On the role of calcium in chemotaxis and oscillations of dictyostelium cells

Migration of differentiated cells to a capillary containing cyclic AMP was enhanced in the presence of 1 mM CaCl₂ and was virtually absent in the presence of 1 mM EGTA. Furthermore, the cells contracted and extended pseudopods to a capillary filled with the calcium ionophore A 23187. At short distances, migration to the tip of the capillary was observed. The ionophore also induced transient decreases of the optical density of suspended cells indicating changes of cell shape. These findings support the hypothesis that cyclic AMP-binding to cell surface receptors causes a local influx of calcium ions. These in turn lead to an increase of the cytosolic calcium concentration and subsequently to an activation of cell migration. Perturbing pulses of the ionophore induced permanent phase shifts of free-running light scattering oscillations. This result indicates that cytosolic calcium is an intrinsic component of the oscillatory system.Based on material presented at the Symposium Intercellular Communication, Stuttgart, September 16–17, 1982     

Effects of calcium,magnesium, potassium and boron on sperm cells isolated from pollen of Zea mays L.

Our previous studies showed that Brewbaker and Kwack salts, which have been widely used in pollen germination and sperm isolation, are not appropriate for the maintenance of isolated maize (Zea mays L.) sperm cells. In the present study, we have characterized the effects of each BKS component salt on the integrity of isolated sperm cells using hemacytometry. At 0.01 and 0.1 mM, there were no differences in cell number between control and any salt-treated cells except a 22% decrease with 0.1 mM MgSO₄ at 48 h. At the 1 mM level, cell number decreased with time in the presence of Ca(NO₃)₂ and MgSO₄, with loss of integrity of most cells at 48 h, while KNO₃ and H₃BO₃ had little or no effect. Further characterization of calcium-induced reduction in cell integrity using flow cytometry showed that depletion of possible residual free calcium by addition of EGTA to the suspension medium improved cell longevity and viability. Exposure of isolated sperm cells to 1 mM calcium had no effect on cell integrity and viability in 5 h; however, only 12% of cells remained intact at 24 h. The reduction in cell integrity was hastened when cells were pretreated with the calcium ionophore A23187 prior to exposure to 1 mM calcium, with a 54% reduction in cell number at 1 h and complete cell lysis at 24 h. However, depletion of cytosolic free calcium by pretreatment of cells with the calcium ionophore followed by resuspension in the presence of EGTA resulted in rapid reduction of cell integrity as well. These results collectively suggest that maize sperm cells are sensitive to exogenous free calcium; however, a certain level of cytosolic free calcium is necessary for maintenance of integrity. Mechanisms of calcium-induced reduction in cell integrity are discussed along with possible roles of the sensitivity of sperm cells to calcium in fertilization.     

Effects of ruthenium red, A23187 and D-600 on steroidogenesis in Y-1 cells.

The effects of the calcium antagonists ruthenium red and D-600 and the cation ionophore A23187 on steroidogenesis were investigated. Steroidogenesis triggered by corticotrophin and cyclic AMP was inhibited by each of the agents. Incubation of Y-1 cells with an excess of ethyleneglycol-bis-(beta-amino-ethylether)-N,N'-tetraacetic acid (EGTA) abolished the steroidogenic response to corticotrophin while the response to cyclic AMP was unaffected. The ability of ruthenium red and D-600 (1 . 10(-5) M), and A23187 (6 . 10(-6 M) to inhibit a response which does not require the presence of extracellular calcium (cyclic AMP induced steroidogenesis) suggests that they are altering intracellular calcium. Neither of the calcium antagonists nor the cation ionophore inhibited the steroidogenic response to exogenous pregnenolone, thereby suggesting that the cells were still viable. Only when A23187 was used in the presence of a 15-fold increase in extracellular calcium (4.8 mM) was the response to pregnenolone diminished. The data are interpreted as a further indication that, in intact cells, intracellular calcium plays a role in the steroidogenic pathway.     

