The role of extra- and intracellular calcium in pepsinogen extrusion by isolated gastric glands]

It was found that carbacholine stimulated pepsinogen extrusion by isolated guinea pig stomach glands which were incubated in Ca(2+)-free medium, containing EGTA (0.25 mM). This effect could be imitated by caffeine (10 mM), a specific activator of Ca2+ release from intracellular pools. Extracellular Ca2+ in the concentrations over 0.125 mM increased pepsinogen extrusion which was stimulated by carbacholine. The interdependence between the level of pepsinogen extrusion and Ca2+ concentration in the medium had S-shaped character. La3+ ions (10(-4) mM) inhibited pepsinogen extrusion already in the first minutes after its activation by carbacholine. When testing other cations (Sr2+, Mg2+, Ba2+) it was found that only Sr2+ had some influence on pepsinogen extrusion. Thus, it can be concluded that both intra- and extracellular Ca2+ take part in the activation of pepsinogen extrusion. Obviously the role of extracellular Ca2+ consists in the support of reactivity of stomach glands to the action of stimulators of secretion.     

Effects of the calcium ionophore A-23187 on the regulation of sugar transport in muscle

The distribution of (¹⁴C)-3-0-methyl-D-glucose and of (⁴⁵Ca) was followed in perifused left atria and intact hemidiaphragms of the rat. The carboxylic calcium ionophore A-23187 affected sugar and Ca²⁺ influx in parallel, with low concentrations inhibiting and higher ones stimulating influx under basal conditions. The stimulation of sugar transport by insulin, high concentrations of adrenaline or ouabain, or by K⁺-free medium was antagonized by the calcium ionophore. Likewise, A-23187 counteracted the depression of sugar transport caused by low concentrations of ouabain or adrenaline. These results support a role of Ca²⁺ in the regulation of sugar transport in muscle. However, increased influx of Ca²⁺ cannot explain all the effects of A-23187. It is suggested that the ionophore may also act by releasing Ca²⁺ from intracellular storage and binding sites.     

Regulation of glucose transport in Ca2+-tolerant myocytes from adult rat heart

Calcium-tolerant cardiac myocytes were isolated from adult rat ventricles and sarcolemmal glucose transport was assessed by measuring linear initial uptake rates of the nonmetabolized glucose analog 3-O-methyl-D-glucose in the presence and absence of Ca2+ in the incubation medium. (1) Agents which are known to increase internal Na+ and thus stimulate Ca2+ influx via Na+-Ca2+ exchange stimulated 3-methylglucose transport in the presence of external Ca2+. These include low-Na+ medium, 10(-6) M ouabain and K+-free medium, cyanide and the sodium ionophore, monensin. Hyperosmolarity stimulated transport also in the absence of Ca2+, consistent with release of Ca2+ from internal stores. Transport was decreased in a hypo-osmolar medium and with 10(-9) M ouabain, a concentration which stimulates the Na+ pump. (2) The calcium ionophore A23187 increased basal 3-methylglucose transport but opposed stimulation of transport by insulin. (3) Insulin-stimulated transport was antagonized by palmitate and this effect was reversed by 2-bromostearate, an inhibitor of fatty acid oxidation. These results are identical in all respects to those obtained in intact cardiac and skeletal muscle preparations, confirming that hexose transport in muscle shows Ca2+ dependence and indicating that isolated cardiac myocytes are suitable for the study of this phenomenon.     

