Focused ultrasound excites cortical neurons via mechanosensitive calcium accumulation and ion channel amplification
California Institute of Technology · Western University of Health Sciences
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…
Citation impact
- FWCI
- 33.83
- Percentile
- 100%
- References
- 96
Authors
5- SYSangjin YooCorresponding
California Institute of Technology
- DRDavid R. Mittelstein
California Institute of Technology
- RCRobert C. Hurt
California Institute of Technology
- JJJérôme J. Lacroix
California Institute of Technology, Western University of Health Sciences
- MGMikhail G. Shapiro
California Institute of Technology
Topics & keywords
- Mechanosensitive channels
- Ion channel
- Ultrasound
- Calcium
- Biophysics
- Channel (broadcasting)
- Materials science
- Chemistry