Characterisation of proton fluxes across the cytoplasmic membrane of the yeast Saccharomyces cerevisiae.

We have tested the efficacy of fluorescent probes for the measurement of intracellular pH in Saccharomyces cerevisiae. Of the compounds tested (fluorescein, carboxyseminaphthorhodafluor-1 (C.SNARF-1) and 2',7'bis(carboxyethyl)-5(6')-carboxyfluorescein), C.SNARF-1 was found to be the most useful indicator of internal pH. Fluorescence microscopy showed that in Saccharomyces cerevisiae strain DAUL1, C.SNARF-1 and fluorescein had a heterogeneous distribution, with dye throughout the cytoplasm and concentration of the dye to an area close to the cell membrane. This region was also labeled by quinacrine, which is known to accumulate in acidic regions of the cell. Saccharomyces cerevisiae BJ4932, which carries a defect in vacuolar acidification, did not show the same degree of dye concentration, suggesting that the site of C.SNARF-1 and fluorescein localisation in DAUL1 is the acidic vacuole. Changes in intracellular pH could be monitored by measuring changes in the fluorescence intensity of C.SNARF-1. The addition of glucose caused an initial, rapid decrease in fluorescence intensity, indicating a rise in cellular pH. This was followed by slow acidification. Fluorescence intensity changes were similar in all strains studied, suggesting that the localisation of dye to acidic regions does not affect the measurement of intracellular pH in DAUL1. The changes in intracellular pH on the addition of glucose correlated well with glucose-induced changes in external pH. Preincubation of cells in the presence of the plasma membrane H(+)-ATPase inhibitor diethylstilbestrol reduced extracellular acidification and intracellular alkalinisation on the addition of glucose. Both amiloride and 5-(N-ethyl-N-isopropyl)amiloride also inhibited glucose-induced proton fluxes. Phorbol 12-myristate 13-acetate had no effect on the activity of the plasma membrane ATPase.     

SNARF-1 as an intracellular pH indicator in laser microspectrofluorometry: a critical assessment

The use of SNARF-1-AM (seminaphtorhodafluor-1-acetoxymethylester) to measure the internal pH of a single living cell by laser microspectrofluorometry has been analyzed with a lymphocyte murine B cell line A20. After incubation of the cells at 37 degrees C in the presence of 10 microM SNARF-1-AM, the internal concentration of SNARF-1 was approximately 200 microM. The enhancement of fluorescent intensity of the probe is concomitant with its leakage out of the cells. During the measurement period, this induces a continuous increase of the contribution of the external probe to the total fluorescence intensity. This prevented classical spectrofluorometry measurements, but did not preclude microspectrofluorometry measurements of internal pH. The ratio R was calculated from fluorescence intensities at 635 and 590 nm and used as an indicator of the intracellular pH. Calibration curves of the intracellular pH were obtained in the presence of nigericin and valinomycin. It appeared that both the fluorescence intensity and the ratio R were lower inside the cell than those values obtained in aqueous solutions. Possible interactions with the main biological macromolecules (i.e., DNA, proteins, membranes) were investigated as well as a possible compartmentation of the probe in cellular organelles. The modifications of probe characteristics inside the cells were attributed to the binding of the probe to cellular proteins. The intracellular pH of A20 cells, measured by SNARF-1 on 84 cells, was found to be 7.18 +/- 0.10 (with an external pH of 7.40 +/- 0.05), which corresponded with values obtained by conventional fluorometric methods.     

Resting myoplasmic free calcium in frog skeletal muscle fibers estimated with fluo-3.

