Evidence on the role of three calcium pools in Ca-ionophore A23187-stimulated rat blood platelet aggregation.

The effect of Ca-ionophore A23187 on activation of rat blood platelets was investigated to elucidate the involvement of extracellular and intracellular Ca2+ ions. Platelet aggregation induced by 10 concentrations of the stimulus was studied in Ca-free medium as well as in the presence of EGTA and/or calcium. In Ca-free medium, A23187 induced platelet aggregation in a dose-dependent way; the mean effective concentration was 1.43 +/- 0.08 mumol/l. The stimulatory effect of ionophore was potentiated by addition of 0.01 and 0.1 mM calcium and inhibited when the calcium concentration was increased to 1 mmol/l. In the presence of EGTA, A23187-stimulated aggregation of isolated rat platelets was recorded only at a 10-times higher ionophore concentration and was then reduced to 30% in comparison with aggregation in Ca-free medium. The inhibitory effect of 1 mM EGTA was abolished by addition of 2 mM calcium. We suggest the participation of at least three calcium pools in the stimulation of rat platelets by A23187, i.e. the extracellular pool, the membrane-associated pool and the pool displacing calcium intracellularly.     

Intracellular calcium as a modulator of transepithelial permeability to water in frog urinary bladder

The divalent cation ionophore A 23187 was used to evaluate the action of intracellular calcium on net transepithelial water movement across the isolated frog urinary bladder. Incubation with the ionophore increases the net basal water flux in a dose-dependent fashion but independent of the extracellular calcium concentration. Bladders pretreated with A 23187 and exposed thereafter to an increase in calcium concentration exhibit a water permeability that under certain conditions can be comparable to that achieved with antidiuretic hormone (ADH). Lowering the serosal calcium at the peak of the hydrosmotic responses to both ADH and A 23187 inhibited the maintenance of the net water flux. The action of a supramaximal dose of ADH is blunted in bladders pretreated with A 23187, while the hydrosmotic effects of a submaximal dose are enhanced when the ionophore is added together with the hormone. The results show that an increase in transepithelial water movement can be triggered by calcium and that serosal calcium is needed to sustain the response. This hydrosmotic response may be dependent upon the rate at which intracellular calcium concentrations change and on the absolute concentration attained. It is suggested that calcium is involved in the action of ADH on water permeability and may act as a modulator of the hydrosmotic response.     

Effect of alpha-tocopherol on apoptosis and necrosis of rat thymocytes induced by calcium ionophore A23187 in various concentrations

It has been established that alpha-tocopherol prevented rat thymocytes apoptotic death induced by low concentration (250 nM) of calcium ionophore A23187. When necrotic cell death was induced high concentration (10 microM) of calcium ionophore A23187 alpha-tocopherol was able to alter necrosis to apoptosis. It was proposed that such effect can be explained by the ability of alpha-tocopherol to prevent the mitochondrial permeability transition--a key event in apoptosis and necrosis induction.     

A calcium ionophore-induced secretion in rabbit lacrimal gland in vivo

Local administration of the calcium ionophore, A-23187 increased basal fluid secretion (non-stimulated) from the cannulated main excretory duct of rabbit lacrimal gland in vivo. A-23187 also facilitated fluid secretion induced by submaximal dose of methacholine (0.1 μg/kg, intraarterially). The stimulatory effect of A-23187 was dependent on the extracellular calcium concentration. Lowering the extracellular calcium by addition of EGTA markedly depressed or abolished the responses to the ionophore while increasing the extracellular calcium with CaCl₂ enhanced it. The results suggest that A-23187 causes increase in cell membrane permeability to extracellular calcium and the rise in intracellular calcium activates the secretory process(es) by an unknown mechanism to produce fluid secretion in the rabbit lacrimal gland.     

