Mitochondria control store-operated Ca entry through Na and redox signals.

Mitochondria exert important control over plasma membrane (PM) Orai1 channels mediating store-operated Ca entry (SOCE). Although the sensing of endoplasmic reticulum (ER) Ca stores by STIM proteins and coupling to Orai1 channels is well understood, how mitochondria communicate with Orai1 channels to regulate SOCE activation remains elusive. Here, we reveal that SOCE is accompanied by a rise in cytosolic Na that is critical in activating the mitochondrial Na/Ca exchanger (NCLX) causing enhanced mitochondrial Na uptake and Ca efflux. Omission of extracellular Na prevents the cytosolic Na rise, inhibits NCLX activity, and impairs SOCE and Orai1 channel current. We show further that SOCE activates a mitochondrial redox transient which is dependent on NCLX and is required for preventing Orai1 inactivation through oxidation of a critical cysteine (Cys195) in the third transmembrane helix of Orai1. We show that mitochondrial targeting of catalase is sufficient to rescue redox transients, SOCE, and Orai1 currents in NCLX-deficient cells. Our findings identify a hitherto unknown NCLX-mediated pathway that coordinates Na and Ca signals to effect mitochondrial redox control over SOCE.