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Focused ultrasound excites cortical neurons via mechanosensitive calcium accumulation and ion channel amplification

Author

Listed:
  • Sangjin Yoo

    (California Institute of Technology)

  • David R. Mittelstein

    (California Institute of Technology)

  • Robert C. Hurt

    (California Institute of Technology)

  • Jerome Lacroix

    (California Institute of Technology
    Western University of Health Sciences)

  • Mikhail G. Shapiro

    (California Institute of Technology)

Abstract

Ultrasonic neuromodulation has the unique potential to provide non-invasive control of neural activity in deep brain regions with high spatial precision and without chemical or genetic modification. However, the biomolecular and cellular mechanisms by which focused ultrasound excites mammalian neurons have remained unclear, posing significant challenges for the use of this technology in research and potential clinical applications. Here, we show that focused ultrasound excites primary murine cortical neurons in culture through a primarily mechanical mechanism mediated by specific calcium-selective mechanosensitive ion channels. The activation of these channels results in a gradual build-up of calcium, which is amplified by calcium- and voltage-gated channels, generating a burst firing response. Cavitation, temperature changes, large-scale deformation, and synaptic transmission are not required for this excitation to occur. Pharmacological and genetic inhibition of specific ion channels leads to reduced responses to ultrasound, while over-expressing these channels results in stronger ultrasonic stimulation. These findings provide a mechanistic explanation for the effect of ultrasound on neurons to facilitate the further development of ultrasonic neuromodulation and sonogenetics as tools for neuroscience research.

Suggested Citation

  • Sangjin Yoo & David R. Mittelstein & Robert C. Hurt & Jerome Lacroix & Mikhail G. Shapiro, 2022. "Focused ultrasound excites cortical neurons via mechanosensitive calcium accumulation and ion channel amplification," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28040-1
    DOI: 10.1038/s41467-022-28040-1
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    Cited by:

    1. Xuandi Hou & Jianing Jing & Yizhou Jiang & Xiaohui Huang & Quanxiang Xian & Ting Lei & Jiejun Zhu & Kin Fung Wong & Xinyi Zhao & Min Su & Danni Li & Langzhou Liu & Zhihai Qiu & Lei Sun, 2024. "Nanobubble-actuated ultrasound neuromodulation for selectively shaping behavior in mice," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    2. Joshua Kosnoff & Kai Yu & Chang Liu & Bin He, 2024. "Transcranial focused ultrasound to V5 enhances human visual motion brain-computer interface by modulating feature-based attention," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    3. Filip Ivanovski & Maja Meško & Tina Lebar & Marko Rupnik & Duško Lainšček & Miha Gradišek & Roman Jerala & Mojca Benčina, 2024. "Ultrasound-mediated spatial and temporal control of engineered cells in vivo," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    4. Ben Sorum & Trevor Docter & Vincent Panico & Robert A. Rietmeijer & Stephen G. Brohawn, 2024. "Tension activation of mechanosensitive two-pore domain K+ channels TRAAK, TREK-1, and TREK-2," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    5. Mertcan Han & Erdost Yildiz & Ugur Bozuyuk & Asli Aydin & Yan Yu & Aarushi Bhargava & Selcan Karaz & Metin Sitti, 2024. "Janus microparticles-based targeted and spatially-controlled piezoelectric neural stimulation via low-intensity focused ultrasound," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    6. Jason F. Hou & Md Osman Goni Nayeem & Kian A. Caplan & Evan A. Ruesch & Albit Caban-Murillo & Ernesto Criado-Hidalgo & Sarah B. Ornellas & Brandon Williams & Ayeilla A. Pearce & Huseyin E. Dagdeviren , 2024. "An implantable piezoelectric ultrasound stimulator (ImPULS) for deep brain activation," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    7. Siti N. Yaakub & Tristan A. White & Jamie Roberts & Eleanor Martin & Lennart Verhagen & Charlotte J. Stagg & Stephen Hall & Elsa F. Fouragnan, 2023. "Transcranial focused ultrasound-mediated neurochemical and functional connectivity changes in deep cortical regions in humans," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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