagonistic effects of racemic AZ11645373 are mainly due to its (R)-enantiomer. Site-directed mutagenesis and molecular dynamics simulations indicated that the (R)-enantiomer may form specific interactions with Phe95 and the antagonists bound to other P2X7 monomers. Phe95 is situated in the allosteric binding site at the edge of the upper vestibule and appears to be the pivotal molecular gateway between AZ11645373 allosteric binding and locking of the closed state of the P2X7 channel. All together, these structure–function relationships should be helpful for drug design of P2X7 modulators.

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Accepted/In Press date: 13 December 2024
e-pub ahead of print date: 22 January 2025
Published date: 14 February 2025
Keywords: AZ11645373, Crystal X-Ray diffraction, Enantiometer, Molecular Dynamics, P2X7, Vibrational Circular Dichroism, vibrational circular dichroism, enantiomer, molecular dynamics, crystal X-ray diffraction
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Identifiers

Local EPrints ID: 498953
URI: http://eprints.soton.ac.uk/id/eprint/498953
DOI: doi:10.1021/acsptsci.4c00582
ISSN: 2575-9108
PURE UUID: ec9d3273-7fc7-41d4-8922-0c236b3df4b0
ORCID for Graham J. Tizzard: ORCID iD orcid.org/0000-0002-1577-5779
ORCID for Simon J. Coles: ORCID iD orcid.org/0000-0001-8414-9272

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Date deposited: 05 Mar 2025 17:34
Last modified: 15 May 2025 01:38

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Contributors

Author: Andrew McGown
Author: Nicolas Renault
Author: Amélie Barczyk
Author: Jordan Nafie
Author: Luciano Barluzzi
Author: Daniel Guest
Author: Graham J. Tizzard ORCID iD
Author: Simon J. Coles ORCID iD
Author: David Leach
Author: Daniel von Emloh
Author: Léa Sutton
Author: Kiera Bailey
Author: Lewis Edmunds
Author: Barnaby W. Greenland
Author: Régis Millet
Author: John Spencer
Author: Xavier Dezitter

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