EFFECTS OF CYCLOPIAZONIC ACID ON CA2-RETICULUM IN SAPONIN-PERMEABILIZED SKELETAL-MUSCLE FIBERS( REGULATION BY THE SARCOPLASMIC)

The effects of the sarcoplasmic reticulum (SR) Ca2+ pump inhibitor cyc lopiazonic acid (CPA) were studied in saponin-permeabilized frog skele tal muscle fibres. Release of Ca2+ from the SR was triggered by brief (2 s) applications of 40 mM caffeine at 2-min intervals. Changes in [C a2+] within the fibre were monitored continuously using Fura-2 fluores cence. At a bathing [Ca2+] of 100 nM, introduction of 20 mu M CPA indu ced a slow release of Ca2+ from the SR. The following one to two caffe ine-induced Ca2+ transients were markedly increased in amplitude and d uration. Thereafter, the caffeine-induced Ca2+ transients decreased pr ogressively and were barely detectable 6-7 min after introduction of C PA. However, increasing the bathing [Ca2+] or increasing the Ca2+ load ing period resulted in a partial recovery of the caffeine-induced Ca2 transients, suggesting that pump inhibition is incomplete, even in th e presence of 100 mu M CPA. The slow Ca2+ efflux induced by CPA was in sensitive to ryanodine, but absent following abolition of SR Ca2+ pump activity by ATP withdrawal. These results suggest that the caffeine-i nduced Ca2+ transient reflects a balance between efflux via the SR Ca2 + channel and reuptake by the Ca pump. Ca2+ release upon addition of C PA may result from inhibition of SR Ca2+ uptake, which reveals a tonic Ca2+ efflux that is independent of the Ca2+ release channels.