Reduced expression of sarcalumenin and related Ca 2+-regulatory proteins in aged rat skeletal muscle

Abstract

In skeletal muscle , Ca 2+-cycling through the sarcoplasm regulates the excitation–contraction–relaxation cycle. Since uncoupling between sarcolemmal excitation and fibre contraction may play a key role in the functional decline of aged muscle, this study has evaluated the expression levels of key Ca 2+-handling proteins in senescent preparations using immunoblotting and confocal microscopy. Sarcalumenin, a major luminal Ca 2+-binding protein that mediates ion shuttling in the longitudinal sarcoplasmic reticulum, was found to be greatly reduced in aged rat tibialis anterior, gastrocnemius and soleus muscle as compared to adult specimens. Minor sarcolemmal components of Ca 2+-extrusion, such as the surface Ca 2+-ATPase and the Na +–Ca 2+-exchanger, were also diminished in senescent fibres. No major changes were observed for calsequestrin, sarcoplasmic reticulum Ca 2+-ATPase and the ryanodine receptor Ca 2+-release channel. In contrast, the age-dependent reduction in the α 1S-subunit of the dihydropryridine receptor was confirmed. Hence, this report has shown that downstream from the well-established defect in coupling between the t-tubular voltage sensor and the junctional Ca 2+-release channel complex, additional age-related alterations exist in the expression of essential Ca 2+-handling proteins. This may trigger abnormal luminal Ca 2+-buffering and/or decreased plasmalemmal Ca 2+-removal, which could exacerbate impaired signaling or disturbed intracellular ion balance in aged fibres, thereby causing contractile weakness.