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Department of Pharmacology & Toxicology, University of Texas Medical Branch, Galveston, TX 77555-0641, USA
The release of Ca2+ from sarcoplasmic reticulum in response to Ca2+ entering through L-type Ca2+ channels was studied in isolated voltage clamped rat ventricular myocytes at room temperature using the fluorescent Ca2+ indicators fluo-3 and Oregon Green 488 Bapta 5N.
Depolarizations to positive potentials elicited fluo-3 Ca2+ transients with rates of rise that were linearly related to the magnitude of the peak measured Ca2+ current in the presence of Cs+-containing pipette solutions.
Further experiments utilizing prepulses to preactivate a constant number of channels also revealed a linear relationship between the Ca2+ transient rate of rise and the magnitude of entering Ca2+ current at positive potentials. Under these conditions as well, the maximal rates of rise of global myoplasmic Ca2+ transients were due primarily to Ca2+ release from the sarcoplasmic reticulum as revealed by effects of ryanodine and caffeine on the Ca2+ transients. Using such prepulses, linearity between the Ca2+ transient rate of rise and the magnitude of the peak Ca2+ current was found under a variety of pulse protocols.
Using one such pulse protocol, linearity between the Ca2+ transient rate of rise and the magnitude of the peak Ca2+ current was also found when Ca2+ currents assessed at one potential were reduced in magnitude during the onset of block by application of Co2+. Using the same pulse protocol, linearity between the Ca2+ transient rate of rise and the magnitude of the peak Ca2+ current was also found when use of Cs+ was avoided by blocking K+ currents with extracellular TEA and 4-aminopyridine. Linearity in the relationship between the Ca2+ transient rate of rise and the magnitude of the peak Ca2+ current was also found when Ca2+ transients were measured using the low affinity Ca2+ indicator Oregon Green 488 Bapta 5N in place of fluo-3.
These results appear to indicate that the cardiac ryanodine receptor is capable of being activated by only one calcium ion. Alternative interpretations of the data are discussed.
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