Capacitative calcium entry in guinea pig gallbladder smooth muscle in vitro

This study investigates the involvement of capacitative Ca2+ entry in excitation-contraction coupling in guinea pig gallbladder smooth muscle. Thapsigargin (0.1 nM-1 microM, a sarcoplasmic reticulum Ca(2+)-ATPase inhibitor) produced slowly developing sustained tonic contractions in guinea pig isolated gallbladder strips. All contractions approached 50% of the response to carbachol (10 microM) after 55 min. Contractile responses to thapsigargin (1 microM) were abolished in a Ca(2+)-free medium. Subsequent re-addition of Ca2+ (2.5 mM) produced a sustained tonic contraction (99 +/- 6% of the carbachol response). The contractile response to Ca2+ re-addition following incubation of tissues in a Ca(2+)-free bathing solution in the absence of thapsigargin was significantly less than in its presence (79 +/- 4 % vs 100 +/- 7 % of carbachol; p < 0.05). Contractile responses to Ca2+ re-addition following treatment with thapsigargin were attenuated by (a) the L-type voltage-operated Ca2+ channel antagonist, nifedipine (10 microM) and (b) the general inhibitor of Ca2+ entry channels including store-operated channels, SK&F96365 (50 microM and 100 microM). In separate experiments, responses to Ca2+ re-addition were essentially abolished by the tyrosine kinase inhibitor, genistein (100 microM). These results suggest that capacitative Ca2+ entry provides a source of activator Ca2+ for guinea pig gallbladder smooth muscle contraction. Contractile responses to Ca2+ re-addition following depletion of sarcoplasmic reticulum Ca2+ stores with thapsigargin, are mediated in part by Ca2+ entry through voltage-operated Ca2+ channels and by capacitative Ca2+ entry through store-operated Ca2+ channels which can be blocked by SK&F96365. Furthermore, capacitative Ca2+ entry in this tissue may be modulated by tyrosine kinase.     

Sarcolemmal glucose transport in Ca2+-tolerant myocytes from adult rat heart. Calcium dependence of insulin action

Cardiac myocytes were isolated from adult rat ventricles by a method which preserves their functional integrity, including long survival in physiological concentrations of Ca2+. Sarcolemmal glucose transport was assessed by measuring linear initial uptake rates of the nonmetabolized glucose analog 3-O-methyl-D-glucose. Transport was saturable and showed competition by D-glucose and other features of chemical and stereo-selectivity. Transport was stimulated by insulin in a dose-dependent manner, resulting in an almost 5-fold increase in Vmax, with little change in Km. Stimulation of 3-methylglucose transport by insulin was largely Ca2+-dependent. Omission of Ca2+ from the incubation medium caused a minor rise in basal 3-methylglucose uptake but the insulin-stimulated rise in Vmax was only 30%. The Ca2+ antagonist D600 also antagonized stimulation of hexose transport by insulin. In all the above respects, 3-methylglucose transport in myocytes is identical to that in intact heart muscle. In addition, the decrease in insulin response by Ca2+ omission was partially reversed by subsequent return to a Ca2+-containing medium. ATP levels remained stable in the absence of Ca2+, showing that the Ca2+ dependence did not reflect nonspecific cell damage.     

The role of calcium in stimulation of sugar transport in muscle by lithium

We have investigated the relation between the stimulation of sugar transport by Li+ and Li+-induced changes in cellular Ca2+ distribution. The fluxes of 3-O-[14C]methyl-D-glucose and 45Ca were measured in hemidiaphragm, soleus, and cardiac muscles of the rat, and cellular levels of Ca2+, Na+ and K+ were determined. Li+ increased in parallel the fluxes of 3-O-[14C]methyl-D-glucose and 45Ca in rat hemidiaphragm and soleus muscles. Sugar transport and Ca2+ efflux were also stimulated by Li+ in Ca2+-free medium, suggesting that in addition to increasing sarcolemmal Ca2+ influx, Li+ may also cause the release of Ca2+ from intracellular storage sites, presumably the mitochondria. Mitochondria were isolated from preparations of rat ventricular muscle exposed to Li+, and their Ca2+ content was determined. In rat cardiac muscle, Li+ stimulation of sugar transport was associated with decreased mitochondrial Ca2+ levels (indicating mitochondrial Ca2+ release) only under conditions of deteriorating mitochondrial function. Thus, Li+-induced changes in cellular Ca2+ distribution, which would increase cytosolic Ca2+ levels, were associated with stimulation of sugar transport. These observations support the hypothesis that the increased availability of cytosolic Ca2+ regulates the activity of the sugar transport system in muscle.     

