Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET

Ivan Maslov; Oleksandr Volkov; Polina Khorn; Philipp Orekhov; Anastasiia Gusach; Pavel K. Kuzmichev; Andrey Gerasimov; Aleksandra Luginina; Quinten Coucke; Andrey O. Bogorodskiy; Valentin Gordeliy; Simon Wanninger; Anders Barth; Alexey Mishin; Johan Hofkens; Vadim Cherezov; Thomas Gensch; Jelle Hendrix; Valentin Borshchevskiy

doi:10.1038/s42003-023-04727-z

Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET

Ivan Maslov, Oleksandr Volkov, Polina Khorn, Philipp Orekhov, Anastasiia Gusach, Pavel K. Kuzmichev, Andrey Gerasimov, Aleksandra Luginina, Quinten Coucke, Andrey O. Bogorodskiy, Valentin Gordeliy, Simon Wanninger, Anders Barth, Alexey Mishin, Johan Hofkens, Vadim Cherezov, Thomas Gensch, Jelle Hendrix^*, Valentin Borshchevskiy^*

^*Corresponding author for this work

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

17 Citations (Scopus)

Abstract

The complex pharmacology of G-protein-coupled receptors (GPCRs) is defined by their multi-state conformational dynamics. Single-molecule Förster Resonance Energy Transfer (smFRET) is well suited to quantify dynamics for individual protein molecules; however, its application to GPCRs is challenging. Therefore, smFRET has been limited to studies of inter-receptor interactions in cellular membranes and receptors in detergent environments. Here, we performed smFRET experiments on functionally active human A2A adenosine receptor (A2AAR) molecules embedded in freely diffusing lipid nanodiscs to study their intramolecular conformational dynamics. We propose a dynamic model of A2AAR activation that involves a slow (>2 ms) exchange between the active-like and inactive-like conformations in both apo and antagonist-bound A2AAR, explaining the receptor’s constitutive activity. For the agonist-bound A2AAR, we detected faster (390 ± 80 µs) ligand efficacy-dependent dynamics. Our work establishes a general smFRET platform for GPCR investigations that can potentially be used for drug screening and/or mechanism-of-action studies.

Original language	English
Article number	362
Number of pages	15
Journal	Communications biology
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s42003-023-04727-z
Publication status	Published - 3-Apr-2023
Externally published	Yes

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Maslov, I., Volkov, O., Khorn, P., Orekhov, P., Gusach, A., Kuzmichev, P. K., Gerasimov, A., Luginina, A., Coucke, Q., Bogorodskiy, A. O., Gordeliy, V., Wanninger, S., Barth, A., Mishin, A., Hofkens, J., Cherezov, V., Gensch, T., Hendrix, J., & Borshchevskiy, V. (2023). Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET. Communications biology, 6(1), Article 362. https://doi.org/10.1038/s42003-023-04727-z

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title = "Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET",

abstract = "The complex pharmacology of G-protein-coupled receptors (GPCRs) is defined by their multi-state conformational dynamics. Single-molecule F{\"o}rster Resonance Energy Transfer (smFRET) is well suited to quantify dynamics for individual protein molecules; however, its application to GPCRs is challenging. Therefore, smFRET has been limited to studies of inter-receptor interactions in cellular membranes and receptors in detergent environments. Here, we performed smFRET experiments on functionally active human A2A adenosine receptor (A2AAR) molecules embedded in freely diffusing lipid nanodiscs to study their intramolecular conformational dynamics. We propose a dynamic model of A2AAR activation that involves a slow (>2 ms) exchange between the active-like and inactive-like conformations in both apo and antagonist-bound A2AAR, explaining the receptor{\textquoteright}s constitutive activity. For the agonist-bound A2AAR, we detected faster (390 ± 80 µs) ligand efficacy-dependent dynamics. Our work establishes a general smFRET platform for GPCR investigations that can potentially be used for drug screening and/or mechanism-of-action studies.",

