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Ronghua ZhuGe^*,, Richard A. Tuft^*,, Kevin E. Fogarty^*,, Karl Bellve^*,, Fredric S. Fay^*,,, and John V. Walsh, Jr.^*

From the ^* Department of Physiology and Biomedical Imaging Group, University of Massachusetts Medical School, Worcester, Massachusetts 01655

Localized, transient elevations in cytosolic Ca²⁺, known as Ca²⁺ sparks, caused by Ca²⁺ release from sarcoplasmic reticulum, are thought to trigger the opening of large conductance Ca²⁺-activated potassium channels in the plasma membrane resulting in spontaneous transient outward currents (STOCs) in smooth muscle cells. But the precise relationships between Ca²⁺ concentration within the sarcoplasmic reticulum and a Ca²⁺ spark and that between a Ca²⁺ spark and a STOC are not well defined or fully understood. To address these problems, we have employed two approaches using single patch-clamped smooth muscle cells freshly dissociated from toad stomach: a high speed, wide-field imaging system to simultaneously record Ca²⁺ sparks and STOCs, and a method to simultaneously measure free global Ca²⁺ concentration in the sarcoplasmic reticulum ([Ca²⁺]_SR) and in the cytosol ([Ca²⁺]_CYTO) along with STOCs. At a holding potential of 0 mV, cells displayed Ca²⁺ sparks and STOCs. Ca²⁺ sparks were associated with STOCs; the onset of the sparks coincided with the upstroke of STOCs, and both had approximately the same decay time. The mean increase in [Ca²⁺]_CYTO at the time and location of the spark peak was 100 nM above a resting concentration of 100 nM. The frequency and amplitude of spontaneous Ca²⁺ sparks recorded at –80 mV were unchanged for a period of 10 min after removal of extracellular Ca²⁺ (nominally Ca²⁺-free solution with 50 µM EGTA), indicating that Ca²⁺ influx is not necessary for Ca²⁺sparks. A brief pulse of caffeine (20 mM) elicited a rapid decrease in [Ca²⁺]_SR in association with a surge in [Ca²⁺]_CYTO and a fusion of STOCs, followed by a fast restoration of [Ca²⁺]_CYTO and a gradual recovery of [Ca²⁺]_SR and STOCs. The return of global [Ca²⁺]_CYTO to rest was an order of magnitude faster than the refilling of the sarcoplasmic reticulum with Ca²⁺. After the global [Ca²⁺]_CYTO was fully restored, recovery of STOC frequency and amplitude were correlated with the level of [Ca²⁺]_SR, even though the time for refilling varied greatly. STOC frequency did not recover substantially until the [Ca²⁺]_SR was restored to 60% or more of resting levels. At [Ca²⁺]_SR levels above 80% of rest, there was a steep relationship between [Ca²⁺]_SR and STOC frequency. In contrast, the relationship between [Ca²⁺]_SR and STOC amplitude was linear. The relationship between [Ca²⁺]_SR and the frequency and amplitude was the same for Ca²⁺ sparks as it was for STOCs. The results of this study suggest that the regulation of [Ca²⁺]_SR might provide one mechanism whereby agents could govern Ca²⁺ sparks and STOCs. The relationship between Ca²⁺ sparks and STOCs also implies a close association between a sarcoplasmic reticulum Ca²⁺ release site and the Ca²⁺-activated potassium channels responsible for a STOC.

Key Words: Ca²⁺ spark • spontaneous transient outward current • Mag-fura-2 • [Ca²⁺]_SR • ryanodine receptor

Dr. Fay died on 18 March 1997.

Address correspondence to John V. Walsh, Jr., Department of Physiology, Biomedical Imaging Group, University of Massachusetts Medical Center, Worcester, MA 01605. Fax: 508-856-5997; E-mail: john.walsh{at}ummed.edu

Abbreviations: BK channel, Ca²⁺-activated potassium channel; RyR, ryanodine receptor; SR, sarcoplasmic reticulum; STOC, spontaneous transient outward current

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