Histaminergic effect of crude papaya latex on isolated guinea pig ileal strips.

In the present study, we investigated the effect of the crude latex of Carica papaya L. (CPX) on isolated guinea pig ileal strips. CPX (0.5-512 microg/ml) caused concentration-dependent contraction of ileal strips suspended in Tyrode solution. The concentration of atropine (0.69 microM) that significantly blocked the contractile effect of acetylcholine on the isolated guinea pig ileum showed no significant effect on CPX- and histamine-induced contractions of the ileal strips. Mepyramine (87.6 nM) significantly blocked the contractile effect of histamine and CPX on the ileum. The same concentration of mepyramine, however, had no significant effect on acetylcholine-induced contraction of the isolated ileal strips. Removal of Ca2+ from the bathing medium abolished ileal contractions induced by acetylcholine, histamine and CPX. All the test substances were able to provoke ileal contractions after replacement of the Ca(2+)-free solution with Tyrode solution. Furthermore, 10(-5) M of nifedipine, a Ca(2+)-entry antagonist, reversibly inhibited the contractile effect of all the test substances on the ileal strips. Results of this study together appear to show that CPX-induced contraction of the isolated guinea pig ileum is mediated via H1-receptors and dependent on extracellular Ca2+ influx.     

三羟异黄酮对豚鼠心室肌细胞内游离钙浓度的影响

用激光共聚焦显微镜观察研究三羟异黄酮(genistein,GST)对豚鼠心室肌细胞内游离钙浓度([Ca^2 ]i)的影响。结果用相对荧光强度(FI-F0／FX0,％)表示。实验结果显示,在正常台氏液、无钙台氏液和正常台氏液中加入3mmol／L EGTA后,GST(10～40μmol／L)浓度依赖性地降低细胞内钙浓度。蛋白酪氨酸磷酸酶抑制剂正钒酸钠(sodium orthovanadate)和L-型Ca^2 通道激动剂Bay K8644可部分抑制正常台氏液时GST的效应。当细胞外液钙浓度由1mmol／L增加到10mmol／L而诱发心室肌细胞钙超载时,部分心室肌细胞产生可传播的钙波,GST(40μmol／L)可降低钙波的传播速度和持续时间,最终阻断钙波。以上结果提示,GST降低心室肌细胞内游离钙浓度,此作用与其抑制电压依赖性Ca^2 通道、减弱酪氨酸激酶抑制和豚鼠心室肌细胞肌浆网内钙释放有关。     

Calcium requirement for the inhibition by theophylline of histamine release from mast cells

When added to Ca2+-free Hanks' solution, Ca2+ (0.1-2.5 mM) had no significant effect on antigen-induced histamine release from rat mast cells, but Sr2+ (1.0-3.0 mM) dose-dependently increased the release. Ba2+ (1.0 and 2.0 mM) also enhanced the release. Ca2+ and Ba2+ inhibited compound 40/80-induced histamine release, in a dose-dependent manner. In ordinary Hanks' medium, theophylline and 3-isobutyl-1-methylxanthine (IBMX) dose-dependently inhibited the antigen-induced histamine release but these drugs were ineffective in Ca2+-free medium. Theophylline (1.0 mM) also inhibited compound 48/80-induced histamine release in the presence but not absence of Ca2+. There was an optimal Ca2+ concentration for the theophylline effect. Sr2+ but not Ba2+ could substitute for Ca2+ in supporting the theophylline effect. Theophylline (1.0 mM) and IBMX (1.0 mM) increased mast cell cyclic AMP levels both in the presence and absence of Ca2+. These results suggest that Ca2+ is required in the interaction of theophylline and specific sites on mast cells or in the mast cell response to theophylline which probably does not involve the cyclic AMP increase and is linked to the inhibition of histamine release.     

