Maravall, M., Mainen, Z. F., Sabatini, B. L., Svoboda, K. (May 2000) Estimating intracellular calcium concentrations and buffering without wavelength ratioing. Biophysical Journal, 78 (5). pp. 2655-2667. ISSN 0006-3495
Abstract
We describe a method for determining intracellular free calcium concentration ([Ca2+]) from single-wavelength fluorescence signals. In contrast to previous single-wavelength calibration methods, the proposed method does not require independent estimates of resting [Ca2+] but relies on the measurement of fluorescence close to indicator saturation during an experiment. Consequently, it is well suited to [Ca2+] indicators for which saturation can be achieved under physiological conditions. In addition, the method requires that the indicators have large dynamic ranges. Popular indicators such as Calcium Green-1 or Fluo-3 fulfill these conditions. As a test of the method, we measured [Ca2+] in CA1 pyramidal neurons in rat hippocampal slices using Oregon Green BAPTA-1 and 2-photon laser scanning microscopy (BAPTA: 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid). Resting [Ca2+ was 32-59 nM in the proximal apical dendrite. Monitoring action potential-evoked [Ca2+] transients as a function of indicator loading yielded estimates of endogenous buffering capacity (44-80) and peak [Ca2+] changes at zero added buffer (178-312 nM). in young animals (postnatal days 14-17) our results were comparable to previous estimates obtained by ratiometric methods (Helmchen et al., 1996, Biophys. J. 70:1069-1081), and no significant differences were seen in older animals (P24-28). We expect our method to be widely applicable to measurements of [Ca2+] and [Ca2+]-dependent processes in small neuronal compartments, particularly in the many situations that do not permit wavelength ratio imaging.
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