Fluo-3 is an unusual tetracarboxylate Ca2+ indicator. For recent lots supplied by Molecular Probes Inc. (Eugene, OR), FMAX, the fluorescence intensity of the indicator in its Ca(2+)-bound form, is approximately 200 times that of FMIN, the fluorescence intensity of the indicator in its Ca(2+)-free form. (For earlier lots, impurities may account for the smaller reported values of FMAX/FMIN, 36-40). We have injected fluo-3 from a high-purity lot into intact single fibers from frog muscle and measured the indicator's absorbance and fluorescence signals at rest (A and F, respectively) and changes in absorbance and fluorescence following action potential stimulation (delta A and delta F signals substantially lagged behind that of the myoplasmic free Ca2+ transient. Our analysis of fluo-3's signals from myoplasm therefore focused on information about the level of resting myoplasmic free [Ca2+] ([Ca2+]r). From A, delta A, and in vitro estimates of fluo-3's molar extinction coefficients, the change in the fraction of fluo-3 in the Ca(2+)-bound form during activity (delta f) was estimated. From delta f, delta F, and F, the fraction of the indicator in the Ca(2+)-bound form in the resting fiber (fr) was estimated by fr = (delta f x F/delta F) + (1-FMAX/FMIN)-1. Since FMAX/FMIN is large, the contribution of the second term to the estimate of fr is small. At 16 degrees C, the mean value (mean +/- S.E.) of fr was 0.086 +/- 0.004 (N = 15). From two estimates of the apparent dissociation constant of fluo-3 for Ca2+ in the myoplasm, 1.09 and 2.57 microM, the average value of [Ca2+]r is calculated to be 0.10 and 0.24 microM, respectively. The smaller of these estimates lies near the upper end of the range of values for [Ca2+]r in frog fibers (0.02-0.12 microM) estimated by others with aequorin and Ca(2+)-selective electrodes. The larger of the estimates lies within the range of values (0.2-0.3 microM) previously estimated in this laboratory with fura red. We conclude that [Ca2+]r in frog fibers is at least 0.1 microM and possibly as large as 0.3 microM.     

Ratiometric measurement of intracellular pH in cultured human keratinocytes using carboxy-SNARF-1 and flow cytometry

In this study we describe a method to measure intracellular pH in cultured human keratinocytes using flow cytometry. Keratinocytes pose a technical problem because the population is heterogeneous with respect to size and metabolic activity (nonspecific esterase activity), resulting in variability in dye uptake. In order to compensate for this, dyes were selected that change colour with pH. The ratio of fluorescence intensities at two wavelengths was recorded and used as a measure of intracellular pH by reference to the pH in the presence of the proton ionophore nigericin. However, methods published till now do not routinely combine the ratiometric technique and excitation with an argon ion laser set at 488 nm. Therefore we have tested the recently developed pH-sensitive dye carboxyseminaphthorhodafluor-1 (SNARF-1) as a possible candidate for flow cytometric pH measurements and compared it with 2',7'-bis(carboxyethyl)-5,6-carboxyfluorescein (BCECF) and 2,3-dicyanohydroquinone (DCH) with respect to emission spectra, resolution, range, and stability of cellular fluorescence. SNARF-1 had a practical and stable excitation wavelength of 488 nm rather than UV, it offered the possibility of ratiometric measurements on the basis of a real emission shift, and had superior resolution for the pH range 7-8. With SNARF-1 we found that keratinocytes cultured under low serum conditions (0.2%) contain a higher proportion of cells with relatively low intracellular pH compared to high serum cultures (6%). Furthermore, pH changes were followed by changes in relative DNA content. These findings suggest that intracellular pH can be an early functional proliferation marker for human keratinocytes.     

