Evidence for mitochondrial localization of the hormone-responsive pool of Ca2+ in isolated hepatocytes.

Conditions are described that allow chlortetracycline, a fluorescent probe of membrane-associated Ca2+, to monitor the content of the major exchangeable pool of intracellular Ca2+ present in the isolated rat hepatocyte. Chlortetracycline fluorescence is decreased in cells whose Ca2+ content is diminished by treatment either with carbonylcyanide-m-chlorophenylhydrazone or with ionophore A23187. Norepinephrine releases Ca2+ from this exchangeable pool and decreases both the fluorescence signal and its subsequent response to A23187. Previous suggestions that chlortetracycline fluorescence is localized in the mitochondria of liver and other cells is supported by comparison of the fluorescence that follows the addition of chlortetracycline to intact hepatocytes and to isolated hepatic microsomes and mitochondria. Identification of the hormone-responsive pool of Ca2+ with the mitochondria is strengthened by comparison of the total calcium content of mitochondria isolated from control and hormone-treated animals. The uptake and release of Ca2+ in control and hormone-treated hepatocytes rendered permeable by treatment with digitonin is also consistent with this interpretation.     

Fluorescence response in chlortetracycline-loaded neutrophils measures release of Ca2+ from intracellular membrane enclosed storage sites

Chlortetracycline complexes with di- and trivalent cations resulting in an enhancement of its fluorescence emission intensity. Rabbit peritoneal neutrophils loaded with chlortetracycline gave a fluorescence response, even in the absence of extracellular Ca2+ and Mg2+, by a decrease in fluorescence intensity. The shift in the fluorescence emission maximum to lower wavelengths after the response suggested the response to be due to Ca2+ and not Mg2+ flux. The response was elicited by three mechanisms--a receptor-mediated mechanism by the chemotactic peptide, an ionophore-mediated one by lasalocid, and a detergent-mediated response by digitonin. These observations indicated that the response was due to transport of calcium across membranes in the intracellular compartments and may be physiologically significant. Whereas extracellular Ca2+ did not significantly affect the chemotactic peptide and lasalocid-mediated responses, Ca2+ inhibited the digitonin-mediated responses in a dose-dependent manner possibly due to extracellular Ca2+ flooding the cytosol through the digitonin-permeabilized plasma membrane and equilibrating the Ca2+ gradient across the intracellular membranes. The data collectively indicate that the fluorescence response is due to release of Ca2+ across intracellular membranes from a Ca2+ storage site into the cytosol.     

Involvement of protein kinase C in the regulation of Ca2+ exit from intracellular stores of prolactin stimulated pig oocytes

Involvement of protein kinase C in the regulation of Ca2+ exit from intracellular stores of pig oocytes activated by prolactin was investigated, using the fluorescent dye chlortetracycline. In the presence of extracellular calcium, the inhibitor of protein kinase C Ro 31-8220 increased calcium exit from intracellular stores in pig oocytes after prolactin treatment. In calcium-free medium, Ro 31-8220 exerted effect on calcium release from intracellular stores. In calcium-free medium, prolactin did not stimulate calcium release from intracellular stores of oocytes in the presence of thimerosal, while in the presence of protein kinase C inhibitor, prolactin increased Ca2+ content from intracellular stores in such oocytes. These data suggest a direct involvement of protein kinase C in the processes of regulation of Ca2+ exit from intracellular stores of pig oocytes stimulated by prolactin.     

Studies on the Ca2+ transport mechanism of human erythrocyte inside-out plasma membrane vesicles V. Chlortetracycline fluorescence

