Author response: Dynamic change of electrostatic field in TMEM16F permeation pathway shifts its ion selectivity

AbstractTMEM16F is activated by elevated intracellular Ca2+, and functions both as a small-conductance ion channel permeable to Ca2+ and as a phospholipid scramblase. It is important to hold this positive feedback in check to prevent prolonged Ca2+-overloading in cells. We hypothesize that TMEM16F shifts its ion selectivity so that it is more permeable to Cl− than cations at high intracellular Ca2+ concentration. We tested this hypothesis with the Q559K mutant that shows no current rundown in excised patch with prolonged Ca2+ elevation. Recorded in NaCl−based solution, the channel shifted its ion selectivity from Na+-selective to Cl−-selective when intracellular Ca2+ was increased. The ion selectivity switch did not correlate with changes of channel open state. Rather, it was indicative of an alteration of electrostatic field in the permeation pathway. Shifting ion-selectivity synergistically by intracellular divalent ions and membrane potential could work as a built-in mechanism that allows TMEM16F to brake the positive feedback.

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Decision letter: Dynamic change of electrostatic field in TMEM16F permeation pathway shifts its ion selectivity

10.7554/elife.45187.024 ◽

2019 ◽

Author(s):

Gilman Toombes

Keyword(s):

Electrostatic Field ◽

Ion Selectivity ◽

Dynamic Change

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Dynamic change of electrostatic field in TMEM16F permeation pathway shifts its ion selectivity

eLife ◽

10.7554/elife.45187 ◽

2019 ◽

Vol 8 ◽

Cited By ~ 3

Author(s):

Wenlei Ye ◽

Tina W Han ◽

Mu He ◽

Yuh Nung Jan ◽

Lily Yeh Jan

Keyword(s):

Ion Channel ◽

Electrostatic Field ◽

Chloride Channels ◽

Ion Selectivity ◽

Dynamic Change ◽

Ion Permeability ◽

Permeability Ratio ◽

Phospholipid Scramblase ◽

A Charge ◽

Small Conductance

TMEM16F is activated by elevated intracellular Ca2+, and functions as a small-conductance ion channel and as a phospholipid scramblase. In contrast to its paralogs, the TMEM16A/B calcium-activated chloride channels, mouse TMEM16F has been reported as a cation-, anion-, or non-selective ion channel, without a definite conclusion. Starting with the Q559K mutant that shows no current rundown and less outward rectification in excised patch, we found that the channel shifted its ion selectivity in response to the change of intracellular Ca2+ concentration, with an increased permeability ratio of Cl- to Na+ (PCl-/PNa+) at a higher Ca2+ level. The gradual shift of relative ion permeability did not correlate with the channel activation state. Instead, it was indicative of an alteration of electrostatic field in the permeation pathway. The dynamic change of ion selectivity suggests a charge-screening mechanism for TMEM16F ion conduction, and it provides hints to further studies of TMEM16F physiological functions.

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