µ- Calpain and calpain-3 are not autolyzed with exhaustive exercise in humans

µ-calpain and calpain-3 are Ca²⁺-dependent proteases found in skeletal muscle. Autolysis of calpains is observed using Western blot analysis as the cleaving of the full-length proteins to shorter products. Biochemical assays suggest that µ-calpain becomes proteolytically active in the presence of 2–200 µM Ca²⁺. Although calpain-3 is poorly understood, autolysis is thought to result in its activation, which is widely thought to occur at lower intracellular Ca²⁺ concentration levels ([Ca²⁺]i; ~1 µM) than the levels at which µ-calpain activation occurs. We have demonstrated the Ca²⁺-dependent autolysis of the calpains in human muscle samples and rat extensor digitorum longus (EDL) muscles homogenized in solutions mimicking the intracellular environment at various [Ca²⁺] levels (0, 2.5, 10, and 25 µM). Autolysis of calpain-3 was found to occur across a [Ca²⁺] range similar to that for µ-calpain, and both calpains displayed a seemingly higher Ca²⁺ sensitivity in human than in rat muscle homogenates, with ~15% autolysis observed after 1-min exposure to 2.5 µM Ca²⁺ in human muscle and almost none after 1- to 2-min exposure to the same [Ca²⁺]i level in rat muscle. During muscle activity, [Ca²⁺]i may transiently peak in the range found to autolyze µ-calpain and calpain-3, so we examined the effect of two types of exhaustive cycling exercise (30-s "all-out" cycling, n = 8; and 70% VO2 peak until fatigue, n = 3) on the amount of autolyzed µ-calpain or calpain-3 in human muscle. No significant autolysis of µ-calpain or calpain-3 occurred as a result of the exercise. These findings have shown that the time- and concentration-dependent changes in [Ca²⁺]i that occurred during concentric exercise fall near but below the level necessary to cause autolysis of calpains in vivo.