Temperature-dependent increase in the calcium sensitivity and acceleration of activation of ANO6 chloride channel variants

Anoctamin-6 (ANO6) belongs to a family of calcium (Ca 2+ )-activated chloride channels (CaCCs), with three splicing variants (V1, V2, and V5) showing plasma membrane expression. Unlike other CaCCs, ANO6 requires a non-physiological intracellular free calcium concentration ([Ca 2+ ] i > 1 μM) and several minutes for full activation under a whole-cell patch clamp. Therefore, its physiological role as an ion channel is uncertain and it is more commonly considered a Ca 2+ -dependent phospholipid scramblase. Here, we demonstrate that physiological temperature (37 °C) increases ANO6 Ca 2+ sensitivity under a whole-cell patch clamp; V1 was activated by 1 μM [Ca 2+ ] i , whereas V2 and V5 were activated by 300 nM [Ca 2+ ] i . Increasing the temperature to 42 °C led to activation of all ANO6 variants by 100 nM [Ca 2+ ] i . The delay t i me for activation of the three variants was significantly shortened at 37 °C. Notably, the temperature-dependent Ca 2+ -sensitisation of ANO6 became insignificant under inside-out patch clamp, suggesting critical roles of unknown cytosolic factors. Unlike channel activity, 27 °C but not 37 °C (physiological temperature) induced the scramblase activity of ANO6 at submicromolar [Ca 2+ ] i (300 nM), irrespective of variant type. Our results reveal a physiological ion conducting property of ANO6 at 37 °C and suggest that ANO6 channel function acts separately from its scramblase activity.