Calcium sparks in human coronary artery smooth muscle cells resolved by confocal imaging |
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Authors: | Fürstenau M Löhn M Ried C Luft F C Haller H Gollasch M |
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Institution: | Franz Volhard Clinic at the Max Delbrück Center for Molecular Medicine, Charité University Hospitals, Humboldt University Berlin, Germany. |
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Abstract: | OBJECTIVE: The observation of local 'elementary' Ca2+ release events (Ca2+ sparks) through ryanodine receptor (RyR) channels in the sarcoplasmic reticulum (SR) has changed our understanding of excitation-contraction (EC) coupling in cardiac and smooth muscle. In arterial smooth muscle, Ca2+ sparks have been suggested to oppose myogenic vasoconstriction and to influence vasorelaxation by activating co-localized Ca2+ activated K+ (K(Ca)) channels (STOCs). However, all prior studies on Ca2+ sparks have been performed in non-human tissues. METHODS: In order to understand the possible significance of Ca2+ sparks to human cardiovascular function, we used high spatial resolution confocal imaging to record Ca2+ sparks in freshly-isolated, individual myocytes of human coronary arteries loaded with the Ca2+ indicator fluo-3. RESULTS: Local SR Ca2+ release events recorded in human myocytes were similar to 'Ca2- sparks' recorded previously from non-human smooth muscle cells. In human myocytes, the peak Ca2+]i amplitudes of Ca2+ sparks (measured as F/F0) and width at half-maximal amplitude were 2.3 and 2.27 microm, respectively. The duration of Ca2+ sparks was 62 ms. Ca2+ sparks were completely inhibited by ryanodine (10 micromol/l). Ryanodine-sensitive STOCs could be identified with typical properties of K(Ca) channels activated by Ca2+ sparks. CONCLUSION: Our data implies that modern concepts suggesting an essential role of Ca2+ spark generation in EC coupling recently derived from non-human muscle are applicable to human cardiovascular tissue. Although the basic properties of Ca2+ sparks are similar, our results demonstrate that Ca2+ sparks in coronary arteries in humans, have features distinct from non-arterial smooth muscle cells of other species. |
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