Effect of calcium ionophore A23187 on pregnenolone metabolism to progesterone in rat granulosa cells

The effect of calcium ionophore A23187 on the metabolism of pregnenolone to progesterone was examined in rat granulosa cells during a 24-h culture period. Granulosa cells harvested from pregnant mare's serum gonadotropin treated immature rats were incubated in the presence and absence of the divalent cation ionophore A23187. The ionophore induced progesterone synthesis from both endogenous sterol substrate and exogenous pregnenolone in a time- and concentration-dependent manner. Pregnenolone metabolism was examined in the presence of aminoglutethimide phosphate, an inhibitor of endogenous pregnenolone production. Steroid secretion resulting from metabolism of endogenous substrate was more sensitive to A23187 in that a lower concentration of the ionophore was required to induce a significant increase than that noted for exogenous pregnenolone metabolism. In addition, progesterone production from endogenous sterol occurred 6 h earlier than the observed increase in the conversion of pregnenolone to progesterone. These results indicate that A23187 and therefore possibly enhanced calcium influx may play a significant role in the regulation of pregnenolone metabolism in granulosa cells depending on the duration of incubation. The earlier steroidogenic response from endogenous substrate may be a reflection of an acute effect of A23187 on certain steroidogenic steps proximal to pregnenolone production.     

The effect of calcium oxalate crystallization kinetics on the kinetics of calcium uptake and calcium ATPase activity of sarcoplasmic reticulum vesicles

The ionophore A23187 is a potent inhibitor of oxalate supported calcium uptake if added before uptake is initiated by ATP and is a much weaker inhibitor of uptake once uptake has been initiated. This observation is shown to be due to a failure of oxalate to capture the transported calcium at the beginning of uptake because the rate of calcium oxalate crystallization is initially slow, thereby allowing the ionophore to release the accumulated calcium. This hypothesis is supported by the observation that calcium oxalate crystallization shows a lag phase which is absent when calcium oxalate seeds are in the reaction system. Once calcium uptake has progressed, calcium oxalate seeds are present in the sarcoplasmic reticulum and calcium oxalate crystallization proceeds sufficiently rapidly that the ionophore cannot compete successfully for calcium. That A23187 and oxalate compete for intravesicular ionic calcium is shown by the stimulation which each produces in ATPase activity and by the dependence of ionophore activity on oxalate concentration.The failure of calcium oxalate crystallization to reach equilibrium during the early phase of calcium uptake caused us to examine whether at any time during calcium uptake, crystallization reaches equilibrium. Skeletal sarcoplasmic reticulum accumulated calcium at such a high rate that oxalate, in concentrations up to 20mM, was unable to clamp intravesicular calcium at equilibrium values. The lower rate of calcium accumulation by cardiac sarcoplasmic reticulum and/or perhaps its greater permeability to oxalate apparently allows intravesicular calcium to be clamped by oxalate.     

Limits to the early increase in free cytoplasmic calcium concentration during the mitogenic stimulation of lymphocytes.

Three aspects of the calcium hypothesis we have proposed previously [Metcalfe, Pozzan, Smith & Hesketh (1980) Biochem. Soc. Symp. 45, 1-26] for the control of mitogenic stimulation of lymphocytes are examined in studies on the mitogenic action of the Ca2+ ionophore A23187 and its effect on cap formation. (1) Pig lymphocytes that were mitogenically stimulated by continuous incubation with 3H-labelled A23187 for 48 h contained between 3 and 15 amol of ionophore per cell. Lymphocytes exposed to 3H-labelled A23187 for 2h before washing the cells and resuspending them in ionophore-free medium were only stimulated mitogenically at 48h if the residual ionophore associated with the cells after washing was in the concentration range 3-15 amol per cell. When the cells were washed repeatedly after 2h incubation with ionophore to reduce the cell-associated ionophore below the critical concentration range, no mitogenic stimulation occurred as a result of short-term exposure to any ionophore concentration. Re-addition of ionophore to within the indicated range of cell-associated concentrations restored mitogenic stimulation at 48h. We conclude that large, short-term Ca2+ fluxes into the cells induced by the ionophore cannot generate a mitogenic signal that commits the cells to enter the cell cycle. (2) Further experiments with the ionophore showed that detectable mitogenic stimulation at 48h required a minimum of 3h exposure to optimal ionophore concentrations, and that maximal stimulation required at least 20h exposure. This is consistent with the view that a prolonged increase in the free cytoplasmic calcium concentration is required to stimulate the maximum proportion of the cells into the cell cycle. (3) Mouse splenic lymphocytes treated for short periods with very high ionophore concentrations (30 microM) in the presence of various external Ca2+ concentrations showed significant inhibition of cap formation of surface immunoglobulin receptors in the range 1-10 microM-Ca2+ in normal or depolarizing medium. We conclude that mitogens at optimal concentrations for the stimulation of lymphocytes do not cause any early increase in the free cytoplasmic Ca2+ concentration above 10 microM.     

