Calcium phosphate precipitation in the sarcoplasmic reticulum reduces action potential-mediated Ca2+ release in mammalian skeletal muscle

doi:10.1152/ajpcell.00273.2005

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Calcium phosphate precipitation in the sarcoplasmic reticulum reduces action potential-mediated Ca²⁺ release in mammalian skeletal muscle

T. L. Dutka, L. Cole, and G. D. Lamb

Department of Zoology, La Trobe University, Melbourne, Victoria, Australia

Submitted 10 June 2005 ; accepted in final form 5 August 2005

During vigorous exercise, P_i concentration levels within thecytoplasm of fast-twitch muscle fibers may reach $≥$ 30 mM. CytoplasmicP_i may enter the sarcoplasmic reticulum (SR) and bind to Ca²⁺to form a precipitate (CaP_i), thus reducing the amount of releasableCa²⁺. Using mechanically skinned rat fast-twitch muscle fibers,which retain the normal action potential-mediated Ca²⁺ releasemechanism, we investigated the consequences of P_i exposure onnormal excitation-contraction coupling. The total amount ofCa²⁺ released from the SR by a combined caffeine/low-Mg²⁺ concentrationstimulus was reduced by $~$ 20%, and the initial rate of force developmentslowed after 2-min exposure to 30 mM P_i (with or without thepresence creatine phosphate). Peak (50 Hz) tetanic force wasalso reduced (by $~$ 25% and $~$ 45% after 10 and 30 mM P_i exposure,respectively). Tetanic force responses produced after 30 mMP_i exposure were nearly identical to those observed in the samefiber after depletion of total SR Ca²⁺ by $~$ 35%. Ca²⁺ contentassays revealed that the total amount of Ca²⁺ in the SR wasnot detectably changed by exposure to 30 mM P_i, indicating thatCa²⁺ had not leaked from the SR but instead formed a precipitatewith the P_i, reducing the amount of available Ca²⁺ for rapidrelease. These results suggest that CaP_i precipitation thatoccurs within the SR could contribute to the failure of Ca²⁺release observed in the later stages of metabolic muscle fatigue.They also demonstrate that the total amount of Ca²⁺ stored inthe SR cannot drop substantially below the normal endogenouslevel without reducing tetanic force responses.

muscle fatigue; excitation-contraction coupling

Address for reprint requests and other correspondence: T. L. Dutka, Dept. of Zoology, La Trobe Univ., Melbourne 3086, Victoria, Australia (e-mail: t.dutka{at}latrobe.edu.au)

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