Sensitization of nerve cells to ultrasound stimulation through Piezo1-targeted microbubbles

压电1 机械敏感通道 生物物理学 刺激 神经调节 化学 离子通道 机械转化 细胞外 细胞生物学 内科学 生物化学 医学 生物 受体
作者
Xuelian Shen,Zhuqing Song,Erjiao Xu,Jun Zhou,Fei Yan
出处
期刊:Ultrasonics Sonochemistry [Elsevier BV]
卷期号:73: 105494-105494 被引量:38
标识
DOI:10.1016/j.ultsonch.2021.105494
摘要

Neuromodulation by ultrasound (US) has recently drawn considerable attention due to its great advantages in noninvasiveness, high penetrability across the skull and highly focusable acoustic energy. However, the mechanisms and safety from US irradiation still remain less understood. Recently, documents revealed Piezo1, a mechanosensitive cation channel, plays key role in converting mechanical stimuli from US through its trimeric propeller-like structure. Here, we developed a Piezo1-targeted microbubble (PTMB) which can bind to the extracellular domains of Piezo1 channel. Due to the higher responsiveness of bubbles to mechanical stimuli from US, significantly lower US energy for these PTMB-binding cells may be needed to open these mechanosensitive channels. Our results showed US energy at 0.03 MPa of peak negative pressure can achieve an equivalent level of cytoplasmic Ca2+ transients which generally needs 0.17 MPa US intensity for the control cells. Cytoplasmic Ca2+ elevations were greatly reduced by chelating extracellular calcium ions or using the cationic ion channel inhibitors, confirming that US-mediated calcium influx are dependent on the Piezo1 channels. No bubble destruction and obvious temperature increase were observed during the US exposure, indicating cavitation and heating effects hardly participate in the process of Ca2+ transients. In conclusion, our study provides a novel strategy to sensitize the response of nerve cells to US stimulation, which makes it safer application for US-mediated neuromodulation in the future.
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