Abstract
PIEZO2 mechanosensitive channels are required for normal touch sensation. However, PIEZO2 channels are almost completely blocked at negative resting membrane potentials. We show that PIEZO2 voltage-block can be relieved by mutations at a conserved Arginine (R2756) which dramatically sensitizes the channel to mechanical stimuli. We generated Piezo2R2756H/R2756H and Piezo2R2756K/R2756K knock-in mice to ask how voltage regulates the endogenous mechanosensitivity of sensory neurons. Surprisingly, mechanosensitive currents in nociceptors, neurons that detect noxious mechanical stimuli, were substantially sensitized in Piezo2 knock-in mice, but touch receptors were largely unaffected. Piezo2 knock-in mice were hypersensitive to noxious mechanical stimuli as their nociceptors acquired properties similar to ultrasensitive touch receptors. Thus, mechanical pain sensitivity can be tuned by voltage-block of PIEZO2 channels, a channel property potentially amenable for pharmacological modulation.
Competing Interest Statement
The authors have declared no competing interest.