Quantitative determination of the calcium involved in the regulation of the Ca2+-ATPase activity in sarcoplasmic reticulum vesicles

The dependence of the Ca²⁺-ATPase activity of sarcoplasmic reticulum vesicles upon the intravesicular concentration of calcium accumulated after active uptake was studied. The internal calcium concentration was modified by addition of the ionophore A23187 at the steady state of accumulation. About half of the calcium accumulated could be released at low ionophore concentration without any concomitant activation of the Ca²⁺-ATPase. This population of calcium might consist of calcium free in the lumen of the vesicles or bound to the bilayer at sites which do not interact with the ATPase activity. At higher concentrations of ionophore (above 1.75 nmol A23187/mg protein) the release of calcium activated this enzyme. This phenomenon was independent of the extravesicular calcium concentration and might be explained by assuming second species of calcium ions bound to the inner side of the membrane and in close functional interaction with the Ca²⁺-ATPase.     

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.     

Ionophore-mediated cation translocation in artificial systems. I. A23187-mediated calcium translocation.

The inophore A23187 stimulates the translocation of calcium from an aqueous Hepes buffer into an organic immiscible phase. At saturating calcium concentrations, 2 molecules of ionophore seem to complex each atom of calcium. Consistent with such a stoichiometric behaviour, the apparent ratio of calcium-ionophore association to dissociation rate constants increases as the concentration of ionophore is raised. As a result, at low calcium concentrations, the amount of translocated calcium increases as a power function of A23187 concentration. When allowance is made for such a phenomenon, the relation between calcium translocation and concentration is characterized by usual substrate-receptor binding kinetics.     

Comparative effects of the ionophore A23187 and vitamin D metabolites on 45Ca desaturation curves derived from bone cells: interaction of a calcium channel channel inhibitor diltiazem

The effects of diltiazem, a calcium channel inhibitor, on the cellular transport of calcium were studied in isolated heterogenous rat bone cells. Efflux was measured after equilibrating the cells with 45Ca and adding the vitamin D metabolite (1,25dihydroxycholecalciferol-1,25(OH)2D3 or 24,25dihydrocholecalciferol-24,25(OH)2D3), the ionophore A23187 and/or diltiazem. Results were analysed by fitting the desaturation curve to a model of two exponential terms. Kinetic analyses of curve indicated the presence of 2 exchangeable pools with different rate constants of exchange between the medium and cells (expressed by K.). After incubation of bone cells with diltiazem (20 nmol/10(6) cells) the following changes were recorded: a marked decrease in the rate constant of efflux from the fast turnover calcium pool (K12) and a reduction of the calcium pool sizes. Incubation of 10(6) cells with 0.5 ng 1,25(OH)2D3 plus diltiazem significantly reduced K12 compared to incubation with 1,25(OH)2D3 alone. In presence of 24,25(OH)2D3, diltiazem did not significantly alter K12 which was raised by incubation with the metabolite alone. Ionophore A23187 (0.5 micrograms/10(6) cells) increased the value of slow turnover constants of efflux whose values were affected by diltiazem. The possible involvement of Ca movements in bone resorption does not seem confirmed in the present experiment since in vitro effects of diltiazem in organ culture (observed in an initial previous experiment) were not reflected in the calcium 45 desaturation kinetics in heterogenous bone cells.     