牙形刺荧光特征及其在有机质成熟度研究中的意义

本文通过对江苏地区牙形刺荧光特征的研究,证实牙形刺齿部荧光强度可以作为有机民熟度的评价参数,而牙形刺荧光光谱参数则不能指示有机质的成熟度,并探讨了牙形刺齿部荧光光强度与镜组反射率之间的对应关系。     

Light-dependent Changes in Outer Segment Free-Ca2+ Concentration in Salamander Cone Photoreceptors

Simultaneous measurements of photocurrent and outer segment Ca²⁺ were made from isolated salamander cone photoreceptors. While recording the photocurrent from the inner segment, which was drawn into a suction pipette, a laser spot confocal technique was employed to evoke fluorescence from the outer segment of a cone loaded with the Ca²⁺ indicator fluo-3. When a dark-adapted cone was exposed to the intense illumination of the laser, the circulating current was completely suppressed and fluo-3 fluorescence rapidly declined. In the more numerous red-sensitive cones this light-induced decay in fluo-3 fluorescence was best fitted as the sum of two decaying exponentials with time constants of 43 ± 2.4 and 640 ± 55 ms (mean ± SEM, n = 25) and unequal amplitudes: the faster component was 1.7-fold larger than the slower. In blue-sensitive cones, the decay in fluorescence was slower, with time constants of 140 ± 30 and 1,400 ± 300 ms, and nearly equal amplitudes. Calibration of fluo-3 fluorescence in situ from red-sensitive cones allowed the calculation of the free-Ca²⁺ concentration, yielding values of 410 ± 37 nM in the dark-adapted outer segment and 5.5 ± 2.4 nM after saturating illumination (mean ± SEM, n = 8). Photopigment bleaching by the laser resulted in a considerable reduction in light sensitivity and a maintained decrease in outer segment Ca²⁺ concentration. When the photopigment was regenerated by applying exogenous 11-cis-retinal, both the light sensitivity and fluo-3 fluorescence recovered rapidly to near dark-adapted levels. Regeneration of the photopigment allowed repeated measurements of fluo-3 fluorescence to be made from a single red-sensitive cone during adaptation to steady light over a range of intensities. These measurements demonstrated that the outer segment Ca²⁺ concentration declines in a graded manner during adaptation to background light, varying linearly with the magnitude of the circulating current.     

Calcium uptake and membrane trafficking in response to PTH or 25(OH)D3 in polarized intestinal epithelial cells

Cell culture techniques providing retention of the polarized enterocyte morphology has allowed, for the first time, comparison of parathyroid hormone (PTH)- and 25-hydroxyvitamin D(3) [25(OH)D(3)]-induced (45)Ca uptake with membrane trafficking events discerned using confocal microscopy. Treatment of cells with 65 pM bPTH(1-34) promoted enhanced (45)Ca uptake between 1 and 10 min after peptide. The protein kinase A (PKA) antagonist, RpcAMP inhibited hormone-mediated uptake. At the microscopic level, cells labeled with the endocytic tracking dye FM1-43 revealed increased punctate staining 50-550s after hormone. Pretreatment of cells with RpcAMP abolished this pattern of staining. The calcium indicator dye fluo-3 AM revealed faint punctate labeling in controls, with increased bands of punctate labeling in the apical region of the cells after peptide hormone, and ultimately the basal region. Parallel studies conducted with the metabolite 25(OH)D(3) resulted in a slower stimulation of (45)Ca uptake 5-10 min after steroid, which was also inhibited by preincubation with RpcAMP. Cells labeled with FM1-43 and then treated with steroid showed no change in distribution of fluorescence during the 10 min incubation period. Confocal microscopy with fluo-3 revealed intense apical fluorescence--that after steroid --streamed to a perinuclear position, and ultimately the basal area. Uniformly diffuse staining, which would indicate cytoplasmic calcium transport, was observed only in controls. Membrane trafficking and compartmentalized calcium appear to be integral to agonist mediated cation transport.     