The effects of haloalkene cysteine conjugates on cytosolic free calcium levels in suspensions of rat renal proximal tubules

Disturbances in intracellular calcium homeostasis may play a role in the injury induced by various haloalkene cysteine conjugates. The effects of S-(1,2,3,4,4-pentachloro-1,3-butadienyl)-L-cysteine (PCBC), S-(1,2-dichlorovinyl)-L-cysteine (DCVC), and S-(1,1,2,2-tetrafluoroethyl)-L-cysteine (TFEC) on cytosolic free calcium levels were examined in suspensions of rat renal proximal tubules. Cytosolic free calcium levels, measured with fura 2, in control tubules, were 112 +/- 3 nM and increased more than 200% within 1 minute after exposure to the calcium ionophore ionomycin (0.005 mM). PCBC (0.1 mM) increased cytosolic free calcium levels 18% after 5 minutes, while tubular oxygen consumption was unaffected. DCVC (1 mM) did not alter tubular cytosolic free calcium levels or oxygen consumption under similar conditions. TFEC (1 mM) increased cytosolic free calcium levels 36%, had no effect on basal oxygen consumption, and decreased nystatin-stimulated oxygen consumption 30% after 5 minutes. TFEC increased cytosolic free calcium levels in tubules incubated in a nominally calcium-free buffer but not in a calcium containing buffer in the presence of EGTA. The data suggest that the TFEC-induced increase in cytosolic free calcium levels may result from an influx of extracellular calcium or from inhibition of calcium efflux. The increase in cytosolic free calcium levels preceded changes in basal oxygen consumption in tubules exposed to PCBC and TFEC. This study shows that an increase in cytosolic free calcium levels is an early event following PCBC and TFEC but not DCVC exposure.     

The effect of theophylline and dibutyryl cyclic AMP on the uptake of radioactive calcium and phosphate ions by boar and human spermatozoa.

Radioactive calcium uptake by suspensions of washed boar and human spermatozoa was inhibited by the mitochondrial uncoupling agent carbonylcyanide-p-trifluoromethoxy-phenylhydrazone (FCCP). Theophylline + dibutyryl cyclic AMP also inhibited calcium uptake in the presence or absence of FCCP. Uptake of low concentrations of calcium (0 . 1 mM) was inhibited by the calcium ionophore A23187, but at high calcium concentrations the ionophore stimulated calcium uptake. These observations are explained in terms of a mechanism for the regulation of calcium uptake in spermatozoa based on competing mitochondrial and plasma membrane pumps. Uptake of 32P was also inhibited. These effects provide evidence that cyclic AMP plays a role in the transport of ions across the plasma membrane of spermatozoa.     

Murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore.

The calcium ionophore, A23187, when used alone was found to induce proliferation of murine T cells, at concentrations of 0.5-1 mM. This response required the presence of syngeneic splenic adherant cells (SAC) as a source of accessory cells. Interestingly, only CD4+ T cells but not CD8+ T cells or B cells responded to the calcium ionophore by proliferation. The inability of CD8+ T cells or B cells to respond was not related to decreased elevation in the intracellular ionized calcium [Ca2+]i concentration induced by the ionophore, because activated CD4+ T, CD8+ T and B cells all exhibited similar elevation in [Ca2+]i. The inability of CD8+ T cells to respond to calcium ionophore was probably due to insufficient production of autocrine growth factors, such as IL-2, inasmuch as the addition of exogenous IL-2 could completely restore the CD8+ T cell responsiveness. Also, exogenous rIL-1 could partially restore purified T cell response to calcium ionophore, whereas, rIL-6 failed to do so. IL-2, but not IL-4, acted as an autocrine growth factor for T cells responding to the calcium ionophore in the presence of SAC, since, antibodies against IL-2 or IL-2 receptor (IL-2R) but not against IL-4, could inhibit the T cell proliferation. Furthermore, exogenous rIL-2 but not rIL-4 supported the proliferation of T cells to calcium ionophore in the absence of accessory cells. Our results suggest that murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore and that this may not depend on the early activation signal such as the elevation in [Ca2+]i) induced by the ionophore but may depend on subsequent signals which regulate endogenous growth factor production.     

Synergism between diacylglycerols and calcium ionophore in the induction of human B cell proliferation mimics the inositol lipid polyphosphate breakdown signals induced by crosslinking surface immunoglobulin

Resting human tonsillar B cells were stimulated to divide by heat killed Staphylococcus aureus Cowan strain 1 which was shown to induce hydrolysis of phosphatidylinositol 4, 5-bisphosphate known to give rise to diacylglycerol and an increase in cytosolic free calcium. Addition of the diacylglycerols, 1-oleoyl-2 acetyl glycerol or sn-1, 2-dioctanoylglycerol, together with the calcium ionophore ionomycin to B cell cultures induced marked cell proliferation whereas these agents were ineffective when used alone. Both diacylglycerols were shown to compete with [3H] phorbol 12,13 dibutyrate in binding to protein kinase C. These data support the hypothesis that synergism between cytosolic calcium and endogenous diacylglycerol, which activates protein kinase C, is involved in signal transduction in the proliferation of human B cells.     