Effect of trifluoperazine, compound 48/80, TMB-8 and verapamil on ionophore A23187 mediated calcium uptake in ATP depleted human red cells

The A23187 induced calcium uptake in ATP depleted cells was determined at pH 6.9 in the presence of trifluoperazine (TFP, 0.30 mM), compound 48/80 (0.89 mg/ml), 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8, 2.13 mM) and verapamil (1.81 mM). Apart from verapamil the drugs all increased the maximum rate of ionophore-mediated calcium flux by 50-60 per cent. After the ionophore addition some time elapsed before the calcium flux attained the maximum value, and this time dependence could be interpreted as a slow uptake of A23187 into the membrane: five seconds after the addition of A23187 half of the added ionophore was able to transport calcium through the membrane. The effect of pH on the ionophore-mediated calcium uptake was determined in the absence and presence of TFP. At pH 7.4 the maximum rate of calcium flux in the absence of TFP was two to three times higher than that at pH 6.9 and TFP increased the uptake rate by 98 per cent.     

Amino acid transport in isolated rat thymocytes. Effects of divalent cations and ethanol.

In dispersed rat thymocytes neither basal alpha-aminoisobutyric acid influx nor influx stimulated by insulin, prostaglandin theophylline, or butyryl adenosine 3':5'-monophosphate (cyclic AMP) depended on extracellular calcium or magnesium. The divalent cation ionophore A23187 inhibited both basal and stimulated alpha-aminoisobutyric acid influx. The extent to which influx was inhibited depended on ionophore concentration, extracellular calcium concentration, and time but did not depend on extracellular magnesium. Significant inhibition could be detected at an ionophore concentration of 1 muM and maximal inhibition occurred with 6 muM A23187. A23187 increased cellular uptake of calcium and there was good agred calcium uptake and that for ionophore inhibition of alpha-aminoisobutyric acid influx. Incubating cells with A23187 and then adding ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N',-tetraacetic acid completely reversed ionophore-stimulated cellular calcum uptake but did not reverse inhibition of alpha-aminoisobutyric acid influx. Thus, A23187 produces irreversible inhibition of alpha-aminoisobutyric acid transport in dispersed rat thymocytes. Ethanol abolished insulin-stimulated alpha-aminoisobutyric acid influx but did not alter basal influx or that stimulated by prostaglandin E1, theophylline, or N6,O2'-dibutyryl adenosine 3':5'-monophosphate. Inhibition could be detected with 0.2% (v/v) ethanol and insulin-stimulated alpha-aminoisobutyric influx was abolished with 1% ethanol. The effect of ethanol occurred immediately and could be reversed completely. This ability of ethanol to inhibit selectively insulin-stimulated alpha-aminoisobutyric acid influx indicates that the mechanism through which insulin stimulates alpha-aminoisobutyric acid influx is functionally distinct from the stimulation produced by cyclic AMP.     

Active calcium transport and calcium-dependent membrane phosphorylation in human peripheral blood lymphocytes

The characteristics of the calcium pump were investigated in intact human peripheral blood lymphocytes /PBL/ and in inside-out vesicles prepared from their plasma membranes. Intact PBL were loaded with calcium by a short exposure to A23187 ionophore. After the elimination of the ionophore, calcium-loaded PBL produced an ATP-dependent, external lanthanum sensitive, uphill calcium extrusion. Calcium pump in intact PBL was insensitive to ouabain and /until cellular ATP was provided/ to oligomycin and dinitrophenol. Maximum calcium extrusion rate and the alkali cation sensitivity of the process were similar to those in human red cells. Calcium was partially sequestered by PBL, and this calcium could be released by A23187 ionophore only.Inside-out plasma membrane vesicles prepared from hypotonically lysed PBL showed and ATP + Mg²⁺-dependent uphill calcium uptake. This calcium transport was insensitive to ouabain, oligomycin, or dinitrophenol, while blocked by lanthanum and quercetin. Calmodulin significantly stimulated calcium pumping in EDTA-washed vesicles. ATP-dependent and -independent calcium uptake rates, respectively, showed different calcium concentration dependences.When PBL membrane vesicles were phosphorylated by γ ³²P-ATP, a calcium-induced, hydroxylamine-sensitive incorporation of ³²P was found in 120–150 000 molecular weight proteins. Depending on the way of membrane preparation, the molecular weight of the phosphoprotein was shifted. Similarly to that found in red cell membranes, sensitivity to calmodulin stimulation and partial proteolysis of the calcium pump molecule showed an inverse relationship.     