Fluorescent indicators for cytosolic calcium based on rhodamine and fluorescein chromophores

A new group of fluorescent indicators with visible excitation and emission wavelengths has been synthesized for measurements of cytosolic free Ca2+. The five compounds, "rhod-1," "rhod-2," "fluo-1," "fluo-2," and "fluo-3" (Figs. 2 and 3), combine the 8-coordinate tetracarboxylate chelating site of 1,2-bis(2-amino-phenoxyethane-N,N,N',N'-tetraacetic acid with a xanthene chromophore to give a rhodamine-like or fluorescein-like fluorophore. Binding of Ca2+ increases the fluorescence by up to 40-fold. The Ca2+ dissociation constants are in the range 0.37-2.3 microM, so that the new indicators should give better resolution of high [Ca2+] levels than previously obtainable with quin-2 or fura-2. The visible excitation wavelengths of the new compounds are more convenient for fluorescence microscopy and flow cytometry than the UV required by previous indicators. However, the new dyes' increase in fluorescence upon binding calcium is not accompanied by a wavelength shift, so they are unsuitable for measurements using ratios at two wavelengths. The most promising dye of this series is fluo-3, whose initial biological testing in fibroblasts is described in the following paper (Kao, J. P. Y., Harootunian, A. T., and Tsien, R. Y. (1989) J. Biol. Chem. 264, 8171-8178).     

双重荧光染色监测听毛细胞游离钙

Calcium distribution and mobilization during mechanical stimulation in outer hair cells of the guinea pig were monitored using laser scanning confocal microscopy and co-loaded fluo-3 and fura-red fluorescent probes. Spatial calcium gradients were revealed among various subcellular areas. The ratios of the fluorescence intensity of fluo-3 and fura-red were 1.71 +/- 0.85, 1.61 +/- 0.75, 1.47 +/- 0.65 and 1.39 +/- 0.66 for the cytoplasm, the cytoplasmic membrane, the cuticular plate and the nucleus respectively, indicating that free calcium ion concentrations are the highest in the cytoplasm and the lowest in the nucleus. While the calcium concentration remained relatively constant under resting conditions, it increased during mechanical stimulation. The results show that confocal ratio imaging of fluo-3 and fura-red enables us to determine more accurately the subcellular calcium distribution and that the calcium ions make a contribution to the mechanic-electrical transduction in hair cells.     

Caffeine interaction with fluorescent calcium indicator dyes.

We report that caffeine, in millimolar concentrations, interacts strongly with four common calcium indicator dyes: mag-fura-2, magnesium green, fura-2, and fluo-3. Fluorescence intensities are either noticeably enhanced (mag-fura-2, fura-2) or diminished (magnesium green, fluo-3). The caffeine-induced changes in the fluorescence spectra are clearly distinct from those of metal ion binding at the indicator chelation sites. Binding affinities for calcium of either mag-fura-2 or magnesium green increased only slightly in the presence of caffeine. Caffeine also alters the fluorescence intensities of two other fluorescent dyes lacking a chelation site, fluorescein and sulforhodamine 101, implicating the fluorophore itself as the interaction site for caffeine. In the absence of caffeine, variation of solution hydrophobicity by means of water/dioxane mixtures yielded results similar to those for caffeine. These observations suggest that hydrophobic substances, in general, can alter dye fluorescence in a dye-specific manner. For the particular case of caffeine, and perhaps other commonly used pharmacological agents, the dye interactions can seriously distort fluorescence measurements of intracellular ion concentrations with metal indicator dyes.     

应用重组表达钙离子敏感蛋白YC2.1研究粟酒裂殖酵母细胞内钙离子浓度的分布

把重组表达钙离子敏感蛋白的YC2．1基因（yellow cameleon 2．1）导入了粟酒裂殖酵母中,观察了粟酒裂殖酵母细胞内钙离子浓度的分布。结果发现,钙离子敏感蛋白所指示的钙离子呈细胞周缘胞质较高浓度分布,而在细胞胞质中部的钙离子浓度相对低一些。通过DAPI染色实验证实这是由于胞质中部细胞核的填充而形成。fluo-3染色的裂殖酵母细胞,由于fluo-3进入到细胞器（房室化现象）,所以出现胞质的内部区域高的荧光信号,而在周缘的胞质区相对弱,不能真实反应胞质钙离子的分布。因此重组表达钙离子敏感蛋白测定钙离子的方法优于fluo-3荧光探针的方法,对于裂殖酵母细胞胞内钙离子的研究具有良好的应用前景。     

Localization of calcium during somatic embryogenesis of carrot (Daucus carota L.)