The measurement of chlortetracycline fluorescence was employed as a probe for measuring the process to calcium transport by human erythrocyte inside-out vesicles. Chlortetracycline is a divalent metal chelator which increases its fluorrescence when bound to calcium in the presence of a membrane. Addition of calcium and ATP to inside out vesicles in the presence of chlortetracycline increased the chlortetracycline fluorescence as a function of time following an initial delay. Only after a threshold level of calcium had been accumulated did the fluorescence increase. The presence of both ATP and calcium were required. The addition of calmodulin increased the rate and absolute magnitude of the chlortetracycline fluorescence change. Similarly, calmodulin stimulated the rate and extent of ⁴⁵Ca transport by inside-out vesicles. Moreover, the presence of saponin abolished both chlortetracycline fluorescence change and ⁴⁵Ca uptake; a non-hydrolyzable ATP analog would not substitute for ATP in either ⁴⁵Ca transport or chlortetracycline fluorescence experiments. Comparison between the slopes of the linear portions of chlortetracycline fluorescence change and calcium transport time courses at varied free calcium concentrations showed a consistent ratio between the slopes. This suggests that calcium transport change can be calibrated by employing chlortetracycline fluorescence. Based on this data, it is concluded that chlortetracycline fluorescence is a rapid and accurate method for monitoring calcium transport by human erythrocyte inside-out vesicles.     

The role of intracellular Ca(2+) pools in the regulation of protoplast volume. Effect of red light on the Ca(2+) mobilization in cytoplasm of Arabidopsis cells

The changes in cytosol Ca2+ concentration associated with the shrinkage of Arabidopsis cells induced by the inhibitor of Ca(2+)-ATPase, cyclopiazonic acid and the Ca2+ ionophore ionomycin were monitored using the fluorescence of Ca(2+)-sensitive probe chlortetracycline hydrochloride. It was found that these compounds elicited a substantial decrease in fluorescence intensity closely associated with Ca(2+)-release from the intracellular stores to the cytoplasm. The release of Ca2+ from the intracellular depots was accompanied by decrease of plant cell volume. Thapsigargin and 2,5'-ditert-butyl-1,4-benzohydroquinone (highly specific inhibitors of Ca(2+)-ATPase of endoplasmic reticulum) resulted in much weaker changes than cyclopiazonic acid did. It was also found with the help of the same technique that red light (lambda = 660 nm) illumination induced a similar Ca2+ release from the intracellular stores. Moreover, the amplitudes of light-induced fluorescence responses registered in mutant plants differing in the content of phytochrome A (phyAOX) and phytochrome B (phyBOX) were much higher than those registered in wild-type of Arabidopsis.     

Redistribution of intracellular Ca2+ in mitogen-stimulated human peripheral blood lymphocytes

The fluorescent probe chlortetracycline (CTC) was used to investigate redistribution of intracellular Ca2+ in concanavalin A (Con A)-stimulated human peripheral blood lymphocytes. The addition of the mitogen to CTC-equilibrated lymphocytes induced (within 10 to 15 minutes) a Con A-concentration dependent decrease in CTC fluorescence indicating the release of membrane-bound Ca2+. The effect was independent of the level of extracellular Ca2+ and could be observed in the presence of EGTA; it was suppressed by the metabolic inhibitors FCCP, antimycin and sodium cyanide. Analysis of the excitation spectra of CTC fluorescence indicated that the observed effect is caused by redistribution of intracellular Ca2+ rather than Mg2+. Thus the lectin interaction with the lymphocyte plasma membrane results in Ca2+ release into the cytosol from the intracellular stores.     

Influence of ryanodine and inositol trisphosphate receptors inhibitions on Ca2+ exit from intracellular stores of porcine oocytes stimulated by prolactin and GTP

The influence of ryanodine and inositol triphosphate receptors inhibitors on Ca2+ exit from intracellular stores of porcine oocytes stimulated by prolactin and GTP was investigated using fluorescent dye chlortetracycline. Porcine oocytes were isolated from ovaries with yellow body. Ca2+ exit from intracellular stores of porcine oocytes activated by prolactin (5 and 50 ng/ml) in calcium free medium was decreased after treatment of oocytes by heparin (inhibitor of inositol triphosphate receptors) and was not changed after treatment of oocytes by ruthenium red (inhibitor of ryanodine receptors). Inhibition of protein kinase C did not affect on the Ca2+ exit stimulated by prolactin. GTP did not stimulate Ca2+ exit from intracellular stores of pig oocytes, and inhibitors of both calcium channels and proteinkinase C had no influence on this process. The joint action of prolactin and GTP did not result in additional Ca2+ exit from intracellular stores of oocytes after both pretreatment and untreatment by the inhibitor of protein kinase C. The data obtained testify to activation of IP3-sensitive receptors under effect of prolactin and in the absence of GTP influence on these receptors.     

