Sonogenetic Modulation of Cellular Activities Using an Engineered Auditory-Sensing Protein.
Yao-Shen HuangChing-Hsiang FanNing HsuNai-Hua ChiuChun-Yao WuChu-Yuan ChangBing-Huan WuShi-Rong HongYa-Chu ChangAnthony Yan-Tang WuVanessa GuoYueh-Chen ChiangWei-Chia HsuLinyi ChenCharles Pin-Kuang LaiChih-Kuang YehYu-Chun LinPublished in: Nano letters (2020)
Biomolecules that respond to different external stimuli enable the remote control of genetically modified cells. We report herein a sonogenetic approach that can manipulate target cell activities by focused ultrasound stimulation. This system requires an ultrasound-responsive protein derived from an engineered auditory-sensing protein prestin. Heterologous expression of mouse prestin containing two parallel amino acid substitutions, N7T and N308S, that frequently exist in prestins from echolocating species endowed transfected mammalian cells with the ability to sense ultrasound. An ultrasound pulse of low frequency and low pressure efficiently evoked cellular calcium responses after transfecting with prestin(N7T, N308S). Moreover, pulsed ultrasound can also noninvasively stimulate target neurons expressing prestin(N7T, N308S) in deep regions of mouse brains. Our study delineates how an engineered auditory-sensing protein can cause mammalian cells to sense ultrasound stimulation. Moreover, our sonogenetic tools will serve as new strategies for noninvasive therapy in deep tissues.