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Photoswitch dissociation from a G protein-coupled receptor resolved by time-resolved serial crystallography

Author

Listed:
  • Hannah Glover

    (PSI Center for Life Sciences)

  • Torben Saßmannshausen

    (Goethe University)

  • Quentin Bertrand

    (PSI Center for Life Sciences)

  • Matilde Trabuco

    (Park Innovaare)

  • Chavdar Slavov

    (Goethe University
    University of South Florida)

  • Arianna Bacchin

    (Park Innovaare)

  • Fabio Andres

    (Park Innovaare)

  • Yasushi Kondo

    (PSI Center for Life Sciences)

  • Robin Stipp

    (PSI Center for Life Sciences)

  • Maximilian Wranik

    (PSI Center for Life Sciences)

  • Georgii Khusainov

    (PSI Center for Life Sciences)

  • Melissa Carrillo

    (PSI Center for Life Sciences)

  • Demet Kekilli

    (PSI Center for Life Sciences)

  • Jie Nan

    (Lund University)

  • Ana Gonzalez

    (Lund University)

  • Robert Cheng

    (Park Innovaare)

  • Werner Neidhart

    (Park Innovaare)

  • Tobias Weinert

    (PSI Center for Life Sciences)

  • Filip Leonarski

    (PSI Center for Photon Sciences)

  • Florian Dworkowski

    (PSI Center for Photon Sciences)

  • Michal Kepa

    (PSI Center for Life Sciences)

  • Josef Wachtveitl

    (Goethe University)

  • Michael Hennig

    (Park Innovaare)

  • Joerg Standfuss

    (PSI Center for Life Sciences)

Abstract

G protein-coupled receptors (GPCRs) are the largest family of cell surface receptors in humans. The binding and dissociation of ligands tunes the inherent conformational flexibility of these important drug targets towards distinct functional states. Here we show how to trigger and resolve protein-ligand interaction dynamics within the human adenosine A2A receptor. For this, we designed seven photochemical affinity switches derived from the anti-Parkinson’s drug istradefylline. In a rational approach based on UV/Vis spectroscopy, time-resolved absorption spectroscopy, differential scanning fluorimetry and cryo-crystallography, we identified compounds suitable for time-resolved serial crystallography. Our analysis of millisecond-scale dynamics revealed how trans-to-cis isomerization shifts selected istradefylline derivatives within the binding pocket. Depending on the chemical nature of the ligand, interactions between extracellular loops 2 and 3, acting as a lid on the binding pocket, are disrupted and rearrangement of the orthosteric binding pocket is invoked upon ligand dissociation. This innovative approach provides insights into GPCR dynamics at the atomic level, offering potential for developing novel pharmaceuticals.

Suggested Citation

  • Hannah Glover & Torben Saßmannshausen & Quentin Bertrand & Matilde Trabuco & Chavdar Slavov & Arianna Bacchin & Fabio Andres & Yasushi Kondo & Robin Stipp & Maximilian Wranik & Georgii Khusainov & Mel, 2024. "Photoswitch dissociation from a G protein-coupled receptor resolved by time-resolved serial crystallography," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-55109-w
    DOI: 10.1038/s41467-024-55109-w
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    References listed on IDEAS

    as
    1. Maximilian Wranik & Tobias Weinert & Chavdar Slavov & Tiziana Masini & Antonia Furrer & Natacha Gaillard & Dario Gioia & Marco Ferrarotti & Daniel James & Hannah Glover & Melissa Carrillo & Demet Keki, 2023. "Watching the release of a photopharmacological drug from tubulin using time-resolved serial crystallography," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
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