Summary The distribution of free cytosolic Ca²⁺ was studied during somatic embryogenesis of carrot using confocal scanning laser microscopy with fluo-3 as a fluorescent Ca²⁺ indicator. Chlorotetracycline fluorescence, antimonate precipitation and proton induced X-ray emission analysis were used as additional methods to confirm the results obtained with fluo-3. The process of embryogenesis was found to coincide with a rise in the level of free cytosolic Ca²⁺. The level of Ca²⁺ was low in proembryogenic masses and relatively high in later stages of embryogenesis. The highest signal was found in the protoderm of embryos from the late globular to the torpedo-shaped stage. A gradient in fluorescence intensity was often observed along the longitudinal axis of the embryos. The most conspicuous intracellular signal was found in the nucleus. Other organelles did not take up the dye and were always without fluorescence. The changes in [Ca²⁺]_c are discussed in relation to physiological processes which are known to be important during somatic embryogenesis.This article is dedicated to the memory of the late Dr. Hans-Dieter Reiss.     

Ca2+ stimulates COX-2 expression through calcium-sensing receptor in fibroblasts

Fibroblasts isolated from jaw cysts expressed calcium-sensing receptor (CasR). In the fibroblasts elevated extracellular Ca(2+) ([Ca(2+)](o)) increased fluo-3 fluorescence intensity, and the production of inositol(1,4,5)trisphosphate and active protein kinase C. Phospholipase C inhibitor U-73122 attenuated the Ca(2+)-induced increase in fluo-3 fluorescence intensity. Elevated [Ca(2+)](o) enhanced the expression of cyclooxygenase-2 (COX-2) mRNA and protein, and the secretion of prostaglandin E(2) in the fibroblasts. CasR activator neomycin also increased the expression of COX-2 mRNA, and U-73122 attenuated the Ca(2+)-induced expression of COX-2 mRNA. Elevated [Ca(2+)](o)-induced phosphorylation of extracellular signal-regulated protein kinase-1/2 (ERK1/2), p38 mitogen-activated protein kinase (MAPK), and c-Jun N-terminal kinase (JNK), and U-73122 inhibited the Ca(2+)-induced phosphorylation. The inhibitors for each kinase, PD98059, SB203580, and SP600125, attenuated the Ca(2+)-induced expression of COX-2 mRNA. These results suggest that in jaw cyst fibroblasts elevated extracellular Ca(2+) may enhance COX-2 expression via the activation of ERK1/2, p38 MAPK, and JNK through CasR.     

Cytosolic and intranuclear calcium signals in rat basophilic leukemia cells as revealed by a confocal fluorescence microscope.

A confocal fluorescence microscope with an argon-ion laser (488 nm) and a He-Cd laser (325 nm) was used to study spatial heterogeneity of the calcium signals in rat basophilic leukemia 2H3 cloned cell line (RBL-2H3). After stimulation with antigen (2,4-dinitrophenol-conjugated bovine serum albumin), fluo-3-fluorescence intensities increased in individual RBL-2H3 cells with different lag times. Time-dependent profiles of the fluo-3-fluorescence intensities resembled closely the patterns of the sequential fluorescence-ratio images of fura-2, which were used to measure the intracellular free-calcium concentration ([Ca2+]i) in individual RBL-2H3 cells using a conventional fluorescence microscope. The present results obtained using the confocal fluorescence microscope showed spatial heterogeneities of fluo-3-fluorescence intensities, suggesting the existence of spatial heterogeneity of [Ca2+]i in RBL-2H3 cells. That is, the results showed that calcium signals first occurred transiently at pseudopodia in RBL-2H3 cells, then the signals transferred to the central parts of the cells. In addition, from the fluorescence images of co-loaded Hoechst 33342 (bisbenzimide H 33342, a DNA-specific probe) which were produced by excitation with a He-Cd laser, it was found that the fluorescence images of the nucleus were quite similar to those of the calcium signals mentioned above. This suggested that the receptor-mediated calcium signals were transferred not only to the cytoplasm but also to the nucleus.     

