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A chemogenetic approach for dopamine imaging with tunable sensitivity

Author

Listed:
  • Marie A. Labouesse

    (University of Zürich
    University and ETH Zürich
    ETH Zürich)

  • Maria Wilhelm

    (University of Zürich
    ETH Zurich)

  • Zacharoula Kagiampaki

    (University of Zürich)

  • Andrew G. Yee

    (University of Colorado School of Medicine)

  • Raphaelle Denis

    (Université de Montréal
    Université de Montréal)

  • Masaya Harada

    (University of Zürich)

  • Andrea Gresch

    (University of Zürich)

  • Alina-Măriuca Marinescu

    (ETH Zürich)

  • Kanako Otomo

    (ETH Zürich)

  • Sebastiano Curreli

    (Istituto Italiano di Tecnologia)

  • Laia Serratosa Capdevila

    (University of Zürich)

  • Xuehan Zhou

    (University of Zürich)

  • Reto B. Cola

    (University of Zürich)

  • Luca Ravotto

    (University of Zürich)

  • Chaim Glück

    (University of Zürich)

  • Stanislav Cherepanov

    (University of Strasbourg)

  • Bruno Weber

    (University of Zürich
    University and ETH Zürich)

  • Xin Zhou

    (Eli Lilly and Company)

  • Jason Katner

    (Eli Lilly and Company)

  • Kjell A. Svensson

    (Eli Lilly and Company)

  • Tommaso Fellin

    (Istituto Italiano di Tecnologia)

  • Louis-Eric Trudeau

    (Université de Montréal
    Université de Montréal)

  • Christopher P. Ford

    (University of Colorado School of Medicine)

  • Yaroslav Sych

    (University of Strasbourg)

  • Tommaso Patriarchi

    (University of Zürich
    University and ETH Zürich)

Abstract

Genetically-encoded dopamine (DA) sensors enable high-resolution imaging of DA release, but their ability to detect a wide range of extracellular DA levels, especially tonic versus phasic DA release, is limited by their intrinsic affinity. Here we show that a human-selective dopamine receptor positive allosteric modulator (PAM) can be used to boost sensor affinity on-demand. The PAM enhances DA detection sensitivity across experimental preparations (in vitro, ex vivo and in vivo) via one-photon or two-photon imaging. In vivo photometry-based detection of optogenetically-evoked DA release revealed that DETQ administration produces a stable 31 minutes window of potentiation without effects on animal behavior. The use of the PAM revealed region-specific and metabolic state-dependent differences in tonic DA levels and enhanced single-trial detection of behavior-evoked phasic DA release in cortex and striatum. Our chemogenetic strategy can potently and flexibly tune DA imaging sensitivity and reveal multi-modal (tonic/phasic) DA signaling across preparations and imaging approaches.

Suggested Citation

  • Marie A. Labouesse & Maria Wilhelm & Zacharoula Kagiampaki & Andrew G. Yee & Raphaelle Denis & Masaya Harada & Andrea Gresch & Alina-Măriuca Marinescu & Kanako Otomo & Sebastiano Curreli & Laia Serrat, 2024. "A chemogenetic approach for dopamine imaging with tunable sensitivity," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49442-3
    DOI: 10.1038/s41467-024-49442-3
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    References listed on IDEAS

    as
    1. Benoît Delignat-Lavaud & Jana Kano & Charles Ducrot & Ian Massé & Sriparna Mukherjee & Nicolas Giguère & Luc Moquin & Catherine Lévesque & Samuel Burke & Raphaëlle Denis & Marie-Josée Bourque & Alex T, 2023. "Synaptotagmin-1-dependent phasic axonal dopamine release is dispensable for basic motor behaviors in mice," Nature Communications, Nature, vol. 14(1), pages 1-24, December.
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