The adaptive response of skeletal muscle fibres depends on a variety of biological factors including loading conditions and neuromuscular activity. An extreme type of atrophy-inducing change in contractile activity is represented by the physical disconnection between the motor nerve and its respective fibre unit. Since fibre type alterations have a striking effect on the Ca2+-regulatory apparatus, we have investigated the fate of a key Ca2+-pump and essential Ca2+-binding proteins in extensor digitorum longus specimens two weeks after nerve crush or complete denervation. In contrast to increased levels of sarcalumenin, immunoblotting revealed that the expression of the fast SERCA1 Ca2+-ATPase isoform is drastically decreased and fast calsequestrin is slightly reduced. Analysis of myosin heavy chain isoforms agreed with this result and showed a fast-to-slow fibre type shifting process following denervation. Hence, changes in muscle activity appear to have a profound effect on the abundance and isoform expression pattern of Ca2+-handling elements.

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