Ca2+-dependence of the evoked release from guinea pig cerebral cortex slices of endogenous 14C-labelled amino acids, labelled via D-[U-14C]glucose.

Spontaneous and electrically evoked release of exogenous labelled amino acids and endogenous amino acids labelled from D-[U-14C]glucose were compared in control and Ca2+-free medium using guinea pig cerebral cortex slices. Spontaneous release of all labelled amino acids, except that of endogenous 14C-labelled threonine-serine-glutamine (unseparated) and exogenous [14C]aspartate, was doubled in Ca2+-free medium. The major portion of the electrically evoked release of endogenous [14C]glutamate, [14C]aspartate, gamma-amino[14C]butyrate (14C-labelled GABA) and exogenous 3H-labelled GABA was Ca2+-inpendent. More than half of the evoked release of the other labelled amino acids was Ca2+-independent. As the pattern of Ca2+-dependence of the evoked release concurred with the selectivity of the evoked release for endogenous [14C]-glutamate, [14C]aspartate, and 14C-labelled GABA, it was concluded that these labelled amino acids were probably released from the amino acid 'transmitter pool'.     

Contribution of ATP synthase to stimulation of respiration by Ca2+ in heart mitochondria

A variety of experimental conditions were applied with the aim to estimate the correlation between the contribution of ATP synthase to the respiratory flux control and the calcium-induced activation of succinate oxidation in heart mitochondria isolated from rat, rabbit and guinea pig. The sensitivity of respiration in heart mitochondria to the decrease in temperature from 37 degrees C to 28 degrees C decreases in the order rabbit > guinea pig > rat. Ca2+ effect on succinate oxidation rate in state 3 respiration was species- and temperature-dependent and ranged from 0 (rat, 37 degrees C) to +44% (rabbit, 28 degrees C). For mitochondria from all experimental animals, the increase of Ca2+ in physiological range of concentration did not change state 2 respiration rate, and the stimulatory effect of Ca2+ on state 3 respiration was more pronounced at 28 degrees C than at 37 degrees C. The respiratory subsystem was sensitive to Ca2+ ions only in rabbit heart mitochondria. A high positive correlation between Ca2+ ability to stimulate succinate oxidation in state 3 and the control exerted by ATP synthase over the respiratory flux provides argument confirming stimulation of ATP synthase by Ca2+ ions.     

The role of calcium ion in the L-glutamate-induced depolarization in the frog spinal cord

1. The role of Ca2+ in L-glutamate-induced depolarization was investigated in the isolated frog spinal cord. 2. The size of a depolarization induced by L-glutamate (3 mM) was inversely related to the extracellular Ca2+ concentration, but was reduced in a Ca2+-free medium containing EGTA (0.3 mM). 3. L-Glutamate caused a marked depolarization in both ventral and dorsal roots, even in a NaCl-deficient medium (Ca2+, 2.0 mM). The size of the depolarization was attenuated by a prolonged or repeated application of L-glutamate. Ca2+ can be replaced by Sr2+ or Mg2+. 4. Concanavalin A (1 microM) prevents the development of desensitization to L-glutamate. 5. Present results suggest that Ca2+ plays the role of a charge carrier for L-glutamate-induced depolarization and of a regulator of modulator for L-glutamate-receptor sensitivity. The roles are exaggerated in NaCl-free medium.     

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.     

Stimulation of hexose uptake in rat thymic lymphocytes by phorbol ester. A role for Ca2+ and Na+H+ exchange?