The effect of intracellular calcium ions on adrenaline-stimulated adenosine 3'':5''-cyclic monophosphate concentrations in pigeon erythrocytes, studied by using the ionophore A23187.

1. The bivalent cation ionophore A23187 was used to increase the intracellular concentration of Ca2+ in pigeon erythrocytes to investigate whether the increase in cyclic AMP content caused by adrenaline might be influenced by a change in intracellular Ca2+ in intact cells. 2. Incubation of cells with adrenaline, in the concentration range 0.55--55 muM, resulted in an increase in the concentration of cyclic AMP over a period of 60 min. The effect of adrenaline was inhibited by more than 90% with ionophore A23187 (1.9 muM) in the presence of 1 mM-Ca2+. This inhibition could be decreased by decreasing either the concentration of the ionophore or the concentration of extracellular Ca2+, and was independent of the concentration of adrenaline. 3. The effect of ionophore A23187 depended on the time of incubation. Time-course studies showed that maximum inhibition by ionophore A23187 was only observed when the cells were incubated with the ionophore for at least 15 min before the addition of adrenaline. 4. The inhibition by ionophore A23187 depended on the concentration of extracellular Ca2+. In the absence of Mg2+, ionophore A23187 (1.9 muM) inhibited the effect of adrenaline by approx. 30% without added Ca2+, by approx. 66% with 10 muM-Ca2+ and by more than 90% with concentrations of added Ca2+ greater than 30 muM. However, even in the presence of EGTA [ethanedioxybis(ethylamine)tetra-acetate](0.1--10 mM), ionophore A23187 caused an inhibition of the cyclic AMP response of at least 30%, which may have been due to a decrease in cell Mg2+ concentration. 5. The addition of EGTA after incubation of cells with ionophore A23187 resulted in a partial reversal of the inhibition of the effect of adrenaline. 6. Inclusion of Mg2+ (2 mM) in the incubation medium antagonized the inhibitory action of ionophore A23187. This effect was most marked when the ionophore A23187 was added to medium containing Mg2+ before the addition of the cells. 7. The cellular content of Mg2+ was decreased by approx. 50% after 20 min incubation with ionophore A23187 (1.9 muM) in the presence of Ca2+ (1 mM) but no Mg2+. When Mg2+ (2 mM) was also present in the medium, ionophore A23187 caused an increase of approx. 80% in cell Mg2+ content. Ionophore A23187 had no significant effect on cell K+ content. 8. Ionophore A23187 caused a decrease in cell ATP content under some conditions. Since effects on cyclic AMP content could also be shown when ATP was not significanlty lowered, it appeared that a decrease in ATP in the cells could not explain the effect of ionophore A23187 on cyclic AMP. 9. Ionophore A23187 (1.9 muM), with 1 mM-Ca2+, did not enhance cyclic AMP degradation in intact cells, suggesting that the effect of ionophore A23187 on cyclic AMP content was mediated through an inhibition of adenylate cyclase rather than a stimulation of cyclic AMP phosphodiesterase. 10. It was concluded that in intact pigeon erythrocytes adenylate cyclase may be inhibited by intracellular concentrations of Ca2+ in the range 1-10 muM.     

The effect of ionophore A23187, verapamil, and dibutyryl cyclic AMP on bile acid synthesis in isolated rat hepatocytes

The effect of the divalent cation ionophore A23187 and the calcium channel-blocker verapamil on bile acid synthesis in isolated hepatocytes in the presence and absence of dibutyryl cyclic AMP was studied. Both A23187 (1 microM) and verapamil (0.04 mM) caused a small (approximately 15-20%) but consistent decrease in total bile acid synthesis in the cells. When hepatocytes were incubated with dibutyryl cyclic AMP (1 mM) production of total bile acid was increased by about 25%, and this effect was unchanged by A23187 but abolished by verapamil. The relative proportions of the individual bile acids produced were not affected by either A23187 or verapamil. Dibutyryl cyclic AMP (1 mM) lowered the ratio of the amount of conjugated cholic acid to conjugated chenodeoxycholic + beta-muricholic acid formed in the cells by about 50%. Neither A23187 nor verapamil was able to prevent this change. These results suggest that the stimulatory effect of dibutyryl cyclic AMP on total bile acid synthesis is dependent on mobilisation of calcium from intracellular stores, but its effect on the relative proportions of bile acid formed via the cholic acid versus the chenodeoxycholic acid pathway is independent of calcium movement.     

