Measurement of cytoplasmic calcium in aleurone protoplasts using indo-1 and fura-2

Abstract

Previous attempts to measure cytoplasmic Ca 2+ in plant cells using the new generation of fluorescent probes, indo-1 and fura-2, have been unsuccessful. We investigated the use of indo-1 and fura-2 to measure cytoplasmic Ca 2+ in barley aleurone protoplasts and found that indo-1 could be successfully used when it was loaded into protoplasts in the Ca 2+-sensitive form. The acetoxymethyl esters of both dyes accumulated in aleurone protoplasts, but fura-2 was sequestered in the vacuole and indo-1 was not adequately hydrolyzed. We developed a non-disruptive method for loading the Ca 2+-sensitive form of indo-1 into aleurone protoplasts in mildly acidic solutions. Using this approach, protoplasts accumulate indo-1 in a pH-dependent manner. The accumulated dye is Ca 2+-sensitive, it is not sequestered in vacuoles or the endomembrane system, and it is not rapidly secreted. Fluorescence from indo-1 in individual cells was quenched by Mn 2+ in the presence of digitonin. We estimate the cytoplasmic Ca 2+ concentration in aleurone protoplasts to be approximately 250 nM. The Ca 2+ ionophore, ionomycin does not induce changes in the fluorescence of protoplasts loaded with indo-1, but fluorescence changes could be induced by changes in extracellular Ca 2+ in the presence of digitonin. We conclude that the strategy of loading indo-1 at acidic pH provides a useful means of measuring cytoplasmic Ca 2+ in the barley aleurone that may also be applicable to other types of plant cells.