Title
Voltage-Dependent Protonation of the Calcium Pocket Enable Activation of the Calcium-Activated Chloride Channel Anoctamin-1 (TMEM16A)
11627/560811627/5608
Author
Segura Covarrubias, Ma. Guadalupe
Aréchiga Figueroa, Iván Arael
De Jesús Pérez, José Juan
Sánchez Solano, Alfredo
Pérez Cornejo, Gloria Patricia
Arreola Gómez, Jorge
Abstract
"Anoctamin-1 (ANO1 or TMEM16A) is a homo-dimeric Ca2+-activated Cl? channel responsible for essential physiological processes. Each monomer harbours a pore and a Ca2+-binding pocket; the voltage-dependent binding of two intracellular Ca2+ ions to the pocket gates the pore. However, in the absence of intracellular Ca2+ voltage activates TMEM16A by an unknown mechanism. Here we show voltage-activated anion currents that are outwardly rectifying, time-independent with fast or absent tail currents that are inhibited by tannic and anthracene-9-carboxylic acids. Since intracellular protons compete with Ca2+ for binding sites in the pocket, we hypothesized that voltage-dependent titration of these sites would induce gating. Indeed intracellular acidification enabled activation of TMEM16A by voltage-dependent protonation, which enhanced the open probability of the channel. Mutating Glu/Asp residues in the Ca2+-binding pocket to glutamine (to resemble a permanent protonated Glu) yielded channels that were easier to activate at physiological pH. Notably, the response of these mutants to intracellular acidification was diminished and became voltage-independent. Thus, voltage-dependent protonation of glutamate/aspartate residues (Glu/Asp) located in the Ca2+-binding pocket underlines TMEM16A activation in the absence of intracellular Ca2+."
Publication date
2020Publication type
articleDOI
https://doi.org/10.1038/s41598-020-62860-9Knowledge area
CIENCIAS TECNOLÓGICASCollections
Publisher
Nature Publishing GroupKeywords
Ca2+-activated Cl- channelInhibition
Currents
Contributes
Expression
Mechanism
Cells