Micromolar Ca2+ from sparks activates Ca2+-sensitive K+ channels in rat cerebral artery smooth muscle

The goal of the present study was to testthe hypothesis that local Ca²⁺ release events(Ca²⁺ sparks) deliver high local Ca²⁺concentration to activate nearby Ca²⁺-sensitiveK⁺ (BK) channels in the cell membrane of arterial smoothmuscle cells. Ca²⁺ sparks and BK channels were examined inisolated myocytes from rat cerebral arteries with laser scanningconfocal microscopy and patch-clamp techniques. BK channels had anapparent dissociation constant for Ca²⁺ of 19 µM and aHill coefficient of 2.9 at 40 mV. At near-physiological intracellularCa²⁺ concentration ([Ca²⁺]_i; 100 nM) and membrane potential (40 mV), the open probability of a singleBK channel was low (1.2 × 10⁶). A Ca²⁺spark increased BK channel activity to 18. Assuming that 1-100% of the BK channels are activated by a single Ca²⁺ spark, BKchannel activity increases 6 × 10⁵-fold to 6 × 10³-fold, which corresponds to ~30 µM to 4 µM sparkCa²⁺ concentration.1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acidacetoxymethyl ester caused the disappearance of all Ca²⁺sparks while leaving the transient BK currents unchanged. Our resultssupport the idea that Ca²⁺ spark sites are in closeproximity to the BK channels and that local[Ca²⁺]_i reaches micromolar levels to activateBK channels.