Reduced PO2 alters the behavior of Fura-2 and Indo-1 in bovine pulmonary artery endothelial cells.

Calcium-sensitive fluorophores are used to estimate cytosolic free Ca2+ in many cell types under various conditions. We tested the effect of reduced PO2 on the behavior of Fura-2 and Indo-1 in cultured bovine pulmonary artery endothelial cells. Reduced PO2 (PO2 25-35 mmHg) caused a significant upward shift of in vivo calibration curves for both fluorophores. The in vivo emission spectrum of Fura-2 indicated that the effect was principally due to attenuated emission at the Ca(2+)-unbound 380 nm wavelength, with no shift in position of the emission maxima for either Ca(2+)-bound or unbound forms of the fluorophore. Reduced PO2 did not directly alter the behavior of the dyes, as no shift of in vitro calibration curves was seen. Neither decreased photobleaching nor altered autofluorescence accounted for the shift. We investigated several potential indirect effects, including cellular acidification, reduced viscosity, inhibition of oxidative energy production and reductive stress. In contrast to lowered PO2, acidification in vitro produced a leftward but not an upward shift. Estimation of intracellular pH with SNAFL-calcein under reduced PO2 showed no apparent acidification in these cells, further strengthening the argument that altered intracellular pH was not causing the shift. Others have shown that decreases in viscosity in vitro may shift the calibration curve for Fura-2 upward, similar to our finding with reduced PO2. However, for Indo-1 we found that decreased viscosity in vitro attenuated fluorescence emission at the Ca(2+)-bound 405 nm wavelength, thus producing the opposite effect on fluorescence ratio and indicating that reduced PO2 was not acting through changes in cellular microviscosity.(ABSTRACT TRUNCATED AT 250 WORDS)