Serotonin-induced cytosolic free calcium transients in cultured vascular smooth muscle cells

Serotonin induced a transient elevation in the levels of cytosolic calcium in cultured rat vascular smooth muscle cells. Ketanserin, a selective antagonist of serotonin 2 receptors, dose-dependently inhibited the elevation of cytosolic calcium induced by serotonin, and ultimately unmasked a serotonin-induced decrease in the levels of cytosolic calcium. These observations show that serotonin has direct and dual effects, that is, it increases and decreases cytosolic free calcium concentrations in vascular smooth muscle cells, in culture. Knowledge of such events is important because serotonergic inhibitors may prove to be useful drugs for treating clinical hypertension and vasospastic disorders.     

Effect of hormones on cytosolic free calcium in adipocytes

Some studies have indicated that insulin was able to increase the level of free cytosolic calcium in adipocytes [e.g. 7]. The present study was designed to examine this phenomenon. Insulin did not increase free cytosolic calcium, however oxytocin, vasopressin, alpha-adrenergic agonists and ATP did increase free cytosolic calcium in adipocytes. Other agonists which also did not alter calcium were epidermal growth factor, angiotensin II, glucagon, and beta-adrenergic agonists. The effect of oxytocin at increasing free cytosolic calcium was inhibited by activation of protein kinase C with phorbol 12-myristate 13-acetate and by ADP ribosylation of a Gi like protein with islet activating protein. The hormones that did increase cytosolic free calcium did so by mobilizing internal calcium and by promoting calcium influx. Even though insulin did not increase free cytosolic calcium, it was able to attenuate the alpha-adrenergic mediated increase in cytosolic free calcium. The fact that certain hormones can increase the level of the second messenger calcium in adipocytes implies that it may be a key intracellular regulator of adipocyte function as it is in many other tissues.     

Muscarinic receptors on bovine chromaffin cells mediate a rise in cytosolic calcium that is independent of extracellular calcium

Although the mechanism by which nicotinic receptors on adrenal chromaffin cells regulate catecholamine secretion is reasonably well understood, that of the muscarinic receptors remains obscure. The effects of both acetylcholine and specific muscarinic agonists on cytosolic free calcium in isolated bovine adrenal chromaffin cells have been measured using the fluorescent probe Quin-2. Acetylcholine (0.1 mM) evokes a large increase in cytosolic free calcium from resting levels near 100 nM into the microM range, most of which is blocked by hexamethonium (0.5 mM) or removal of extracellular calcium. A small component of the acetylcholine-evoked rise in cytosolic free calcium (approximately 50-100 nM) is independent of extracellular calcium and is unaffected by 0.5 mM hexamethonium, but is totally blocked by 0.5 microM atropine. The muscarinic nature of this component is further confirmed by the fact that the muscarinic agonists, muscarine (0.1 mM) and methacholine (0.3 mM), stimulate a 50-100 nM rise in chromaffin cell cytosolic calcium which is blocked by 0.5 microM atropine and is largely independent of extracellular calcium. These results suggest that muscarinic receptors regulate cytosolic calcium in chromaffin cells by a new mechanism different from that of nicotinic receptors, a mechanism utilizing an intracellular calcium source. The small size of the muscarinic-induced rise in cytosolic calcium in the bovine chromaffin cell would explain why no secretion is evoked by muscarinic agonists in this species.     