The tumor promoter 12-0-tetradecanoyl phorbol-13-acetate (TPA) stimulates hexose uptake into rat thymocytes. This study explores two possible messengers of this stimulation: changes in cytosolic [Ca2+], and activation of the Na+/H+ antiport. The cytosolic level of Ca2+, determined by the fluorescence of quin-2, was elevated by TPA, and this rise required extracellular Ca2+. In contrast, stimulation of hexose uptake was still observed in Ca2+ -free media even when cytoplasmic [Ca2+] was buffered with quin-2. TPA also raised the cytoplasmic pH, presumably through activation of the Na+/H+ exchange. However, replacement of extracellular Na+ by N-methylglucamine+ or choline+ which prevents the cytoplasmic alkanization did not prevent stimulation of hexose uptake by TPA. Moreover, amiloride, at concentrations that inhibit Na+/H+ exchange in these cells, did not interfere with stimulation of hexose uptake by TPA. In conclusion, stimulation of hexose uptake by phorbol ester in rat thymocytes does not appear to be mediated by changes in cytosolic free Ca2+ or in the activity of the Na+/H+ antiport.     

The possible influence of testosterone on calcium ion transport (investigated) in guinea pig uterus.

The influence of testosterone on voltage-dependent calcium channels was observed indirectly in Ca(2+)-free depolarizing K+ solution (DKS). In this solution cumulative dose response curves to CaCl2 by increasing the Ca2+ concentration in logarithmic increments (10(-5)-10(-3) mol.1(-1] were obtained. The maximal response to CaCl2 and pD2 value were evaluated in these experiments. Decrease of guinea pig uterus contractility to CaCl2 after testosterone (T) administration was found. The pD2 value was unchanged. The possible influence of testosterone on calcium ion release from intracellular storage was investigated in Ca(2+)-free Tyrode's solution (TS). The reactivity of uterus to oxytocin (OT) at a dose of 2.10(-4) mol.1(-1) was decreased after testosterone administration. According to these results an important role of testosterone on calcium ion transport in myometrial cells could be suggested.     

BAY K 8644, a 1,4-Dihydropyridine Ca2+ Channel Activator: Dissociation of Binding and Functional Effects in Brain Synaptosomes

K+-stimulated 45Ca2+ uptake into rat brain and guinea pig cerebral cortex synaptosomes was measured at 10 s and 90 s at K+ concentrations of 5-75 mM. Net increases in 45Ca2+ uptake were observed in rat and guinea pig brain synaptosomes. 45Ca2+ uptake under resting or depolarizing conditions was not increased by the 1,4-dihydropyridine BAY K 8644, which has been shown to activate Ca2+ channels in smooth and cardiac muscle. High-affinity [3H]nitrendipine binding in guinea pig synaptosomes (KD = 1.2 X 10(-10) M, Bmax = 0.56 pmol mg-1 protein) was competitively displaced with high affinity (IC50 2.3 X 10(-9) M) by BAY K 8644. Thus high-affinity Ca2+ channel antagonist and activator binding sites exist in synaptosome preparations, but their relationship to functional Ca2+ channels is not clear.     

A possible explanation for effects of Sr2+ on contraction-relaxation cycle in canine stomach

Effects of Sr2+ on smooth muscle activity and Ca2+ movement by plasma membrane (PM) were examined in preparations isolated from canine stomach to determine how Sr2+ modulates the contraction-relaxation cycle in smooth muscle. Sr2+ caused contraction in Ca2+-free solution. In the presence of Sr2+, KCl caused a response similar to that in normal Ringer's solution, this contraction was inhibited by both nitroprusside and verapamil. Sr2+ inhibited Ca2+ uptake by PM in the presence and absence of ATP. Release of Ca2+ from loaded PM vesicles was accelerated by Sr2+. Results suggest that Sr2+ could replace Ca2+ in Ca2+ binding sites in the cell.     

