Abstract
1. A recently developed method of measuring cytoplasmic Ca2+ buffering in intact red cells was applied to re-evaluate the intracellular Ca2+ binding properties of the Ca2+ chelators benz2 and BAPTA. Incorporation of the free chelators was accomplished by incubating the cells with the acetoxymethyl ester forms (benz2 AM or BAPTA AM). The divalent cation ionophore A23187 was used to induce equilibrium distribution of Ca2+ between cells and medium. 45Ca2+ was added stepwise to cell suspensions in the presence and absence of external BAPTA. To induce full Ca2+ equilibration, the plasma membrane Ca2+ pump was inhibited either by depleting the cells of ATP or by adding vanadate to the cell suspension. 2. The properties of the incorporated chelators were assessed from the difference in cytoplasmic Ca2+ buffering between chelator-free and chelator-loaded cells, over a wide range of intracellular ionized calcium concentrations ([Ca2+]i), from nanomolar to millimolar. 3. Under the experimental conditions applied, incorporation of benz2 and BAPTA into the red cells increased their Ca2+ buffering capacity by 300-600 mumol (340 g Hb)-1. The intracellular apparent Ca2+ dissociation constants (KDi) were about 500 nM for benz2 and 800 nM for BAPTA, values much higher than those reported for standard salt solutions (KD) of about 40 and 130 nM, respectively. These results suggest that, contrary to earlier observations, the intracellular red cell environment may cause large shifts in the apparent Ca2+ binding behaviour of incorporated chelators. 4. The possibility that the observed KD shifts are due to reversible binding of the chelators to haemoglobin is considered, and the implications of the present results for early estimates of physiological [Ca2+]i levels is discussed.
Published Version
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