Ceramide increases mitochondrial free calcium levels via caspase 8 and Bid: role in initiation of cell death

We investigated how the mitochondrial phase of ceramide-mediated cell death is initiated in nerve growth factor (NGF)-differentiated PC12 cells. We distinguished three independent effects of ceramide: free radical production; a transient increase in cytosolic free calcium; and a long-lasting increase in mitochondrial free calcium. Only the latter led to cell death, which could be prevented by buffering of mitochondrial calcium with the calcium binding protein calbindin D-28K ectopically expressed in mitochondria. We showed that mitochondrial calcium did not increase as a result of the increase in cytosolic free calcium levels. Rather, it appears to derive from the endoplasmic reticulum (ER) since dantrolene, which inhibits release of calcium from ER into cytosol through ryanodine receptors, prevented the increase in cytosolic free calcium but potentiated the increase in mitochondrial free calcium. This suggests that a transfer of calcium occurs directly, or very locally, between the two organelles. This transfer implicated activation of caspase 8 and cleavage of its substrate Bid, a previously unknown function of these cell death intermediaries. The increase in mitochondrial free calcium was also responsible for the release of cytochrome c into the cytosol, underlining the critical role it plays in ceramide-mediated cell death.     

UV-treated lipoproteins as a model system for the study of the biological effects of lipid peroxides on cultured cells. 4. Calcium is involved in the cytotoxicity of UV-treated LDL on lymphoid cell lines

In lymphoid cells pulsed with ‘cytotoxic’ concentrations of UV-treated LDL, the study of the variations of free cytosolic calcium concentration, of the influence of extracellular calcium and of the protective effect of calcium chelators suggests that both intra- and extracellular calcium could play a major role in the genesis of cell injury leading to cell death. (1) A dramatic sustained rise of cytosolic free calcium (the level of free cytosolic calcium was higher than 500 nmol /1 for 6 h or more) occurred several hours after the beginning of the pulse with UV-treated LDL (lag period between 6 and 12 h). (2) The rise of the free cytosolic calcium and the ‘cytotoxicity’ induced by UV-treated LDL were largely dependent on the concentration of extracellular calcium which has an effect on the uptake of UV-treated LDL and on the expression of the ‘cytotoxicity’ at the cellular level. (3) The study of the sequence of intracellular events showed that the cellular oxidative stress generated by oxidized LDL was followed by the rise of free cytosolic calcium and later by the rise of ‘cytotoxicity’ indexes. (4) The intracellular calcium chelators, BAPTA/AM and EGTA/AM, were able to partially protect lymphoid cells against the ‘cytotoxicity’ of oxidized LDL. The supposed mechanisms of the free cytosolic calcium rise and the respective role of calcium or/and other factors (for instance direct lesions of the plasma membrane by the oxidative stress due to oxidized LDL) in the genesis of cellular lesions leading to cell death are discussed.     

极低频磁场对激动剂诱发钙振荡的影响

从激动剂诱发钙振荡的非线性动力学模型出发, 通过数值计算分析极低频磁场对胞内游离钙离子浓度［Ｃａ２ ＋ ］ｉ 的影响。研究结果表明：只有当外加磁场的频率与胞内钙振荡的特征频率相近时,极低频磁场才会对该细胞的［Ｃａ２ ＋］ｉ 产生影响;由于激动剂诱发钙振荡的动力学模型中的许多参数是因细胞而异的,因此极低频磁场对［Ｃａ２ ＋ ］ｉ 的影响具有显著的个体差异     

Measurement of ionized calcium in blood platelets with a new generation calcium indicator

Fura 2, a new generation calcium indicator, has a 30 fold brighter fluorescence than Quin 2, shows wavelength shifts upon calcium binding and has a relatively low buffering capacity for free calcium. Quin 2, the most widely used fluorophore, on the other hand, shows no wavelength shifts and has a very high affinity for free calcium. Therefore, we have compared the relative merits of these two fluorophores for monitoring agonist induced alterations in platelet cytosolic calcium. Platelets loaded with Fura 2 showed a significant rise in cytosolic calcium when stirred with agonists such as epinephrine, arachidonate and thrombin, whereas Quin 2 loaded platelets demonstrated a rise in cytosolic calcium only with thrombin stimulation. A rise in agonist induced calcium in Fura 2 loaded platelets was prevented when the cells were exposed first to antagonists such as aspirin or prostaglandin E1. Arachidonate refractory platelets, upon stirring with a single agonist, did not show a significant elevation in cytosolic calcium. However, when refractory platelets were first exposed to epinephrine and then challenged with arachidonate, they revealed a significant elevation in cytosolic calcium. Unlike Quin 2, Fura 2 at the highest concentration tested did not inhibit platelet function. Improved properties of Fura 2 suggest that it may be a useful agent to study agonist induced alterations in cytosolic calcium levels in blood platelets.     

