An allosteric modulator binds to a conformational hub in the β2 adrenergic receptor

Xiangyu Liu; Jonas Kaindl; Magdalena Korczynska; Anne Stößel; Daniela Dengler; Markus Stanek; Harald Hübner; Mary J. Clark; Jake Mahoney; Rachel Ann Matt; Xinyu Xu; Kunio Hirata; Brian K. Shoichet; Roger K. Sunahara; Brian K. Kobilka; Peter Gmeiner

doi:10.1038/s41589-020-0549-2

An allosteric modulator binds to a conformational hub in the β₂ adrenergic receptor

Xiangyu Liu, Jonas Kaindl, Magdalena Korczynska, Anne Stößel, Daniela Dengler, Markus Stanek, Harald Hübner, Mary J. Clark, Jake Mahoney, Rachel Ann Matt, Xinyu Xu, Kunio Hirata, Brian K. Shoichet, Roger K. Sunahara, Brian K. Kobilka, Peter Gmeiner

Research output: Contribution to journal › Article › peer-review

59 Scopus citations

Abstract

Most drugs acting on G-protein-coupled receptors target the orthosteric binding pocket where the native hormone or neurotransmitter binds. There is much interest in finding allosteric ligands for these targets because they modulate physiologic signaling and promise to be more selective than orthosteric ligands. Here we describe a newly developed allosteric modulator of the β₂-adrenergic receptor (β₂AR), AS408, that binds to the membrane-facing surface of transmembrane segments 3 and 5, as revealed by X-ray crystallography. AS408 disrupts a water-mediated polar network involving E122^3.41 and the backbone carbonyls of V206^5.45 and S207^5.46. The AS408 binding site is adjacent to a previously identified molecular switch for β₂AR activation formed by I^3.40, P^5.50 and F^6.44. The structure reveals how AS408 stabilizes the inactive conformation of this switch, thereby acting as a negative allosteric modulator for agonists and positive allosteric modulator for inverse agonists. [Figure not available: see fulltext.].

Original language	English (US)
Pages (from-to)	749-755
Number of pages	7
Journal	Nature Chemical Biology
Volume	16
Issue number	7
DOIs	https://doi.org/10.1038/s41589-020-0549-2
State	Published - Jul 1 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.

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10.1038/s41589-020-0549-2

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Liu, X., Kaindl, J., Korczynska, M., Stößel, A., Dengler, D., Stanek, M., Hübner, H., Clark, M. J., Mahoney, J., Matt, R. A., Xu, X., Hirata, K., Shoichet, B. K., Sunahara, R. K., Kobilka, B. K., & Gmeiner, P. (2020). An allosteric modulator binds to a conformational hub in the β₂ adrenergic receptor. Nature Chemical Biology, 16(7), 749-755. https://doi.org/10.1038/s41589-020-0549-2

Liu, X, Kaindl, J, Korczynska, M, Stößel, A, Dengler, D, Stanek, M, Hübner, H, Clark, MJ, Mahoney, J, Matt, RA, Xu, X, Hirata, K, Shoichet, BK, Sunahara, RK, Kobilka, BK & Gmeiner, P 2020, 'An allosteric modulator binds to a conformational hub in the β₂ adrenergic receptor', Nature Chemical Biology, vol. 16, no. 7, pp. 749-755. https://doi.org/10.1038/s41589-020-0549-2

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abstract = "Most drugs acting on G-protein-coupled receptors target the orthosteric binding pocket where the native hormone or neurotransmitter binds. There is much interest in finding allosteric ligands for these targets because they modulate physiologic signaling and promise to be more selective than orthosteric ligands. Here we describe a newly developed allosteric modulator of the β2-adrenergic receptor (β2AR), AS408, that binds to the membrane-facing surface of transmembrane segments 3 and 5, as revealed by X-ray crystallography. AS408 disrupts a water-mediated polar network involving E1223.41 and the backbone carbonyls of V2065.45 and S2075.46. The AS408 binding site is adjacent to a previously identified molecular switch for β2AR activation formed by I3.40, P5.50 and F6.44. The structure reveals how AS408 stabilizes the inactive conformation of this switch, thereby acting as a negative allosteric modulator for agonists and positive allosteric modulator for inverse agonists. [Figure not available: see fulltext.].",

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AU - Dengler, Daniela

AU - Stanek, Markus

AU - Hübner, Harald

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AU - Mahoney, Jake

AU - Matt, Rachel Ann

AU - Xu, Xinyu

AU - Hirata, Kunio

AU - Shoichet, Brian K.

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AU - Kobilka, Brian K.

AU - Gmeiner, Peter

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