Litcius/Paper detail

Specific PIP2 binding promotes calcium activation of TMEM16A chloride channels

Zhiguang Jia, Jianhan Chen

2021Communications Biology43 citationsDOIOpen Access PDF

Abstract

Abstract TMEM16A is a widely expressed Ca 2+ -activated Cl − channel that regulates crucial physiological functions including fluid secretion, neuronal excitability, and smooth muscle contraction. There is a critical need to understand the molecular mechanisms of TMEM16A gating and regulation. However, high-resolution TMEM16A structures have failed to reveal an activated state with an unobstructed permeation pathway even with saturating Ca 2+ . This has been attributed to the requirement of PIP 2 for preventing TMEM16A desensitization. Here, atomistic simulations show that specific binding of PIP 2 to TMEM16A can lead to spontaneous opening of the permeation pathway in the Ca 2+ -bound state. The predicted activated state is highly consistent with a wide range of mutagenesis and functional data. It yields a maximal Cl − conductance of ~1 pS, similar to experimental estimates, and recapitulates the selectivity of larger SCN − over Cl − . The resulting molecular mechanism of activation provides a basis for understanding the interplay of multiple signals in controlling TMEM16A channel function.

Topics & Concepts

BiophysicsChemistryGatingChloride channelConductanceDesensitization (medicine)SelectivityPermeationCell biologyMembraneBiochemistryReceptorBiologyCombinatoricsMathematicsCatalysisIon channel regulation and functionCardiac electrophysiology and arrhythmiasNeuroscience and Neuropharmacology Research