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MUSCLE CELL BIOLOGY AND CELL MOTILITY

Effects of elevated physiological temperatures on sarcoplasmic reticulum function in mechanically skinned muscle fibers of the rat

Department of Zoology, La Trobe University, Victoria, Australia

Submitted 5 February 2007 ; accepted in final form 5 March 2007

Properties of the sarcoplasmic reticulum (SR) with respect to Ca²⁺ loading and release were measured in mechanically skinned fiber preparations from isolated extensor digitorum longus (EDL) muscles of the rat that were either kept at room temperature (23°C) or exposed to temperatures in the upper physiological range for mammalian skeletal muscle (30 min at 40 or 43°C). The ability of the SR to accumulate Ca²⁺ was significantly reduced by a factor of 1.9–2.1 after the temperature treatments due to a marked increase in SR Ca²⁺ leak, which persisted for at least 3 h after treatment. Results with blockers of Ca²⁺ release channels (ruthenium red) and SR Ca²⁺ pumps [2,5-di(tert-butyl)-1,4-hydroquinone] indicate that the increased Ca²⁺ leak was not through the SR Ca²⁺ release channel or the SR Ca²⁺ pump, although it is possible that the leak pathway was via oligomerized Ca²⁺ pump molecules. No significant change in the maximum SR Ca²⁺-ATPase activity was observed after the temperature treatment, although there was a tendency for a decrease in the SR Ca²⁺-ATPase. The observed changes in SR properties were fully prevented by the superoxide (O₂^–) scavenger Tiron (20 mM), indicating that the production of O₂^– at elevated temperatures is responsible for the increase in SR Ca²⁺ leak. Results show that physiologically relevant elevated temperatures 1) induce lasting changes in SR properties with respect to Ca²⁺ handling that contribute to a marked increase in the SR Ca²⁺ leak and, consequently, to the reduction in the average coupling ratio between Ca²⁺ transport and SR Ca²⁺-ATPase and muscle performance, and 2) that these changes are mediated by temperature-induced O₂^– production.

skeletal muscle; calcium ion leak; superoxide; skinned fibers

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