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Activation of Piezo1 but Not NaV1.2 Channels by Ultrasound at 43?MHz.


ABSTRACT: Ultrasound (US) can modulate the electrical activity of the excitable tissues, but the mechanisms underlying this effect are not understood at the molecular level or in terms of the physical modality through which US exerts its effects. Here, we report an experimental system that allows for stable patch-clamp recording in the presence of US at 43?MHz, a frequency known to stimulate neural activity. We describe the effects of US on two ion channels proposed to be involved in the response of excitable cells to US: the mechanosensitive Piezo1 channel and the voltage-gated sodium channel NaV1.2. Our patch-clamp recordings, together with finite-element simulations of acoustic field parameters indicate that Piezo1 channels are activated by continuous wave US at 43?MHz and 50 or 90 W/cm2 through cell membrane stress caused by acoustic streaming. NaV1.2 channels were not affected through this mechanism at these intensities, but their kinetics could be accelerated by US-induced heating.

SUBMITTER: Prieto ML 

PROVIDER: S-EPMC5914535 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Activation of Piezo1 but Not Na<sub>V</sub>1.2 Channels by Ultrasound at 43 MHz.

Prieto Martin Loynaz ML   Firouzi Kamyar K   Khuri-Yakub Butrus T BT   Maduke Merritt M  

Ultrasound in medicine & biology 20180307 6


Ultrasound (US) can modulate the electrical activity of the excitable tissues, but the mechanisms underlying this effect are not understood at the molecular level or in terms of the physical modality through which US exerts its effects. Here, we report an experimental system that allows for stable patch-clamp recording in the presence of US at 43 MHz, a frequency known to stimulate neural activity. We describe the effects of US on two ion channels proposed to be involved in the response of excit  ...[more]

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