The luminal Ca2+ chelator,TPEN, inhibits NAADP-induced Ca2+ release

The regulation of Ca²⁺ release by luminal Ca²⁺ has been well studied for the ryanodine and IP₃ receptors but has been less clear for the NAADP-regulated channel. In view of conflicting reports, we have re-examined the issue by manipulating luminal Ca²⁺ with the membrane-permeant, low affinity Ca²⁺ buffer, TPEN, and monitoring NAADP-induced Ca²⁺ release in sea urchin egg homogenate. NAADP-induced Ca²⁺ release was almost entirely blocked by TPEN (IC₅₀ 17–25 μM) which suppressed the maximal extent of Ca²⁺ release without altering NAADP sensitivity. In contrast, Ca²⁺ release via IP₃ receptors was 3- to 30-fold less sensitive to TPEN whereas that evoked by ionomycin was essentially unaffected. The effect of TPEN on NAADP-induced Ca²⁺ release was not due to an increase in the luminal pH or chelation of trace metals since it could not be mimicked by NH₄Cl or phenanthroline. The fact that TPEN had no effect upon ionophore-induced Ca²⁺ release also argued against a substantial reduction in the driving force for Ca²⁺ efflux. We propose that, in the sea urchin egg, luminal Ca²⁺ is important for gating native NAADP-regulated two-pore channels.