Modulatory effect of HCO3- on rat mast cell exocytosis: cross-talks between bicarbonate and calcium.

HCO-3 modulation of histamine release and its relationship with the Ca2+ signal were studied in serosal rat mast cells. Histamine release was induced by Ca2+ mobilizing stimuli, namely compound 48/80, thapsigargin, Ca2+ chelators, ionophore A23187, and PMA and ionophore A23187 in a HCO-3-buffered medium or a HCO-3-free medium. The presence of HCO-3 reduced histamine release by 48/80, Ca2+ chelators, A23187, and PMA/A23187, but increased histamine release induced by thapsigargin. Histamine release by PMA was significantly higher in a HCO-3-free medium than in a HCO-3-free medium, as it was the PMA potentiation of histamine release by A23187. [Ca2+]i changes induced by these drugs were measured in fura-2-loaded mast cells. In thapsigargin and EGTA or BAPTA preincubated mast cells [Ca2+]i increase was higher in a HCO-3-buffered medium than in a HCO-3-free medium in the presence of Ca2+. On the contrary, in compound 48/80 and PMA/A23187 activated mast cells the [Ca2+]i increase is the same both in the presence and in the absence of HCO-3. The effect of HCO-3 on histamine release in serosal rat mast cells depends on the stimulus, but it is not related to the presence of Cl-. In thapsigargin-stimulated mast cells the effect of HCO-3 on histamine release may be related to the Ca2+ signal, but in compound 48/80, EGTA, and PMA/A23187-activated mast cells there is no relationship between intracellular Ca2+ and the inhibitory effect of HCO-3 on histamine release. Additionally, the PKC pathway is implicated in the inhibitory effect of HCO-3 on histamine release, the higher the chelation of calcium rendering the higher the enhancement of the response after adding calcium in the absence of HCO-3.     

Regulation of protein degradation in muscle by calcium. Evidence for enhanced nonlysosomal proteolysis associated with elevated cytosolic calcium

Calcium-dependent regulation of intracellular protein degradation was studied in isolated rat skeletal muscles incubated in vitro in the presence of a large variety of agents known to affect calcium movement and distribution. A23187, KC1, sucrose, and 8-(diethylamino)octyl-3,4, 5-trimethoxybenzoate hydrochloride increase proteolysis while tetracaine, verapamil, and low extracellular calcium caused significant decreases. Additionally, dantrolene decreases proteolysis in the presence of depolarizing levels of potassium, while it has no effect on degradation in normal media. The dose dependence of calcium ionophore A23187 on proteolysis and contracture tension are parallel. Furthermore, excess KC1 and hypertonic solutions increased protein degradation at doses reported to cause tension. Thus, the parallel increase in proteolysis and tension in response to various agents supports the hypothesis that protein degradation in muscle is regulated by calcium. To determine the responsible proteolytic systems involved in calcium-dependent degradation, the effect of different classes of protease inhibitors was tested. Addition of the inhibitors leupeptin and E-64-c blocked the A23187-induced increase in degradation. Since proteases sensitive to these agents are present in both the sarcoplasm and lysosomes, known lysosomotropic agents, methylamine and chloroquine, as well as 3-methyladenine, a specific autophagy inhibitor, were used in combination with A23187. These agents did not inhibit calcium ionophore-induced proteolysis, although these three agents selectively inhibited enhanced degradation seen in the absence of insulin, demonstrating an autophagic/lysosomal pathway in these muscles. Thus, our results suggest that nonlysosomal leupeptin- and E-64-c-sensitive proteases are responsible for calcium-dependent proteolysis in muscle.     

