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Anion and Cation Permeability of the Mouse TMEM16F Calcium-Activated Channel

Stefano Stabilini, Anna Menini, Simone Pifferi

2021International Journal of Molecular Sciences25 citationsDOIOpen Access PDF

Abstract

TMEM16F is involved in several physiological processes, such as blood coagulation, bone development and virus infections. This protein acts both as a Ca2+-dependent phospholipid scramblase and a Ca2+-activated ion channel but several studies have reported conflicting results about the ion selectivity of the TMEM16F-mediated current. Here, we have performed a detailed side-by-side comparison of the ion selectivity of TMEM16F using the whole-cell and inside-out excised patch configurations to directly compare the results. In inside-out configuration, Ca2+-dependent activation was fast and the TMEM16F-mediated current was activated in a few milliseconds, while in whole-cell recordings full activation required several minutes. We determined the relative permeability between Na+ and Cl¯ (PNa/PCl) using the dilution method in both configurations. The TMEM16F-mediated current was highly nonselective, but there were differences depending on the configuration of the recordings. In whole-cell recordings, PNa/PCl was approximately 0.5, indicating a slight preference for Cl¯ permeation. In contrast, in inside-out experiments the TMEM16F channel showed a higher permeability for Na+ with PNa/PCl reaching 3.7. Our results demonstrate that the time dependence of Ca2+ activation and the ion selectivity of TMEM16F depend on the recording configuration.

Topics & Concepts

ChemistrySelectivityPhospholipid scramblaseIon channelBiophysicsIonCalciumPermeability (electromagnetism)Patch clampPhospholipidBiochemistryPhosphatidylserineMembraneBiologyReceptorOrganic chemistryCatalysisIon channel regulation and functionNeuroscience and Neuropharmacology ResearchCardiac electrophysiology and arrhythmias