高钙摄取对易卒中自发性高血压大鼠的血压和细胞内pH，Na~＋－H~＋交换活性的

本文观察到易卒中自发性高血压大鼠接受高钙（３％）饮食６周后抑制了血压上升，胞浆游离钙浓度降低和血浆钙升高，细胞内ｐＨ也产生改变，接近正常对照的ＷＫＹ大鼠。本文对细胞内ｐＨ，Ｎａ＋－Ｈ＋交换，胞浆游离钙浓度与血压的关系进行了讨论。     

Effect of PDGF-AB heterodimer on a corneal epithelial cell line.

Exposure of cells of a rabbit corneal epithelial cell line (SIRC) to platelet-derived growth factor-AB heterodimer (PDGF-AB) resulted in a rapid and transient elevation of cytosolic free calcium concentration with a maximum at 2 to 3 min after stimulation. The kinetics of the calcium response were dose-dependent, e.g., higher concentrations of PDGF-AB caused a faster rise in cytosolic free calcium concentration. Maximum response was achieved with 10 ng/ml PDGF; higher concentrations up to 100 ng/ml did not further enhance cytosolic free calcium concentration. The ED50 was calculated to be 5 ng/ml PDGF-AB. After complexing extracellular calcium, PDGF-AB still caused a significant rise in cytosolic free calcium concentration indicating a mobilization of calcium from intracellular stores. This rise, however, was less pronounced than in the presence of extracellular calcium. The elevation in cytosolic free calcium concentration was not accompanied by an increased mitotic or proliferative activity of the cells as checked by [3H]thymidine incorporation and counting of cell numbers after 3 days of continuous incubation with various concentrations of PDGF-AB or by alterations in cell size and cell volume. In contrast, alterations in cell shape with a remarkable amount of rounded and partially detached SIRC cells after addition of PDGF-AB were observed within 24 h. Moreover, PDGF-AB caused a reversible distortion of cytoskeletal components such as actin-containing microfilament bundles, microtubules, and vimentin filaments. The results suggest that PDGF-AB may act only as a competence factor for the stimulation of SIRC cells via modification of the intracellular calcium homeostasis.     

Calcium mobilization and catecholamine secretion in adrenal chromaffin cells. A Quin-2 fluorescence study

To better understand the relation between cell calcium and exocytotic secretion, a quantitative dependence of adrenal catecholamine secretion on cytosolic free calcium has been determined for isolated, intact, bovine chromaffin cells, using the fluorescent probe Quin-2. The cells required a threshold of 250-300 nM cytosolic calcium to be reached before detectable secretion occurred and half-maximal secretion occurred near 2 microM cytosolic calcium. Nicotinic receptors mediated an increase of cytosolic calcium from resting levels near 100 nM to levels in the 1-10 microM range within seconds followed by a decay back to resting levels over several minutes. Muscarinic receptors mediated a smaller rise in cytosolic free calcium from 100 to about 200 nM, within seconds. The nicotinic response required extracellular calcium, while the muscarinic response was largely independent of extracellular calcium, suggesting the latter mobilizes intracellular calcium. The acetylcholine-evoked rise in cytosolic calcium decayed by at least two kinetically distinct processes with half-time constants: t1 = 0.6 min and t2 = 3.2 min. Extracellular Na+ deprivation caused a more prolonged elevation of the acetylcholine-evoked calcium transient, suggesting a possible role of Na+/Ca2+ exchange and/or other Na+ -dependent processes in lowering cytosolic calcium following stimulation. The possible perturbing effects of Quin-2 on resting and stimulated cytosolic calcium levels and on secretion were examined and a novel use of Quin-2 to measure membrane calcium flux was demonstrated.     

