Segregated cation flux by TPC2 biases Ca2+ signaling through lysosomes
Yu Yuan, Dawid Jaślan, Taufiq Rahman, Stephen R. Bolsover, Vikas Arige, Larry E. Wagner, Carla Abrahamian, Rachel Tang, Marco Keller, Jonas Hartmann, Anna Scotto Rosato, Eva-Maria Weiden, Franz Bracher, David I. Yule, Christian Grimm, Sandip Patel
Abstract
Abstract Two-pore channels are endo-lysosomal cation channels with malleable selectivity filters that drive endocytic ion flux and membrane traffic. Here we show that TPC2 can differentially regulate its cation permeability when co-activated by its endogenous ligands, NAADP and PI(3,5)P 2 . Whereas NAADP rendered the channel Ca 2+ -permeable and PI(3,5)P 2 rendered the channel Na + -selective, a combination of the two increased Ca 2+ but not Na + flux. Mechanistically, this was due to an increase in Ca 2+ permeability independent of changes in ion selectivity. Functionally, we show that cell permeable NAADP and PI(3,5)P 2 mimetics synergistically activate native TPC2 channels in live cells, globalizing cytosolic Ca 2+ signals and regulating lysosomal pH and motility. Our data reveal that flux of different ions through the same pore can be independently controlled and identify TPC2 as a likely coincidence detector that optimizes lysosomal Ca 2+ signaling.