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  • Wireless neuromodulation in vitro and in vivo by intrinsic TRPC-mediated magnetomechanical stimulation.

Wireless neuromodulation in vitro and in vivo by intrinsic TRPC-mediated magnetomechanical stimulation.

Communications biology (2022-11-04)
Chih-Lun Su, Chao-Chun Cheng, Ping-Hsiang Yen, Jun-Xuan Huang, Yen-Jing Ting, Po-Han Chiang
ABSTRACT

Various magnetic deep brain stimulation (DBS) methods have been developing rapidly in the last decade for minimizing the invasiveness of DBS. However, current magnetic DBS methods, such as magnetothermal and magnetomechanical stimulation, require overexpressing exogeneous ion channels in the central nervous system (CNS). It is unclear whether magnetomechanical stimulation can modulate non-transgenic CNS neurons or not. Here, we reveal that the torque of magnetic nanodiscs with weak and slow alternative magnetic field (50 mT at 10 Hz) could activate neurons through the intrinsic transient receptor potential canonical channels (TRPC), which are mechanosensitive ion channels widely expressed in the brain. The immunostaining with c-fos shows the increasement of neuronal activity by wireless DBS with magnetomechanical approach in vivo. Overall, this research demonstrates a magnetic nanodiscs-based magnetomechanical approach that can be used for wireless neuronal stimulation in vitro and untethered DBS in vivo without implants or genetic manipulation.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-NeuN (rabbit monoclonal) Antibody, clone 27-4, clone 27-4, from rabbit
Sigma-Aldrich
Anti-NeuN Antibody, clone A60, clone A60, Chemicon®, from mouse