Comparison of simulated and measured calcium sparks in intact skeletal muscle fibers of the frog

Calcium sparks in frog intact skeletal muscle fibers were modeled as stereotypical events that arise from a constant efflux of Ca(2+) from a point source for a fixed period of time (e.g., 2.5 pA of Ca(2+) current for 4.6 ms; 18 degrees C). The model calculates the local changes in the concentrations of free Ca(2+) and of Ca(2+) bound to the major intrinsic myoplasmic Ca(2+) buffers (troponin, ATP, parvalbumin, and the SR Ca(2+) pump) and to the Ca(2+) indicator (fluo-3). A distinctive feature of the model is the inclusion of a binding reaction between fluo-3 and myoplasmic proteins, a process that strongly affects fluo-3's Ca(2+)-reaction kinetics, its apparent diffusion constant, and hence the morphology of sparks. DeltaF/F (the change in fluo-3's fluorescence divided by its resting fluorescence) was estimated from the calculated changes in fluo-3 convolved with the microscope point-spread function. To facilitate comparisons with measured sparks, noise and other sources of variability were included in a random repetitive fashion to generate a large number of simulated sparks that could be analyzed in the same way as the measured sparks. In the initial simulations, the binding of Ca(2+) to the two regulatory sites on troponin was assumed to follow identical and independent binding reactions. These simulations failed to accurately predict the falling phase of the measured sparks. A second set of simulations, which incorporated the idea of positive cooperativity in the binding of Ca(2+) to troponin, produced reasonable agreement with the measurements. Under the assumption that the single channel Ca(2+) current of a ryanodine receptor (RYR) is 0.5-2 pA, the results suggest that 1-5 active RYRs generate an average Ca(2+) spark in a frog intact muscle fiber.     

Novel fluo-4 analogs for fluorescent calcium measurements

We report new fluorescent calcium indicators based on fluo-4. Attachment of a carboxamide or methylenecarboxamide moiety to the BAPTA chelator portion of fluo-4 allowed for the attachment of dextrans, protein-reactive moieties, and biotin. In particular, a high affinity fluo-4 dextran conjugate was prepared and shown to be functional in brain slices. All new probes were characterized spectroscopically and exhibited large fluorescence increases upon calcium-binding. The biotinylated version of fluo-4 formed a persistent streptavidin complex which still responded to increasing calcium concentrations with a large fluorescence increase.     

Brevetoxin-induced autocrine excitotoxicity is associated with manifold routes of Ca2+ influx