Characterization of Ca2+ uptake by guinea pig epididymal spermatozoa

Comparative studies of Ca2+-uptake by guinea pig spermatozoa were performed with fresh epididymal sperm and with cells preincubated in a chemically defined, Ca2+-free medium for capacitation. Calcium uptake was negligible in fresh spermatozoa, but increased dramatically after 20 min of incubation at 37 degrees C in the presence of pyruvate and lactate. Spermatozoa incubated in the absence of these substrates accumulated only 34% as much 45Ca2+ as was taken up by cells in complete medium. The monosaccharides glucose, fructose, and mannose and the nonmetabolizable sugars 2-deoxyglucose and sucrose inhibited the enhancement of Ca2+-permeability. In the presence of 6 mM sucrose 45Ca2+ uptake was not influenced by external sodium chloride concentration between 0 mM and 145 mM. The respiratory activity of the capacitated spermatozoa not only was higher than that of uncapacitated cells, but it was stimulated by Ca2+. No effect of Ca2+ on respiration of fresh spermatozoa was detected. An increase in calcium uptake was associated with increasing pH of the medium. It is possible that a regulatory mechanism through the calcium permeability of the plasma membrane of guinea pig spermatozoa exists and controls the development of physiological events related with the fertilization process. The sugar composition, the availability of the energy substrates lactate and pyruvate, and the pH of the reproductive tract fluids could play an important role in the accessibility of Ca2+ into the cells in vivo, as has been demonstrated in vitro. The enhancement of calcium permeability during the preincubation could be a useful indicator to verify if capacitation has occurred.     

Regulation of 3-O-methyl-D-glucose uptake in isolated bovine adrenal chromaffin cells

We showed earlier that insulin stimulated sugar transport in adrenal chromaffin cells (Bigornia, L. and Bihler, I. Biochim. Biophys. Acta 885, 335-344). Transport regulation and its Ca2+ -dependence was further investigated in isolated bovine adrenal chromaffin cells, serving as a model of a homogeneous neuronal cell population. Uptake of the nonmetabolizable glucose analogue, 3-O-methyl-D-glucose was stimulated by hyperosmolar medium, and this effect was abolished in the absence of external Ca2+, or depressed in the presence of La3+ or the slow Ca2+ channel blocker methoxyverapamil. Basal transport was also stimulated by factors (acetylcholine, carbamylcholine, low-Na+ medium), which cause Ca2+ -dependent catecholamine release, and these effects were abolished in Ca2+ -free medium. In addition insulin, acetylcholine, hyperosmolar and low-Na+ medium significantly increased 45Ca uptake. Thus, glucose transport in adrenal chromaffin cells was stimulated by insulin and hyperosmolarity in a Ca2+ -dependent manner, as in muscle. Sensitivity to secretory stimuli, a regulatory feature perhaps characteristic of this cell type, was also demonstrated. In contrast to muscle, sugar transport was not affected by Na+ -pump inhibition, metabolic inhibitors or the Na+ ionophore monensin, suggesting that Ca2+ influx by Na+/Ca2+ exchange does not play a significant role in the activation of sugar transport in chromaffin cells.     

Metabolic consequences of a species difference in Gibbs free energy of Na+/Ca2+ exchange: rat versus guinea pig

The Gibbs free energy of the sarcolemmal Na+/Ca2+ exchanger (DeltaG(Na/Ca)) determines its net Ca2+ flux. We tested the hypothesis that a difference of diastolic DeltaG(Na/Ca) exists between rat and guinea pig myocardium. We measured the suprabasal rate of oxygen consumption (VO2) of arrested Langendorff-perfused hearts of both species, manipulating DeltaG(Na/Ca) by reduction of extracellular Na+ concentration, [Na+](o). Hill equations fitted to the resulting VO2-[Na+](o) relationships yielded Michaelis constant (K(m)) values of 67 and 25 mM for rat and guinea pig, respectively. We developed and tested a simple thermodynamic model that attributes this difference of K(m) values to a 7.84 kJ/mol difference of DeltaG(Na/Ca). The model predicts that reversal of Na+/Ca2+ exchange, leading to diastolic Ca2+ influx, should occur at a value of [Na+](o) about three times higher in rat myocardium. We verified this quantitative prediction using fura 2 fluorescence to index intracellular Ca2+ concentration in isolated ventricular trabeculae at 37 degrees C. The postulated difference in free energy of Na+/Ca2+ exchange explains a number of reported disparities of Ca2+ handling at rest between rat and guinea pig myocardia.