Dependence of Ca2+ release from intracellular stores on NADH and FAD levels in fertilized and unfertilized bovine oocytes

Relation between NADH and FAD concentrations and the quantity of calcium released from intracellular stores in fertilized and unfertilized bovine oocytes was investigated using luminescent analysis. Inhibition of Ca2+ exit from intracellular stores was detected in degenerative oocytes at metaphase II and 2-cell embryos. The intensity of both NADH and FAD fluorescence increased in 2-cell degenerated embryos, whereas the increase in only NADH fluorescence intensity occurred in degenerated oocytes at metaphase II stage. Degeneration exerted no influence on NADH fluorescence intensity or Ca2+ exit from intracellular stores, whereas a decreased FAD fluorescence intensity was noted in degenerated pronuclei. The obtained data testify that in degenerated zygotes and early embryos Ca2+ release may occur from different intracellular stores.     

Effects of platelet-derived growth factor on Ca2+ in 3T3 cells

The effect of platelet-derived growth factor (PDGF) on cellular Ca2+ was examined in BALB/c-3T3 cells. PDGF induced: A decrease in cell 45Ca2+ content. An apparent increased rate of efflux of preloaded 45Ca2+. A decrease in residual intracellular 45Ca2+ remaining after rapid efflux. When added after the rapid phase of efflux of 45Ca2+ had occurred, an immediate decrease in post-efflux residual intracellular 45Ca2+. All of the observed changes in 45Ca2+ induced by PDGF are consistent with a rapid release of Ca2+ from an intracellular Ca2+ pool that has the slowest efflux and is relatively inaccessible to extracellular EDTA. When incubated with chlortetracycline (CTC), a fluorescent Ca2+ probe, 3T3 cell mitochondria became intensely fluorescent. Addition of PDGF resulted in a rapid decrease in CTC fluorescence intensity in both adherent and suspended 3T3 cells. The effects of PDGF on 3T3 cell Ca2+ stores and CTC fluorescence intensity were identical with the effects of the Ca2+ ionophore A23187 and of the proton ionophore carbonyl cyanide m-chlorophenyl hydrazone. Serum, which contains PDGF, also altered intracellular Ca2+ stores, but platelet-poor plasma, which does not contain PDGF, had no effect. EGF, insulin, and tetradecanoyl phorbol acetate (TPA), other factors which stimulate 3T3 cell growth, did not alter 3T3 cell Ca2+ stores. Release of Ca2+ from intracellular sequestration sites may be a mechanism by which PDGF stimulates cell growth.     

Immunoglobulin E receptor cross-linking induces oscillations in intracellular free ionized calcium in individual tumor mast cells

Fura-2 fluorescence in single rat basophilic leukemia cells was monitored to study the rise in intracellular free ionized calcium ([Ca2+]i) produced by aggregation of immunoglobulin E receptors. Repetitive transient increases in [Ca2+]i were induced by antigen stimulation and were measured using digital video imaging microscopy at high time resolution. The [Ca2+]i oscillations were not dependent upon changes in the membrane potential of the cells and were observed in cells stimulated with antigen either with or without extracellular Ca2+. Transient oscillations in [Ca2+]i were also observed when calcium influx was blocked with La3+. These results suggested that during antigen stimulation of cells under normal physiological conditions, release of Ca2+ from intracellular stores makes an important contribution to the initial increase in [Ca2+]i. Oscillations in [Ca2+]i are not induced by elevating [Ca2+]i with the calcium ionophore ionomycin. Mitochondrial calcium buffering is not required for [Ca2+]i oscillations to occur. The results show that rat basophilic leukemia cells have significant stores of calcium and that release of calcium from these stores can participate in both the initial rise and the oscillations in [Ca2+]i.     