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.     

Effects of differentiation on purinergic and neurotensin-mediated calcium signaling in human HT-29 colon cancer cells

Calcium signaling is a key regulator of processes important in differentiation. In colon cancer cells differentiation is associated with altered expression of specific isoforms of calcium pumps of the endoplasmic reticulum and the plasma membrane, suggesting that differentiation of colon cancer cells is associated with a major remodeling of calcium homeostasis. Purinergic and neurotensin receptor activation are known regulators of cytosolic free Ca²⁺ levels in colon cancer cells. This study aimed to assess changes in cytosolic free Ca²⁺ levels in response to ATP and neurotensin with differentiation induced by sodium butyrate or culturing post-confluence. Parameters assessed included peak cytosolic free Ca²⁺ level after activation; time to reach peak cytosolic free Ca²⁺ and the EC₅₀ of dose response curves. Our results demonstrate that differentiation of HT-29 colon cancer cells is associated with a remodeling of both ATP and neurotensin mediated Ca²⁺ signaling. Neurotensin-mediated calcium signaling appeared more sensitive to differentiation than ATP-mediated Ca²⁺ signaling.     

Increase of cytosolic calcium induced by trichosanthin suppresses cAMP/PKC levels through the inhibition of adenylyl cyclase activity in HeLa cells

Increase of cytosolic free calcium played a pivotal role in apoptotic cells induced by trichosanthin. However, little is known about the influence of cytosolic calcium increase on adenylyl cyclase activity and intracellular cAMP signaling pathway in HeLa cells. The present study showed that an influx of extracellular Ca²⁺ initiated by trichosanthin was required for the suppression of adenylyl cyclase activity and decrease of intracellular cAMP level. Furthermore, this inhibition was abolished by activation of PKC rather than PKA. Therefore, our results suggested that increase of cytosolic calcium induced by trichosanthin inhibits cAMP levels via suppression of adenylyl cyclase activity.     

Effect of interleukin 1 beta on transducing mechanisms in 235-1 clonal pituitary cells. Part II: Modulation of calcium fluxes

In the present study we investigated the effect of the interleukin 1 beta on intracellular free calcium concentrations in 235-1 cell line both in basal conditions and after stimulation by the calcium channel activator maitotoxin. Interleukin 1 beta (from 0.01 pM to 10 nM) was unable to significantly affect basal cytosolic free calcium levels in acute conditions. The preincubation of these cells with interleukin 1 beta for 48h modulates maitotoxin stimulation of calcium fluxes without modifying basal intracellular free calcium levels. Low concentrations of interleukin 1 beta (0.01 pM, 1 pM) caused a marked reduction of intracellular free calcium concentrations increase induced by maitotoxin while higher doses of the monokine potentiated maitotoxin stimulation of calcium fluxes. The specificity of interleukin 1 beta effect was tested by means of polyclonal anti-interleukin 1 beta antibody (titer 1:100) which significantly abolished the inhibitory effect of interleukin 1 beta on free cytosolic calcium levels. These results show that a long lasting interaction of interleukin 1 beta with its receptor is able to influence voltage-sensitive calcium channels activation induced by maitotoxin in 235-1 cells.     

