Abstract

1. Single mechanically skinned fibres from the rat extensor digitorum longus muscle, which allow access to intracellular compartments, were used to examine the effects of 0.5-100 microM chlorpromazine hydrochloride (CPZ) on the major steps of the excitation-contraction (E-C) coupling to elucidate the involvement of skeletal muscle in the neuroleptic malignant syndrome (NMS). 2. At 1 microM, CPZ caused a 20-30% increase in the force response induced by t-system depolarisation and a marked increase in the rate of caffeine-induced SR Ca(2+) release. At [CPZ]> or =2.5 microM, there was an initial increase followed by a marked decrease of the t-system depolarisation-induced force responses, while the potentiating effect on the caffeine-induced SR Ca(2+) release remained. These effects were reversible. 3. CPZ had no effect on the maximum Ca(2+)-activated force, but caused reversible, concentration-dependent increases in the Ca(2+) sensitivity of the contractile apparatus at [CPZ] > or =10 microM, with a 50% predicted shift of 0.11 pCa (-log [Ca(2+)]) units at 82.3 microM CPZ. 4. CPZ did not alter the rate of SR-Ca(2+) loading at 1 and 10 microM, but reversibly reduced it by approximately 40% at 100 microM by reducing the SR Ca(2+) pump. Nevertheless, the SR Ca(2+) content was greater when fibres became unresponsive to t-system-induced depolarisation in the presence than in the absence of 100 microM CPZ. 5. The results show that CPZ has concentration-dependent stimulatory and inhibitory effects on various steps of the E-C coupling, which can explain the involvement of skeletal muscle in NMS and reconcile previous divergent data on CPZ effects on muscle.

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