Optical response of the indicator chlortetracycline to membrane potential

Chlortetracycline is a fluorescent, Ca2+ indicator commonly used to monitor the internal Ca2+ concentration of membrane vesicles and organelles. We have found that the intensity of chlortetracycline fluorescence in the presence of Ca2(+)-loaded liposomes is dependent on the membrane potential of the vesicles as well as the intravesicular Ca2+ concentration. The fluorescence of chlortetracycline was lower when an inside-negative membrane potential was placed across the liposome membrane. Since chlortetracycline diffuses across the membrane in the zwitterionic form, the distribution of chlortetracycline across the membrane should not be strongly dependent on the membrane potential. However, because the proton permeability of phospholipid vesicles is relatively high, the intravesicular proton concentration is dependent on the membrane potential. The binding of Ca2+ to chlortetracycline is dependent on pH in the range of pH 6 to pH 8. Therefore, changes in the intravesicular pH as a result of a change in the membrane potential causes relatively large changes in the chlortetracycline fluorescence signal even when there isn't a change in the Ca2+ concentration.     

Effects of guanine nucleotides and protein kinase C on prolactin-stimulated release of Ca from intracellular stores of pig oocytes

The effects of guanine nucleotides and protein kinase C on prolactin-stimulated Ca2+ release from intracellular stores of pig oocytes were studied using the fluorescent dye chlorotetracycline. The effect of prolactin was related to the protein kinase C activation. Inhibition of protein kinase C stimulated Ca2+ release from intracellular stores of the pig oocytes treated with 5 ng/ml prolactin in the presence of extracellular Ca2+ and inhibited Ca2+ release from intracellular stores of the pig oocytes treated with 50 ng/ml prolactin. In a Ca2+-free medium, prolactin did not stimulate Ca2+ release from intracellular stores of the oocytes treated with GDP in the presence of GDP. GTP inhibition of protein kinase C activated Ca2+ release from intracellular stores of the pig oocytes treated with 5 ng/ml prolactin and inhibited Ca2+ release from intracellular stores of the pig oocytes treated with 50 ng/ml prolactin. These data suggest the influence of guanine nucleotides and protein kinase C on calcium metabolism, stimulated by prolactin.     

Monitoring of the activation of receptor-operated calcium channels in human platelets

Activation of receptor-operated calcium channels has been monitored by measurements of the quenching of the fluorescence of intracellularly trapped fura-2 by Mn entering from the extracellular medium. Release of calcium from intracellular stores was followed simultaneously by measurements of the ratio of the fluorescence excited at 340 and 380 nm. Thrombin, ADP, platelet-activating-factor (PAF) and collagen, all produced both release of calcium from the intracellular stores and uptake of Mn from the extracellular medium. The uptake of Mn, but not the increase of (Ca2+)i, was blocked by nickel. These results suggest the existence of plasma membrane calcium channels which can be activated by the different agonists tested here. The activation of calcium channels was very fast and transient with ADP and PAF, fast and maintained with thrombin, and delayed with collagen.     

The influence of guanine nucleotides and protein kinase C on Ca2+ from intracellular stores of pigs oocytes stimulated by theophylline and cyclic AMP

Effect of guanine nucleotides and protein kinase C on Ca2+ exit from intracellular stores of pig oocytes, stimulated by theophylline and dbcAMP, was investigated using fluorescent dye chlortetracycline. Effect of cAMP on Ca2+ exit from intracellular stores of pig oocytes was not associated with activation of protein kinase C. In calcium-free medium, cAMP does not stimulate Ca2+ exit from intracellular stores of pig oocytes treated with GDP. In the presence of GDP, inhibition of protein kinase C activates Ca2+ exit from intracellular stores of pig oocytes on the action of cAMP. These data suggest the existence of different effects of guanine nucleotides on Ca2+ exit from intracellular stores of pig oocytes stimulated by cAMP.     