Erythropoietin increases cytosolic free calcium concentration and thrombin induced changes in cytosolic free calcium in platelets from spontaneously hypertensive rats

Using fura-2 cytosolic free calcium concentrations were measured in intact washed platelets from 9 spontaneously hypertensive rats (SHR) and from 9 age-matched normotensive Wistar-Kyoto rats (WKY). In resting platelets cytosolic free calcium concentration was significantly higher in SHR than in WKY (171.8 +/- 64.4 nM vs 93.1 +/- 59.0 nM, p less than 0.05). After preincubation with erythropoietin cytosolic free calcium concentration was significantly higher in SHR than in WKY (197.5 +/- 83.2 vs 93.0 +/- 60.1, p less than 0.01). Using platelets from SHR erythropoietin increased mean resting cytosolic free calcium concentration by 14.9% (p less than 0.05) and mean thrombin induced changes of cytosolic free calcium by 58.3% (p less than 0.01). In contrast, erythropoietin caused no significant increase in the resting calcium concentration or in thrombin induced changes of cytosolic free calcium in platelets from WKY. It is concluded that erythropoietin is involved in the pathogenesis of hypertension by elevating cytosolic free calcium concentration.     

Actions of Neurotoxic β-Amyloid on Calcium Homeostasis and Viability of PC12 Cells Are Blocked by Antioxidants but Not by Calcium Channel Antagonists

Abstract: The fragment of β-amyloid comprised of amino acids 25–35 induces a rapid, concentration-dependent increase in cytosolic free calcium levels in suspensions of PC12 neuronal cells. This action of β-amyloid 25–35 is not altered by pretreatment with the calcium channel blockers nifedipine or cobalt, with the depleter of intracellular calcium stores cyclopiazonic acid, or with the phospholipase C inhibitor neomycin. However, the effects of β-amyloid 25–35 on cytosolic free calcium are absent in calcium-free buffer and are blocked by the antioxidant lazaroid U-83836E and by vitamin E. β-Amyloid 25–35 is also neurotoxic and produces a concentration-dependent reduction in the viability of PC12 cells in culture. The neurotoxic action of β-amyloid is blocked by U-83836E and vitamin E but not by nifedipine or cobalt. These data indicate that both the disruption of calcium homeostasis and the reduction of cell viability produced by β-amyloid in PC12 cells are mediated by free radical-based processes.     

Proteinaceous and oligosaccharidic elicitors induce different calcium signatures in the nucleus of tobacco cells

We previously reported elevated cytosolic calcium levels in tobacco cells in response to elicitors [D. Lecourieux, C. Mazars, N. Pauly, R. Ranjeva, A. Pugin, Analysis and effects of cytosolic free calcium elevations in response to elicitors in Nicotiana plumbaginifolia cells, Plant Cell 14 (2002) 2627-2641]. These data suggested that in response to elicitors, Ca2+, as a second messenger, was involved in both systemic acquired resistance (RSA) and/or hypersensitive response (HR) depending on calcium signature. Here, we used transformed tobacco cells with apoaequorin expressed in the nucleus to monitor changes in free nuclear calcium concentrations ([Ca2+](nuc)) in response to elicitors. Two types of elicitors are compared: proteins leading to necrosis including four elicitins and harpin, and non-necrotic elicitors including flagellin (flg22) and two oligosaccharidic elicitors, namely the oligogalacturonides (OGs) and the beta-1,3-glucan laminarin. Our data indicate that the proteinaceous elicitors induced a pronounced and sustainable [Ca2+](nuc) elevation, relative to the small effects of oligosaccharidic elicitors. This [Ca2+](nuc) elevation, which seems insufficient to induce cell death, is unlikely to result directly from the diffusion of calcium from the cytosol. The [Ca2+](nuc) rise depends on free cytosolic calcium, IP3, and active oxygen species (AOS) but is independent of nitric oxide.     