Effects of calcium ionophore (A-23187) on glucose oxidation and iodide transport in dog thyroid slices.

A calcium ionophore (A-23187, 20 mug/ml) stimulted 14C-1-glucose oxidation in dog thyroid slices to an extent equivalent to that obtained by the optimal concentration of dibutyryl cyclic AMP (1mM). Furthermore, the ionophore augmented the stimulation by dibutyryl cyclic AMP much more than the simple additive effect. The ionophore also enhanced the effect of TSH, but to a lesser extent. Under conditions where organic binding was blocked, T/M ratio of radioiodine concentration was lowered in slices by the ionophore; the findings similar to those obtained with TSH and dibutyryl cyclic AMP. The ionophore exhibited a slightly depressive effect on the basal cyclic AMP level. The elevation by TSH of cyclic AMP levels was also slightly depressed by the ionophore, but statistically insignificant in most cases. These results indicate that calcium ion may play an important role in the TSH regulation of iodide transport and glucose metabolism in the thyroid, in some cases by augmenting the effects of cyclic AMP.     

Participation of the microtubular-microfilamentous system on intracellular Ca2+ transport and acid secretion in dispersed parietal cells

Biphasic responses of amino[14C]pyrine accumulation and oxygen consumption were registered by gastrin stimulation in dispersed parietal cells from guinea pig gastric mucosa, and this was mimicked with the calcium ionophore A23187. The characteristics of these phases (first phase and second phase) were distinguished by the differences in the requirements of extracellular Ca2+. The first phase evoked by gastrin or ionophore A23187 was independent of extracellular Ca2+, whereas the second phase was not. In the first phase, fluorescence of a cytosolic Ca2+ indicator (quin2-AM) increased with the stimulation of ionophore A23187 and carbamylcholine chloride in the presence of extracellular Ca2+. In addition, an increase in cytosolic Ca2+ induced by ionophore A23187, but not by carbamylcholine chloride was also observed in the absence of extracellular Ca2+, suggesting that Ca2+ pool(s) in parietal cells might be present in the intracellular organelle. Cytochalasin B and colchicine, but not oligomycin, could eliminate this cytosolic Ca2+ increase induced by A23187 in a Ca2+-free medium. On the other hand, in a Ca2+-free medium, addition of ATP after pretreatment with digitonin could diminish the cytosolic Ca2+ increase brought about by A23187. This was also observed with oligomycin-treated cells, but not with cytochalasin B-treated cells. Similarly, subcellular fractionation of a parietal cell which had been pretreated with cytochalasin B or colchicine in an intact cell system reduced the rate of ATP-dependent Ca2+ uptake. These observations indicate that intracellular Ca2+ transport in dispersed parietal cells may be regulated by the microtubular-microfilamentous system. In conclusion, this study demonstrates the possibility of the existence of intracellular Ca2+ transport mediated by gastrin or ionophore A23187 and regulated by the microtubular-microfilamentous system in parietal cells.     

A calcium-independent 5-lipoxygenase system in mast/basophil PT-18 cells

Mammalian 5-lipoxygenase systems exist in inactive or cryptic states and have to be stimulated in order to metabolize exogenous [14C]arachidonic acid to 5-HETE and leukotrienes. In most cells, both the activation process and the 5-lipoxygenase activity are calcium-dependent. However, the cryptic 5-lipoxygenase system in the murine PT-18 mast/basophil cell line, which can be stimulated by 15-hydroxyeicosatetraenoic acid (15-HETE), is unusual. Studies with fura-2 loaded PT-18 cells indicate that increases in cytosolic calcium do not appear to correlate with enhanced 5-lipoxygenase product formation. Thus, both the calcium ionophore ionomycin and arachidonic acid increase cytosolic calcium levels but have very little effect on [14C]5-HETE formation, whereas 15-HETE induces large increases in [14C]5-HETE production but no concomitant enhancement in cytosolic calcium is observed. Chelation of extracellular calcium by 3 mM EGTA resulted in a 30-40% inhibition of [14C]5-HETE formation induced by 15 HETE, whereas 3 mM EGTA has no appreciable effect on a crude PT-18 5-lipoxygenase homogenate. These results indicate that in PT-18 cells, calcium does not appear to play an important role in either the 15-HETE-induced activation process, or the enzymatic activity of the cryptic 5-lipoxygenase system.     

Factors influencing the response of human blood platelets to analogues of ADP which may act as partial agonists at the ADP receptor.

