Novel Electrophilic and Photoaffinity Covalent Probes for Mapping the Cannabinoid 1 Receptor Allosteric Site(s)

Pushkar M. Kulkarni; Abhijit R. Kulkarni; Anisha Korde; Ritesh B. Tichkule; Robert B. Laprairie; Eileen M. Denovan-Wright; Han Zhou; David R. Janero; Nikolai Zvonok; Alexandros Makriyannis; Maria G. Cascio; Roger G. Pertwee; Ganesh A. Thakur

doi:10.1021/acs.jmedchem.5b01303

Novel Electrophilic and Photoaffinity Covalent Probes for Mapping the Cannabinoid 1 Receptor Allosteric Site(s)

Pushkar M. Kulkarni, Abhijit R. Kulkarni, Anisha Korde, Ritesh B. Tichkule, Robert B. Laprairie, Eileen M. Denovan-Wright, Han Zhou, David R. Janero, Nikolai Zvonok, Alexandros Makriyannis, Maria G. Cascio, Roger G. Pertwee, Ganesh A. Thakur

Medicine

Résultat de recherche: Article › examen par les pairs

48 Citations (Scopus)

Résumé

Undesirable side effects associated with orthosteric agonists/antagonists of cannabinoid 1 receptor (CB1R), a tractable target for treating several pathologies affecting humans, have greatly limited their translational potential. Recent discovery of CB1R negative allosteric modulators (NAMs) has renewed interest in CB1R by offering a potentially safer therapeutic avenue. To elucidate the CB1R allosteric binding motif and thereby facilitate rational drug discovery, we report the synthesis and biochemical characterization of first covalent ligands designed to bind irreversibly to the CB1R allosteric site. Either an electrophilic or a photoactivatable group was introduced at key positions of two classical CB1R NAMs: Org27569 (1) and PSNCBAM-1 (2). Among these, 20 (GAT100) emerged as the most potent NAM in functional assays, did not exhibit inverse agonism, and behaved as a robust positive allosteric modulator of binding of orthosteric agonist CP55,940. This novel covalent probe can serve as a useful tool for characterizing CB1R allosteric ligand-binding motifs.

Langue d'origine	English
Pages (de-à)	44-60
Nombre de pages	17
Journal	Journal of Medicinal Chemistry
Volume	59
Numéro de publication	1
DOI	https://doi.org/10.1021/acs.jmedchem.5b01303
Statut de publication	Published - janv. 14 2016

Note bibliographique

Funding Information:
The work was supported by National Institutes of Health grants DA027113 and EY024717 to G.A.T. and DA09158 to A.M. A portion of this work was submitted in 2011 by A. Kulkarni in partial fulfillment of M.S. degree requirements from Northeastern University, Boston, MA.

Publisher Copyright:
© 2015 American Chemical Society.

ASJC Scopus Subject Areas

Molecular Medicine
Drug Discovery

PubMed: MeSH publication types

Journal Article
Research Support, N.I.H., Extramural

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10.1021/acs.jmedchem.5b01303

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Kulkarni, P. M., Kulkarni, A. R., Korde, A., Tichkule, R. B., Laprairie, R. B., Denovan-Wright, E. M., Zhou, H., Janero, D. R., Zvonok, N., Makriyannis, A., Cascio, M. G., Pertwee, R. G., & Thakur, G. A. (2016). Novel Electrophilic and Photoaffinity Covalent Probes for Mapping the Cannabinoid 1 Receptor Allosteric Site(s). Journal of Medicinal Chemistry, 59(1), 44-60. https://doi.org/10.1021/acs.jmedchem.5b01303

Kulkarni, PM, Kulkarni, AR, Korde, A, Tichkule, RB, Laprairie, RB , Denovan-Wright, EM, Zhou, H, Janero, DR, Zvonok, N, Makriyannis, A, Cascio, MG, Pertwee, RG & Thakur, GA 2016, 'Novel Electrophilic and Photoaffinity Covalent Probes for Mapping the Cannabinoid 1 Receptor Allosteric Site(s)', Journal of Medicinal Chemistry, vol. 59, n° 1, pp. 44-60. https://doi.org/10.1021/acs.jmedchem.5b01303

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abstract = "Undesirable side effects associated with orthosteric agonists/antagonists of cannabinoid 1 receptor (CB1R), a tractable target for treating several pathologies affecting humans, have greatly limited their translational potential. Recent discovery of CB1R negative allosteric modulators (NAMs) has renewed interest in CB1R by offering a potentially safer therapeutic avenue. To elucidate the CB1R allosteric binding motif and thereby facilitate rational drug discovery, we report the synthesis and biochemical characterization of first covalent ligands designed to bind irreversibly to the CB1R allosteric site. Either an electrophilic or a photoactivatable group was introduced at key positions of two classical CB1R NAMs: Org27569 (1) and PSNCBAM-1 (2). Among these, 20 (GAT100) emerged as the most potent NAM in functional assays, did not exhibit inverse agonism, and behaved as a robust positive allosteric modulator of binding of orthosteric agonist CP55,940. This novel covalent probe can serve as a useful tool for characterizing CB1R allosteric ligand-binding motifs.",

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AU - Korde, Anisha

AU - Tichkule, Ritesh B.

AU - Laprairie, Robert B.

AU - Denovan-Wright, Eileen M.

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AU - Janero, David R.

AU - Zvonok, Nikolai

AU - Makriyannis, Alexandros

AU - Cascio, Maria G.

AU - Pertwee, Roger G.

AU - Thakur, Ganesh A.

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N2 - Undesirable side effects associated with orthosteric agonists/antagonists of cannabinoid 1 receptor (CB1R), a tractable target for treating several pathologies affecting humans, have greatly limited their translational potential. Recent discovery of CB1R negative allosteric modulators (NAMs) has renewed interest in CB1R by offering a potentially safer therapeutic avenue. To elucidate the CB1R allosteric binding motif and thereby facilitate rational drug discovery, we report the synthesis and biochemical characterization of first covalent ligands designed to bind irreversibly to the CB1R allosteric site. Either an electrophilic or a photoactivatable group was introduced at key positions of two classical CB1R NAMs: Org27569 (1) and PSNCBAM-1 (2). Among these, 20 (GAT100) emerged as the most potent NAM in functional assays, did not exhibit inverse agonism, and behaved as a robust positive allosteric modulator of binding of orthosteric agonist CP55,940. This novel covalent probe can serve as a useful tool for characterizing CB1R allosteric ligand-binding motifs.

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Novel Electrophilic and Photoaffinity Covalent Probes for Mapping the Cannabinoid 1 Receptor Allosteric Site(s)

Résumé

Note bibliographique

ASJC Scopus Subject Areas

PubMed: MeSH publication types

Accès au document

Autres fichiers et liens

Empreinte numérique

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