A spirochete surface protein uncouples store-operated calcium channels in fibroblasts: a novel cytotoxic mechanism

The cytotoxicity of infectious agents can be mediated by disruption of calcium signaling in target cells. Outer membrane proteins of the spirochete Treponema denticola, a periodontal pathogen, inhibit agonist-induced Ca(2+) release from internal stores in gingival fibroblasts, but the mechanism is not defined. We determined here that the major surface protein (Msp) of T. denticola perturbs calcium signaling in human fibroblasts by uncoupling store-operated channels. Msp localized in complexes on the cell surface. Ratio fluorimetry showed that in cells loaded with fura-2 or fura-C18, Msp induced cytoplasmic and near-plasma membrane Ca(2+) transients, respectively. Increased conductance was confirmed by fluorescence quenching of fura-2-loaded cells with Mn(2+) after Msp treatment. Calcium entry was blocked with anti-Msp antibodies and inhibited by chelating external Ca(2+) with EGTA. Msp pretreatment reduced the amplitude of [Ca(2+)](i) transients upon challenge with ATP or thapsigargin. In experiments using cells loaded with mag-fura-2 to report endoplasmic reticulum Ca(2+), Msp reduced Ca(2+) efflux from endoplasmic reticulum stores when ATP was used as an agonist. Msp alone did not induce Ca(2+) release from these stores. Msp inhibited store-operated influx of extracellular calcium following intracellular Ca(2+) depletion by thapsigargin and also promoted the assembly of subcortical actin filaments. This actin assembly was blocked by chelating intracellular Ca(2+) with 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid acetoxymethyl ester. The reduced amplitude of agonist-induced transients and inhibition of store-operated Ca(2+) entry due to Msp were reversed by latrunculin B, an inhibitor of actin filament assembly. Thus, Msp retards Ca(2+) release from endoplasmic reticulum stores, and it inhibits subsequent Ca(2+) influx by uncoupling store-operated channels. Actin filament rearrangement coincident with conformational uncoupling of store-operated calcium fluxes is a novel mechanism by which surface proteins and toxins of pathogenic microorganisms may damage host cells.     

Effects of Ca2+-ATPase inhibitors, ionomycin, and pharmacological modulators of ryanodine receptor on calcium release from intracellular pools and on oscillatory contractile behavior in Physarum polycephalum

Changes in calcium levels in organelles of the plasmodium of the myxomycete Physarum polycephalum were analyzed using the fluorescent calcium indicator chlortetracycline (CTC). Both the Ca2+-ATPase inhibitor 2,5;-di(tert-butyl)-1,4-benzohydroquinone (BHQ) (100 microM) and the calcium ionophore ionomycin (1 microM) induce a significant decrease in fluorescence level (by 30%) in CTC-stained microplasmodia; this is caused by release of calcium from intracellular storage compartments. An activator of ryanodine receptors, caffeine (10-50 mM), is less effective on Ca2+ release than BHQ or ionomycin, and their inhibitor, ryanodine (100 microM), almost completely blocks the response to caffeine, but only slightly decreases the effects of BHQ or ionomycin. Procaine, another inhibitor of ryanodine receptors, at 10 mM concentration completely abolishes both the BHQ and the ionomycin responses, but 50 mM is necessary to block the effect of 25 mM caffeine. These results suggest that both the BHQ- and the ionomycin-dependent Ca2+ releases occur through the ryanodine receptor and are to be considered as calcium-induced Ca2+ release (CICR). Both the ionomycin and the BHQ responses persist in the presence of Cd2+, which blocks Ca2+ channels of the plasmalemma. In most cases, Cd2+ itself induces release of Ca2+ from the CTC-stained calcium pool; the more effective Cd2+ is, the less the following ionomycin or BHQ responses occur. This indicates that Ca2+ entry through plasmalemma plays no significant role in the ionomycin- or BHQ-evoked initiation of CICR, and that the Cd2+- and BHQ/ionomycin-depleted Ca2+ stores overlap.     