Methanol is a potent inhibitor of the metabolism of endogenous arachidonic acid by elicited rat peritoneal leukocytes

The effect of methanol on the ability of elicited rat peritoneal leukocytes to metabolise endogenous and exogenous arachidonic acid was studied using 2H8-arachidonic acid as the source of exogenous arachidonic acid and calcium ionophore A23187 as the lipoxygenase stimulus. As the methanol concentration increased from 0 to 992 mM there was a slight decrease in the total amount of LTB4 and related compounds formed, however examination of the ratio of undeuterated to deuterated LTB4 formed revealed that as the methanol concentration increased from 0 to 992 mM, the percentage of undeuterated LTB4 present decreased significantly from 57 +/- 9% to 2 +/- 1%. Methanol interferes with the ability of these cells to utilise endogenous arachidonic acid even in the presence of the powerful stimulus calcium ionophore A23187 thus allowing the facile biosynthesis of a range of deuterium labelled arachidonic acid metabolites.     

Preservation of the secretory response of peritoneal mast cells in the absence of extracellular calcium

The transfer of rat peritoneal mast cells from balanced salt solution to calcium-free buffer led to a time-dependent decrease in their response to compound 48/80 and to ionophore A23187. The concomittant absence of potassium from the calcium-free buffer enabled the mast cells to retain their secretory response. The increase in potassium level, with a parallel decrease in sodium to maintain osmolarity, led to a slight potentiation of the response to 48/80 and to a large but transient potentiation of the response to A23187. Mast cells can be considered nonexcitable. The apparent dependency upon extracellular calcium of mast cell secretory responses might be related to the presumed tight equilibrium between endoplasmic reticulum calcium stores and extracellular calcium. The control of this equilibrium by transmembrane gradients of monovalent ions is proposed.     

Inhibitory effects of calcium ionophore pretreatment of porcine oocytes on polyspermic fertilization

The present study examined the inhibitory effects of various pretreatment concentrations (0-100 microM) of the calcium ionophore A23187 on polyspermic fertilization and then examined the effect of the maturation period and the time between calcium ionophore treatment and fertilization on the inhibitory effect of calcium ionophore on polyspermic fertilization. In experiment 1, a high concentration of calcium ionophore (100 microM) increased the rate of activated oocytes, but the rate of fertilization declined. On the other hand, when oocytes were treated with a low concentration of calcium ionophore (10 microM), monospermic fertilization was significantly increased (10 microM; 31.3%) (p < 0.05). In experiment 2, oocytes were cultured for various times (0, 0.5, 3, 6 h) after calcium ionophore treatment (10 microM) before fertilization. The highest rate of monospermic fertilization was detected in the oocytes cultured for 6 h after calcium ionophore treatment before fertilization. In experiments 3 and 4, we examined the effect of the maturation period (40 h or 44 h) on the rate of fertilization and blastulation of oocytes pretreated with calcium ionophore. The treatment of oocytes with calcium ionophore significantly decreased the rate of polyspermic fertilization regardless of the maturation period (44 h: with calcium ionophore 26.25% vs without 78.8%; 40 h: with calcium ionophore 37.5% vs without 77.5%); however, calcium ionophore treatment increased the rates of monospermic fertilization and blastulation of the oocytes matured for 44 h, but not those matured for 40 h. In conclusion, activation with a low concentration of calcium ionophore (10 microM) and a further 6 h of culture before fertilization improved the rate of monospermic fertilization and blastulation.     

The temperature dependence of State IV respiration, the calcium uptake system, and the activity of the calcium ionophore A23187 in mitochondria from endo- and ectothermic animals.

1. Arrhenius plots of State IV respiratory activity of liver mitochondria from both rainbow trout and rat were linear over the temperature range 5-35 degrees C. 2. Calcium uptake was monitored by stimulation of oxygen consumption and by calcium electrode recording, with quite comparable results. Rainbow trout gave the usual linear Arrhenius plot but this plot for rat mitochondria exhibited two well-defined inflections or discontinuities. 3. The temperature dependence of the activity of the ionophore A23187 was investigated by measuring the increase in oxygen uptake following a sub-maximal dose of this drug. Again a linear relation was found for rainbow trout, but in this case the rat curves showed only a single inflection point. 4. These results are discussed in relation to other work on the effects of lipid phase transitions on mitochondrial membrane-associated systems.