Effects of wheat germ agglutinin on the cellular content of filamentous actin in Intestine 407 cells

Increasing experimental evidence suggests that gluten contains a toxic factor that may cause ultrastructural changes in the small intestine which mimic those found in patients with celiac disease. In addition, it has recently been proposed that the toxic factor of gluten is a protein very similar, if not identical, to a well known lectin, wheat germ agglutinin (WGA). Since the cytoskeleton forms the basis of the ultrastructural architecture of the enterocytes the present study was performed to investigate whether WGA has a direct effect on the cytoskeleton in Intestine 407 cells. Changes in the cellular content of filamentous actin (F-actin) in these cells were studied with the fluorescein isothiocyanate (FITC)-phallacidin assay. Cellular exposure to WGA led to a rapid reduction in the cellular content of F-actin (greater than 50%). Intracellular buffering of the cytosolic free calcium level using quin2 as a chelator of calcium totally abolished the WGA-induced reduction in F-actin content. However, increasing the cytosolic free calcium level by exposure to the calcium ionophore ionomycin did not affect the cellular content of F-actin. Ionomycin also failed to potentiate the effect of WGA on the cellular F-actin content. The present results show that WGA changes the organization of the cytoskeleton in Intestine 407 cells via a calcium-dependent mechanism, however, in addition to calcium, some other signal(s), possibly an increased turnover of the phosphatidylinositol cycle, is(are) also required.     

Maitotoxin-Induced Intracellular Calcium Rise in PC 12 Cells: Involvement of Dihydropyridine-Sensitive and ω-Conotoxin-Sensitive Calcium Channels and Phosphoinositide Breakdown

The biological activities of maitotoxin are strictly dependent on the extracellular calcium concentration and are always associated with an increase of the free cytosolic calcium level. We tested the effects of voltage-sensitive calcium channel blockers (nicardipine and omega-conotoxin) on maitotoxin-induced intracellular calcium increase, membrane depolarization, and inositol phosphate production in PC12 cells. Maitotoxin dose dependently increased the cytosolic calcium level, as measured by the fluorescent probe fura 2. This effect disappeared in a calcium-free medium; it was still observed in the absence of extracellular sodium and was enhanced by the dihydropyridine calcium agonist Bay K 8644. Nicardipine inhibited the effect of maitotoxin on intracellular calcium concentration in a dose-dependent manner. The maitotoxin-induced calcium rise was also reduced by pretreating cells with omega-conotoxin. Pretreatment of cells with maitotoxin did not modify 125I-omega-conotoxin and [3H]PN 200-110 binding to PC12 membranes. Nicardipine and omega-conotoxin inhibition of maitotoxin-evoked calcium increase was reduced by pertussis toxin pretreatment. Maitotoxin caused a substantial membrane depolarization of PC12 cells as assessed by the fluorescent dye bisoxonol. This effect was reduced by pretreating the cells with either nicardipine or omega-conotoxin and was almost completely abolished by the simultaneous pretreatment with both calcium antagonists. Maitotoxin stimulated inositol phosphate production in a dose-dependent manner. This effect was reduced by pretreating the cells with 1 microM nicardipine and was completely abolished in a calcium-free EGTA-containing medium. The findings on maitotoxin-induced cytosolic calcium rise and membrane depolarization suggest that maitotoxin exerts its action primarily through the activation of voltage-sensitive calcium channels, the increase of inositol phosphate production likely being an effect dependent on calcium influx. The ability of nicardipine and omega-conotoxin to inhibit the effect of maitotoxin on both calcium homeostasis and membrane potential suggests that L- and N-type calcium channel activation is responsible for the influx of calcium following exposure to maitotoxin, and not that a depolarization of unknown nature causes the opening of calcium channels.     

The relation of elevation of cytosolic free calcium to activation of membrane conductance in rat parotid acinar cells

The relation between elevation of cytosolic free calcium and activation of membrane conductance has been studied in single acinar cells of the rat parotid. Outward and inward currents are activated by calcium elevation and oscillate in phase with oscillations of cytosolic calcium. The outward current results from activation of a large unit-conductance Ca2+ and voltage-dependent K+ channel, whereas the inward current is most likely carried predominantly by Cl-. Both these conductances have been previously described in exocrine cells. Buffering calcium at resting levels eliminated current responses to muscarinic agonists, suggesting that calcium is the only significant second messenger involved in the short-term control of this conductance by acetylcholine.