author = "Ivan Maslov and Oleksandr Volkov and Polina Khorn and Philipp Orekhov and Anastasiia Gusach and Kuzmichev, {Pavel K.} and Andrey Gerasimov and Aleksandra Luginina and Quinten Coucke and Bogorodskiy, {Andrey O.} and Valentin Gordeliy and Simon Wanninger and Anders Barth and Alexey Mishin and Johan Hofkens and Vadim Cherezov and Thomas Gensch and Jelle Hendrix and Valentin Borshchevskiy",

year = "2023",

month = apr,

day = "3",

doi = "10.1038/s42003-023-04727-z",

language = "English",

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Maslov, I, Volkov, O, Khorn, P, Orekhov, P, Gusach, A, Kuzmichev, PK, Gerasimov, A, Luginina, A, Coucke, Q, Bogorodskiy, AO, Gordeliy, V, Wanninger, S, Barth, A, Mishin, A, Hofkens, J, Cherezov, V, Gensch, T, Hendrix, J & Borshchevskiy, V 2023, 'Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET', Communications biology, vol. 6, no. 1, 362. https://doi.org/10.1038/s42003-023-04727-z

TY - JOUR

T1 - Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET

AU - Maslov, Ivan

AU - Volkov, Oleksandr

AU - Khorn, Polina

AU - Orekhov, Philipp

AU - Gusach, Anastasiia

AU - Kuzmichev, Pavel K.

AU - Gerasimov, Andrey

AU - Luginina, Aleksandra

AU - Coucke, Quinten

AU - Bogorodskiy, Andrey O.

AU - Gordeliy, Valentin

AU - Wanninger, Simon

AU - Barth, Anders

AU - Mishin, Alexey

AU - Hofkens, Johan

AU - Cherezov, Vadim

AU - Gensch, Thomas

AU - Hendrix, Jelle

AU - Borshchevskiy, Valentin

PY - 2023/4/3

Y1 - 2023/4/3

N2 - The complex pharmacology of G-protein-coupled receptors (GPCRs) is defined by their multi-state conformational dynamics. Single-molecule Förster Resonance Energy Transfer (smFRET) is well suited to quantify dynamics for individual protein molecules; however, its application to GPCRs is challenging. Therefore, smFRET has been limited to studies of inter-receptor interactions in cellular membranes and receptors in detergent environments. Here, we performed smFRET experiments on functionally active human A2A adenosine receptor (A2AAR) molecules embedded in freely diffusing lipid nanodiscs to study their intramolecular conformational dynamics. We propose a dynamic model of A2AAR activation that involves a slow (>2 ms) exchange between the active-like and inactive-like conformations in both apo and antagonist-bound A2AAR, explaining the receptor’s constitutive activity. For the agonist-bound A2AAR, we detected faster (390 ± 80 µs) ligand efficacy-dependent dynamics. Our work establishes a general smFRET platform for GPCR investigations that can potentially be used for drug screening and/or mechanism-of-action studies.

AB - The complex pharmacology of G-protein-coupled receptors (GPCRs) is defined by their multi-state conformational dynamics. Single-molecule Förster Resonance Energy Transfer (smFRET) is well suited to quantify dynamics for individual protein molecules; however, its application to GPCRs is challenging. Therefore, smFRET has been limited to studies of inter-receptor interactions in cellular membranes and receptors in detergent environments. Here, we performed smFRET experiments on functionally active human A2A adenosine receptor (A2AAR) molecules embedded in freely diffusing lipid nanodiscs to study their intramolecular conformational dynamics. We propose a dynamic model of A2AAR activation that involves a slow (>2 ms) exchange between the active-like and inactive-like conformations in both apo and antagonist-bound A2AAR, explaining the receptor’s constitutive activity. For the agonist-bound A2AAR, we detected faster (390 ± 80 µs) ligand efficacy-dependent dynamics. Our work establishes a general smFRET platform for GPCR investigations that can potentially be used for drug screening and/or mechanism-of-action studies.

U2 - 10.1038/s42003-023-04727-z

DO - 10.1038/s42003-023-04727-z

M3 - Article

SN - 2399-3642

VL - 6

JO - Communications biology

JF - Communications biology

IS - 1

M1 - 362

ER -

Sub-millisecond conformational dynamics of the A2A adenosine receptor revealed by single-molecule FRET

Abstract

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