Dd. Mckemy et al., Concentrations of caffeine greater than 20 mM increase the indo-1 fluorescence ratio in a Ca2+-independent manner, CELL CALC, 27(2), 2000, pp. 117-124
The methylxanthine, caffeine, quenches the fluorescence of the ratiometric
Ca2+ indicator indo-1, but does not affect the ratio (R) of indo-1 fluoresc
ence at 400 and 500 nm in the presence of caffeine concentrations up to 10
mM [1]. We have found that when caffeine is at concentrations of 20 mM or g
reater in vitro, or in saponin-permeabilized skeletal muscle fibers, a Ca2-independent increase in R occurs, which leads to an overestimation of the
free Ca2+ concentration. Depending on experimental conditions, two factors
contribute to the alteration in R in vitro. First, when indo-1 fluorescence
is low, fluorescence by caffeine, at 400 nm, can be significant. A second,
and more dramatic effect, is that quenching of indo-1 fluorescence by 20-5
0 mM caffeine is dissimilar at 400 and 500 nm. Quenching at 500 nm is not l
inear, with respect to the concentration of caffeine, and causes a Ca2+-ind
ependent increase in R, that occurs even when the fluorescence of caffeine
is a small portion of total fluorescence. However, unlike R, the Ca2+ calib
ration constant of indo-1, K(D)beta, is unchanged in 50 mM caffeine. Theref
ore, an accurate quantitation of Ca2+ in the presence of even high concentr
ations of caffeine can be made in vitro by determining the Ca2+ calibration
factors of indo-1 (R-MIN and R-MAX) for each caffeine concentration. These
effects of concentrations of caffeine greater than 20 mM are not observed
in intact cells loaded with the cell permeant form of indo-1 when caffeine
is applied extracellularly. This suggests either that the concentration of
caffeine within the cell does not reach that necessary to produce the effec
t, or that the effects of caffeine on the dye are modified by the environme
nt within the cell. (C) 2000 Harcourt Publishers Ltd.