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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Spontaneous mitochondrial depolarizations are independent of SR Ca²⁺ release

¹Department of Physiology and ²Biomedical Imaging Group, University of Massachusetts Medical School, Worcester, Massachusetts 01655

Submitted 2 September 2003 ; accepted in final form 31 December 2003

The mitochondrial membrane potential (_m) underlies many mitochondrial functions, including Ca²⁺ influx into the mitochondria, which allows them to serve as buffers of intracellular Ca²⁺. Spontaneous depolarizations of _m, flickers, have been observed in isolated mitochondria and intact cells using the fluorescent cationic lipophile tetramethylrhodamine ethyl ester (TMRE), which distributes across the inner mitochondrial membrane in accordance with the Nernst equation. Flickers in cardiomyocytes have been attributed to uptake of Ca²⁺ released from the sarcoplasmic reticulum (SR) via ryanodine receptors in focal transients called Ca²⁺ sparks. We have shown previously that an increase in global Ca²⁺ in smooth muscle cells causes an increase in mitochondrial Ca²⁺ and depolarization of _m. Here we sought to determine whether flickers in smooth muscle cells are caused by uptake of Ca²⁺ released focally in Ca²⁺ sparks. High-speed three-dimensional imaging was used to monitor _m in freshly dissociated myocytes from toad stomach that were simultaneously voltage clamped at 0 mV to ensure the cytosolic TMRE concentration was constant and equal to the low level in the bath (2.5 nM). This approach allows quantitative analysis of flickers as we have previously demonstrated. Depletion of SR Ca²⁺ not only failed to eliminate flickers but rather increased their magnitude and frequency somewhat. Flickers were not altered in magnitude or frequency by ryanodine or xestospongin C, inhibitors of intracellular Ca²⁺ release, or by cyclosporin A, an inhibitor of the permeability transition pore. Focal Ca²⁺ release from the SR does not cause flickers in the cells employed here.

mitochondria; mitochondrial membrane potential; intracellular calcium; permeability transition pore; sarcoplasmic reticulum

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