Flux of Ca2+ across the sarcoplasmic reticulum of guinea‐pig cardiac cells during excitation‐contraction coupling.

A method has been developed for calculating the flux of Ca2+ across the sarcoplasmic reticulum (SR) during excitation-contraction coupling in mammalian heart cells. FSR will symbolize the net rate of movement of Ca2+, per litre of accessible cytoplasm, into or out of the sarcoplasmic reticulum. FSR has the units MS-1. 2. A theory of the cytoplasmic Ca2+i transient in mammalian heart cells is presented in which the Ca2+i transient results from the various cellular processes that tend to increase or decrease cytoplasmic Ca2+i. According to the theory, FSR can be calculated if all cellular processes that contribute to the Ca2+i transient (other than Ca2+ fluxes across the SR) are either eliminated or are known quantitatively. 3. To obtain the measurements required to apply this theory, Ca2+i transients and membrane currents were recorded in guinea-pig single ventricular myocytes subjected to whole-cell voltage clamp and internal perfusion. Ca2+i transients were recorded through the use of the Ca2+ indicator, Fura-2 (pentapotassium salt). 4. Ca2+ fluxes through the sodium-calcium exchanger were eliminated in all experiments, by perfusing the cells, internally and externally with Na(+)-free solutions. Ca2+ flux through the sarcolemmal L-type Ca2+ channel was measured as the verapamil-sensitive current. Influx of Ca2+ through all other voltage-dependent pathways was found to be negligible for the calculation of FSR over the time course of a single Ca2+i transient. 5. In the combined absence of Ca2+ current, Na(+)-Ca2+ exchange and fluxes across the SR (10 mM-caffeine), the net rate of removal of Ca2+ from the cytoplasm, which includes presumed contributions from sarcolemmal Ca(2+)-ATPase and mitochondrial Ca2+ transport, was found to be a negligible quantity in the calculation of FSR, over the time course of a single Ca2+i transient. 6. Calculation of FSR requires that the Ca(2+)-binding capacity of cytoplasm be known. Ca2+i transients recorded during measurable total Ca2+ influx into the cytoplasm (verapamil-sensitive current in the absence of fluxes across the SR) were compared with theoretical Ca2+ transients computed on the assumption that the entering Ca2+ could bind only to intracellular ligands (values for ligands taken from literature) and to Fura-2 (30 microM). The slope of the regression line relating calculated total change in Ca2+i to the measured total Ca2+ influx was 0.99, not different from the perfect theoretical slope of 1.0 (correlation coefficient, 0.81; standard deviation of slope, 0.14; n = 7).4+ the SR and FSR had a similar time course to that on depolarization. 10. The unidirectional efflux of Ca2+ from the SR, symbolized FSR, rel was calculated utilizing assumed characteristics of the Ca2+ pump of the SR. The value of FSR, rel was not affected by repolarization from voltage-clamp pulses greater than 150 ms in duration.(ABSTRACT TRUNCATED AT 400 WORDS)