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High-efficiency optogenetic silencing with soma-targeted anion-conducting channelrhodopsins

Author

Listed:
  • Mathias Mahn

    (Weizmann Institute of Science)

  • Lihi Gibor

    (Weizmann Institute of Science)

  • Pritish Patil

    (Weizmann Institute of Science)

  • Katayun Cohen-Kashi Malina

    (Weizmann Institute of Science)

  • Shir Oring

    (Weizmann Institute of Science)

  • Yoav Printz

    (Weizmann Institute of Science)

  • Rivka Levy

    (Weizmann Institute of Science)

  • Ilan Lampl

    (Weizmann Institute of Science)

  • Ofer Yizhar

    (Weizmann Institute of Science)

Abstract

Optogenetic silencing allows time-resolved functional interrogation of defined neuronal populations. However, the limitations of inhibitory optogenetic tools impose stringent constraints on experimental paradigms. The high light power requirement of light-driven ion pumps and their effects on intracellular ion homeostasis pose unique challenges, particularly in experiments that demand inhibition of a widespread neuronal population in vivo. Guillardia theta anion-conducting channelrhodopsins (GtACRs) are promising in this regard, due to their high single-channel conductance and favorable photon-ion stoichiometry. However, GtACRs show poor membrane targeting in mammalian cells, and the activity of such channels can cause transient excitation in the axon due to an excitatory chloride reversal potential in this compartment. Here, we address these problems by enhancing membrane targeting and subcellular compartmentalization of GtACRs. The resulting soma-targeted GtACRs show improved photocurrents, reduced axonal excitation and high light sensitivity, allowing highly efficient inhibition of neuronal activity in the mammalian brain.

Suggested Citation

  • Mathias Mahn & Lihi Gibor & Pritish Patil & Katayun Cohen-Kashi Malina & Shir Oring & Yoav Printz & Rivka Levy & Ilan Lampl & Ofer Yizhar, 2018. "High-efficiency optogenetic silencing with soma-targeted anion-conducting channelrhodopsins," Nature Communications, Nature, vol. 9(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06511-8
    DOI: 10.1038/s41467-018-06511-8
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    Cited by:

    1. Huee Ru Chong & Yadollah Ranjbar-Slamloo & Malcolm Zheng Hao Ho & Xuan Ouyang & Tsukasa Kamigaki, 2023. "Functional alterations of the prefrontal circuit underlying cognitive aging in mice," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    2. Amelie C. F. Bergs & Jana F. Liewald & Silvia Rodriguez-Rozada & Qiang Liu & Christin Wirt & Artur Bessel & Nadja Zeitzschel & Hilal Durmaz & Adrianna Nozownik & Holger Dill & Maƫlle Jospin & Johannes, 2023. "All-optical closed-loop voltage clamp for precise control of muscles and neurons in live animals," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    3. Lizhu Li & Lihui Lu & Yuqi Ren & Guo Tang & Yu Zhao & Xue Cai & Zhao Shi & He Ding & Changbo Liu & Dali Cheng & Yang Xie & Huachun Wang & Xin Fu & Lan Yin & Minmin Luo & Xing Sheng, 2022. "Colocalized, bidirectional optogenetic modulations in freely behaving mice with a wireless dual-color optoelectronic probe," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    4. Stanislav Ott & Sangyu Xu & Nicole Lee & Ivan Hong & Jonathan Anns & Danesha Devini Suresh & Zhiyi Zhang & Xianyuan Zhang & Raihanah Harion & Weiying Ye & Vaishnavi Chandramouli & Suresh Jesuthasan & , 2024. "Kalium channelrhodopsins effectively inhibit neurons," Nature Communications, Nature, vol. 15(1), pages 1-21, December.
    5. Anna J. Bowen & Y. Waterlily Huang & Jane Y. Chen & Jordan L. Pauli & Carlos A. Campos & Richard D. Palmiter, 2023. "Topographic representation of current and future threats in the mouse nociceptive amygdala," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    6. David Eriksson & Artur Schneider & Anupriya Thirumalai & Mansour Alyahyay & Brice Crompe & Kirti Sharma & Patrick Ruther & Ilka Diester, 2022. "Multichannel optogenetics combined with laminar recordings for ultra-controlled neuronal interrogation," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    7. Yihan Wang & Qian-Quan Sun, 2024. "A prefrontal motor circuit initiates persistent movement," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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