Effect of the protein kinase C inhibitor on changes in Ca(2+) level in pig granulosa cells induced by prolactin

The effect of the PKC inhibitor on Ca2+ responses to prolactin in the pig granulosa cells was studied using fluorescent dye and chlortetracycline. The effect was shown to be connected with activation of the PKC. The Ro 31-8220 increased penetration of extracellular calcium and exit of calcium from intracellular stores. The data obtained suggest an involvement of the PKC in changes of calcium contents in the pig granulosa cells activated by prolactin.     

Functional characterization of thapsigargin and agonist-insensitive acidic Ca2+ stores in Drosophila melanogaster S2 cell lines

The role of acidic intracellular calcium stores in calcium homeostasis was investigated in the Drosophila Schneider cell line 2 (S2) by means of free cytosolic calcium ([Ca2+]i) and intracellular pH (pHi) imaging together with measurements of total calcium concentrations within intracellular compartments. Both a weak base (NH4Cl, 15 mM) and a Na+/H+ ionophore (monensin, 10 microM) evoked cytosolic alkalinization followed by Ca2+ release from acidic intracellular Ca2+ stores. Pretreatment of S2 cells with either thapsigargin (1 microM), an inhibitor of endoplasmic reticulum Ca(2+)-ATPases, or with the Ca2+ ionophore ionomycin (10 microM) was without effect on the amplitude of Ca2+ release evoked by alkalinization. Application of the cholinergic agonist carbamylcholine (100 microM) to transfected S2-DM1 cells expressing a Drosophila muscarinic acetylcholine receptor (DM1) emptied the InsP3-sensitive Ca2+ store but failed to affect the amplitude of alkalinization-evoked Ca2+ release. Glycyl-L-phenylalanine-beta-naphthylamide (200 microM), a weak hydrophobic base known to permeabilize lysosomes by osmotic swelling, triggered Ca2+ release from internal stores, while application of brefeldin A (10 microM), an antibiotic which disperses the Golgi complex, resulted in a smaller increase in [Ca2+]i. These results suggest that the alkali-evoked calcium release is largely attributable to lysosomes, a conclusion that was confirmed by direct measurements of total calcium content of S2 organelles. Lysosomes and endoplasmic reticulum were the only organelles found to have concentrations of total calcium significantly higher than the cytosol. However, NH4Cl (15 mM) reduced the level of total calcium only in lysosomes. Depletion of acidic Ca2+ stores did not elicit depletion-operated Ca2+ entry. They were refilled upon re-exposure of cells to normal saline ([Ca2+]o = 2 mM), but not by thapsigargin-induced [Ca2+]i elevation in Ca(2+)-free saline.     

Peculiarities of theophylline and prolactin interaction and calcium fluctuation from intracellular stores of porcine oocytes in the presence of estradiol

Using a fluorescent dye chlortetracycline, a study was made of the effect of estradiol on the interaction of theophylline and prolactin in the course of Ca2+ exit from intracellular stores of pig oocytes, isolated from ovaries at the stage of follicle growth. It is shown that in the presence of estradiol, prolactin does not stimulate Ca2+ exit from intracellular stores of pig oocytes. The action of theophylline similarly does not stimulate Ca2+ exit. Unlike, a joint effect of theophylline and prolactin on pig oocytes in the presence estradiol stimulated Ca2+ exit from intracellular stores of pig oocytes. These data demonstrated the influence of estradiol on theophylline and prolactin stimulated Ca2+ exit from intracellular stores of pig oocytes.     

Release of calcium from membranes and its relation to phagocytotic metabolic changes: A fluorescence study on leukocytes loaded with chlortetracycline

A fluorescent probe chlortetracycline was used to monitor the mobilization of intracellular divalent cations of leukocytes. When the chlortetracycline-loaded cells were stimulated with cytochalasin D or $\text{E. coli}$, a fluorescence change ascribable to the release of calcium from the intracellular hydrophobic environment was observed. The dose-response curve of the fluorescence change and that of the superoxide release of the cells were very similar. An intracellular calcium antagonist 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate inhibited both metabolic and fluorescence changes in parallel. A supposition that an intracellular mobilization of calcium ions is stimulating the metabolic change was supported.