1. The prior addition of non-aggregating concentrations of the divalent cation ionophore, A-23187, causes human platelets to aggregate in response to a subsequent addition of the 2',3'-dialdehyde and 2',3'-dialcohol derivatives of ADP (oADP and or ADP). Previous studies [Pearce et al. (1978) Eur. J. Biochem. 88, 543--555] have shown that these derivatives act as partial agonists at the platelet ADP receptor inducing only the transition from discoid to globular morphology ('shape change'). A secretion response is also observed on addition of a low concentration of ionophore A-23187 prior to orADP. These responses are not observed if ionophore A-23187 is added prior to the 2',3'-dialdehyde and 2',3'-dialcohol derivatives of ATP (oATP and or ATP) and are markedly inhibited by prior addition of the ADP antagonist, adenosine 5'-[beta, gamma-methylene]triphosphate. 2. The aggregation response to oADP in the presence of ionophore A-23187 is reduced but not eliminated by addition of 3 mM EGTA when studies are performed in heparinised platelet-rich plasma. Additions of 3 mM EGTA in citrated platelet-rich plasma, or of 4 mM EDTA in either system completely inhibits this response. Inhibitors which are reported to elevate the intracellular concentration of adenosine 3':5'-monophosphate (cyclic AMP) or to prevent Ca2+ movement also inhibit the aggregation response to oADP which is observed in the presence of ionophore A-23187. 3. Prior addition of inhibitors of adenylate cyclase fails to cause an aggregation response to subsequent addition of oADP or orADP. Certain of these inhibitors enhance and prolong the shape change response to oADP or orADP but only at concentrations an order of magnitude in excess of those required to antagonise inhibition by agents such as prostaglandin E1, which act by increasing the concentration of cyclic AMP. 4. The concentration of prostaglandin E1, adenosine or papaverine required to inhibit shape change induced by oADP is one to two orders of magnitude lower than that required to inhibit shape change induced by ADP. 5. Prior addition of oADP decreases the lag phase in the response of human platelets to arachidonate while also increasing the concentration required to observe half-maximal response, and causing a decrease in the extent of the response. Prior addition of oATP also diminishes the extent of this response and increases the concentration of arachidonate required but has no effect on the lag phase. 6. The data suggest that oADP and orADP are capable only of acting as partial agonists at the ADP receptor because of a defective ability to increase cytosolic Ca2+ concentration. The defect is rectified by the presence of low concentrations of ionophore A-23187, which promotes mobilisation of Ca2+ from an intracellular store. The results do not appear consistent with the thesis that a decrease in platelet cyclic AMP is an initiating event in aggregation induced by ADP, but do support a model which implicates cyclic AMP in depletion of cytosolic Ca2+.     

Cyclic guanosine 3':5'-monophosphate and the regulation of lipolysis in rat fat cells.

The addition of the divalent cation ionophore A23187, carbachol, norepinephrine or insulin to rat fat cells elevated cyclic GMP. The increase in cyclic GMP due to these agents was greater at 4 than at 2 minutes after their addition. Cyclic GMP accumulation was also elevated by the addition of 0.1 to 0.5 mM sodium oleate in the presence of 0.1% albumin and by albumin containing added palmitate with an FFA/albumin molar ratio of 6.7. The rise in cyclic GMP due to all agents was markedly reduced in calcium-free buffer. The effects of the various agents on cyclic GMP accumulation in rat fat cells had little correlation with lipolysis. Insulin was an effective anti-lipolytic agent in both the presence and absence of calcium while neither A23187 nor carbachol had any effect on fat cell lipolysis.     

Secretory responses of rat peritoneal mast cells to high intracellular calcium

The patch-clamp technique was used to investigate the secretory responses of rat peritoneal mast cells at various intracellular calcium concentrations ([Ca2+]i). When Calcium was introduced into the cell with pipette-loaded dibromo-BAPTA, elevation of [Ca2+]i into the range 1-10 microM induced membrane capacitance increases indicative of exocytosis in a concentration-dependent manner. At higher concentrations a decrease of the response was observed. Cells that were exposed to micromolar [Ca2+]i underwent morphological alterations resulting in swelling, which is indicative of cytoskeletal alterations. The presence of dibromo-BAPTA (4 mM) strongly inhibited secretion induced by GTP-gamma-S, thus hampering the contribution of G-protein-mediated stimulation. Application of the Ca2+ ionophore ionomycin resulted in transient increases in [Ca2+]i which were parallelled by Ca2+-dependent secretion. Effective buffering of the cytosolic calcium level below 1 microM abolished the secretory response. Our results show that an increase in [Ca2+]i can trigger secretion, but only if it is high and sustained. During physiological stimulation, however, secretion proceeds at [Ca2+]i below 1 microM. It is, therefore, concluded that mast cell degranulation under physiological conditions is not simply a result of an increase in [Ca2+]i, but that other second messenger systems in conjunction with calcium act synergistically in order to ensure fast and efficient secretion.     