Real-time alterations in intracellular Ca2+ ([Ca2+]i) were monitored in fluo-3-loaded cerebellar granule neurons (CGNs) exposed to the brevetoxin PbTx-1. [Ca2+]i was measured using a fluorescent plate reader (FLIPR), which measures simultaneously the mean intracellular Ca2+ change in a population of cultured cells in each well of a 96-well plate. PbTx-1 produced rapid and concentration-dependent increases in neuronal [Ca2+]i with a potency nearly identical to that determined previously for PbTx-1-induced neurotoxicity. The NMDA receptor antagonists MK-801, dextrorphan, and D(-)-2-amino-5-phosphonopentanoic acid, and tetanus toxin, an inhibitor of Ca2+-dependent exocytotic neurotransmitter release, effected significant reductions in both the integrated fluo-3 fluorescence response and excitatory amino acid release and protected CGNs against PbTx-1 neurotoxicity. The L-type Ca2+ channel antagonist nifedipine produced a modest reduction in the fluo-3 response but reduced substantially the plateau phase of the PbTx-1 increment in [Ca2+]i when combined with MK-801. When nifedipine and MK-801 were combined with the Na+/Ca2+ exchanger (reversed mode) inhibitor KB-R7943, the PbTx-1 increment in [Ca2+]i was nearly completely attenuated. These data show that Ca2+ entry into PbTx-1-exposed CGNs occurs through three primary routes: NMDA receptor ion channels, L-type Ca2+ channels, and reversal of the Na+/Ca2+ exchanger. There was a close correlation between reduction of the integrated fluo-3 fluorescence response and the level of neuroprotection afforded by blockers of each Ca2+ entry pathway; however, simultaneous blockade of L-type Ca2+ channels and the Na+/Ca2+ exchanger, although reducing the integrated [Ca2+]i response to a level below that provided by NMDA receptor blockade alone, failed to completely attenuate PbTx-1 neurotoxicity. This finding suggests that in addition to total [Ca2+]i load, neuronal vulnerability is governed principally by the NMDA receptor Ca2+ influx pathway.     

Structure-function relationships of Ca spark activity in normal and failing cardiac myocytes as revealed by flash photography

We describe the two-dimensional imaging of excitation-induced Ca gradients in isolated myocytes under physiological conditions, using a novel method of flash photography of fluo-3 fluorescence. This method is useful for showing the spatial distribution and reproducibility of rapidly triggered Ca release events, and their relationship to underlying structures. In normal rat myocytes, Ca sparks were evident 6ms after stimulation emerging from around t-tubules, as judged by co-localization with di-8-ANEPPS staining. Gaps in the spark pattern coincided with gaps in di-8-ANEPPS staining. Vacuolar fluo-3 uptake, previously identified as lysosomal, was prominent in some of the gaps, suggesting possible areas of t-tubule turnover. In normal dog myocytes, the beat-to-beat variance of Ca sparks was very low, t-tubular voids were small, and Ca gradients resolved rapidly. In myocytes from dogs with failure induced by rapid pacing, a reduced Ca transient was observed associated with increased areas that were void of sparks and t-tubules, and a greater beat-to-beat spark variance. These abnormalities resulted in a non-uniform spatial distribution of sparks, leading to Ca gradients across the cell that persisted for longer times after stimulation. Such Ca gradients could cause heterogeneous contraction and contribute to contractile failure.     

A comparative assessment of fluo Ca2+ indicators in rat ventricular myocytes

The fluo family of indicators is frequently used in studying Ca(2+) physiology; however, choosing which fluo indicator to use is not obvious. Indicator properties are typically determined in well-defined aqueous solutions. Inside cells, however, the properties can change markedly. We have characterized each of three fluo variants (fluo-2MA, fluo-3 and fluo-4) in two forms-the acetoxymethyl (AM) ester and the K(+) salt. We loaded indicators into rat ventricular myocytes and used confocal microscopy to monitor depolarization-induced fluorescence changes and fractional shortening. Myocytes loaded with the indicator AM esters showed significantly different Ca(2+) transients and fractional shortening kinetics. Loading the K(+) salts via whole-cell patch-pipette eliminated differences between fluo-3 and fluo-4, but not fluo-2MA. Cells loaded with different indicator AM esters showed different staining patterns-suggesting differential loading into organelles. Ca(2+) dissociation constants (K(d,Ca)), measured in protein-rich buffers mimicking the cytosol were significantly higher than values determined in simple buffers. This increase in K(d,Ca) (decrease in Ca(2+) affinity) was greatest for fluo-3 and fluo-4, and least for fluo-2MA. We conclude that the structurally-similar fluo variants differ with respect to cellular loading, subcellular compartmentalization, and intracellular Ca(2+) affinity. Therefore, judicious choice of fluo indicator and loading procedure is advisable when designing experiments.