Extracellular Calcium-Induced Neuroblastoma Cell Differentiation: Involvement of Phosphatidylinositol Turnover

The rat CNS neuroblastoma B50 cell line is known to differentiate on addition of 1 mM dibutyryl cyclic AMP or on withdrawal of serum. In this report it is shown that high levels of extracellular calcium (10-25 mM) cause neurite extension, an important component of morphological differentiation. Stimulation of calcium influx with the ionophore A 23187 or blockade of calcium efflux with lanthanum are less efficient than extracellular calcium in stimulating neurite extension. These data suggest that intracellular calcium is not sufficient to cause full expression of a calcium-dependent differentiated state. Furthermore, phosphatidylinositol turnover is sharply altered as early as 1 h after addition of calcium to the medium while cyclic nucleotide levels remain unaffected. This suggests that activation of the phosphatidylinositol second-messenger system by calcium at the level of the cell membrane is the initial step in the cascade of events leading to neurite extension. Later events include a decrease in DNA synthesis (6-10 h after addition of calcium), and increase in intracellular calcium levels (12-24 h after calcium addition) concurrent with neurite extension. The intracellular increase in calcium levels is facilitated by synergistic action of 1 mM dibutyryl cyclic AMP with high external calcium (10-25 mM). This combined treatment results in a more complex pattern of neurite formation characterized by many synaptic-like junctions; this pattern is not obtained when either dibutyryl cyclic AMP or calcium is used as sole inducer.     

The role of calcium in luteinizing hormone-releasing hormone agonist (ICI 118630)-stimulated steroidogenesis in rat Leydig cells.

The luteinizing hormone-releasing hormone (LHRH) agonist ICI 118630 was found to increase testosterone production in purified rat testis Leydig cells in a concentration- and time-dependent manner, but no consistent changes in cyclic AMP levels were detectable. The stimulation of steroidogenesis by LHRH agonist was found to be dependent on the concentration of Ca2+ in the incubation medium; at least 1 mM was required. The calcium ionophore A23187 mimicked the effects of the LHRH agonist on steroidogenesis, and addition of both compounds together did not further increase testosterone production. The calcium ionophore caused a small increase in cyclic AMP which was independent of the concentration of the ionophore and of the calcium concentrations. The evidence obtained in this study indicates that LHRH agonist-stimulated steroidogenesis in rat testis Leydig cells is primarily mediated by calcium and not cyclic AMP.     

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.     

Beta-adrenergic modulation of the polymorphonuclear leukocyte respiratory burst is dependent upon the mechanism of cell activation

Although inhibition of polymorphonuclear leukocyte activation by beta-adrenoceptor agonists has been recognized for over a decade, effects have only been observed at high drug concentrations and in the presence of theophylline. In this study, catecholamine and prostaglandin modulation of the respiratory burst was evaluated with respect to the mechanism of polymorphonuclear leukocyte activation. Very low concentrations of isoproterenol and prostaglandin E2 inhibited the respiratory burst when induced by chemotactic peptide (N-formyl-methionyl-leucyl-phenylalanine) or calcium ionophore (A23187, ionomycin), but not when initiated by synthetic diacylglycerol. Because formyl-methionyl-leucyl-phenylalanine and ionophore mobilize calcium and arachidonic acid generation follows an increase in intracellular calcium, the arachidonic acid metabolite leukotriene B4 was studied. Isoproterenol at a very low (0.1 nM) concentration also rapidly inhibited leukotriene B4 generation. Since cyclic AMP was increased by isoproterenol regardless of the means of cell activation, modulation of intracellular calcium was evaluated with the fluorescent probe indo-1. A transient increase in calcium after formyl-methionyl-leucyl-phenylalanine or ionophore (but not oleoyl acetylglycerol) cell activation was inhibited by isoproterenol or prostaglandin E2. These results suggest that adrenergic agonists specifically modulate calcium-dependent polymorphonuclear leukocyte function. Because marked inhibition was observed at very low drug concentrations, cyclic AMP-dependent effects may be important in both homeostatic and therapeutic modulation of inflammatory response.