Complete overlap of caffeine- and K+ depolarization-sensitive intracellular calcium storage site in cultured rat arterial smooth muscle cells

Changes in the concentration of cytosolic free calcium were recorded microfluorometrically in rat vascular smooth muscle cells in primary culture and loaded with quin-2. The effects of caffeine and high extracellular K+ on the release of calcium from the intracellular storage sites were determined. In the absence of extracellular calcium, both the depolarization of plasma membrane with excess extracellular K+ and the application of caffeine induced a transient and dose-dependent elevation of the cytosolic free calcium concentration, with durations of 4 and 2 min, respectively. Transient elevations of calcium repeatedly appeared in response to both repetitive depolarization (100 mM K+) and caffeine (10 mM) applications with progressive reductions in peak levels. In either case, the fifth or later treatments induced little or no rise in levels of the cytosolic calcium. The amount of released calcium induced by high K+ depolarization after (n-1) time applications (1 less than or equal to n less than or equal to 5) of caffeine was equal to that induced by the n-th application of caffeine. The amount of released calcium induced by caffeine after (n-1) time exposures (1 less than or equal to n less than or equal to 5) to K+ depolarization was equal to that observed during the n-th exposure to K+ depolarization. These results indicate that caffeine- and depolarization-sensitive intracellular calcium storage sites may be identical and that caffeine and K+, in optimal concentrations, will release an equal amount of calcium from the same storage site in cultured arterial smooth muscle cells, irrespective of the amount of stored calcium.     

Low-density lipoprotein elevates intracellular calcium and pH in vascular smooth muscle cells and fibroblasts without mediation of LDL receptor

Low-density lipoprotein (7 micrograms/ml) induced in the absence or in the presence of 7, 35, 70 micrograms/ml monoclonal antibodies against the specific Low-density lipoprotein receptor an elevation of intracellular Ca2+ from 105 to approximately 210 nM in vascular smooth muscle cells from rat aorta. Moreover, in both human cultured fibroblasts from normocholesterolemic individuals and from patients with familial hypercholesterolemia homozygote class 1, Low-density lipoprotein (7 micrograms/ml) induced a rise of free intracellular calcium and a biphasic change of intracellular pH. Low-density lipoprotein (1,7,15,30 micrograms/ml) had no significant influence on the phosphatidylinositol-turnover in vascular smooth muscle cells and fibroblasts. Since homozygote class 1 fibroblasts lack specific Low-density lipoprotein receptors, and as antibodies against this receptor did not attenuate the Low-density lipoprotein-induced elevation of cytosolic calcium and pH, we conclude that these intracellular changes are independent from the classical Low-density lipoprotein receptor.     

Calcium homeostasis and nerve growth factor secretion from vascular and bladder smooth muscle cells

Bladder and vascular smooth muscle cells cultured from four rat strains (WKY, SHR, WKHA, WKHT) differing in rates of nerve growth factor (NGF) production were used to determine whether a relationship exists between intracellular calcium and NGF secretion. Basal cytosolic calcium was related to basal NGF secretion rates in bladder and vascular smooth muscle cells from all four strains with the exception of WKHT bladder muscle cells. Thrombin is a calcium-mobilizing agent and increases NGF production from vascular but not bladder smooth muscle cells. Strain differences were found in the magnitude of the calcium peak induced by thrombin in vascular smooth muscle cells, but these differences did not correlate with NGF secretion. Thrombin caused a calcium response in bladder smooth muscle cells without influencing NGF production. Quenching the calcium transient with a calcium chelator had no effect on thrombin-inducted NGF secretion rates in vascular smooth muscle cells. Thus, basal intracellular calcium may establish a set point for NGF secretion from smooth muscle. In addition, transient elevations in cytosolic calcium were unrelated to the induction of NGF output.     

Increased release of serotonin from rat ileum due to dexfenfluramine

Plasma levels of serotonin are elevated in primary pulmonary hypertension even after bilateral lung transplantation, suggesting a possible etiologic role. Serotonin is released primarily from the small intestine. Anorectic agents, such as dexfenfluramine, which can cause pulmonary hypertension, are known to inhibit potassium channels in vascular smooth muscle cells. We examined the hypothesis that dexfenfluramine may stimulate release of serotonin from the ileum by inhibition of K+ channels. In an isolated loop of rat ileum perfused with a physiological salt solution, the administration of dexfenfluramine, its major metabolite D-norfenfluramine, the potassium channel blocker 4-aminopyridine (5 mM), and caffeine (30 mM) increased serotonin levels in the venous effluent. Potassium chloride (60 mM) tended to increase serotonin levels. In genetically susceptible individuals, dexfenfluramine may induce pulmonary hypertension by increasing cytosolic calcium in enterochromaffin cells of the small intestine, thus releasing serotonin and causing vasoconstriction. This work indicates that dexfenfluramine and its major metabolite d-norfenfluramine can increase serotonin release from the small intestine.     

Intracellular free calcium transients induced by norepinephrine in rat aortic smooth muscle cells in primary culture

In cultured rat arterial smooth muscle cells treated with quin 2, cytosolic Ca2+ transients induced by norepinephrine were recorded microfluorometrically. In the presence or absence of extracellular Ca2+, norepinephrine induced transient and dose-dependent elevations in cytosolic Ca2+, with a similar time course, the peak levels being observed at 2 min. These transient elevations in cytosolic Ca2+ were dose-dependently inhibited by alpha-adrenergic antagonists, the order of potency being prazosin greater than phentolamine greater than yohimbine, irrespective of the presence of extracellular Ca2+. We propose that with or without extracellular Ca2+, norepinephrine activates mainly alpha-1 adrenoceptors leading to a release of Ca2+ from intracellular stores. This would explain the transient elevation in cytosolic Ca2+ in rat aortic vascular smooth muscle cells in primary culture.     

Histamine activates H1-receptors to induce cytosolic free calcium transients in cultured vascular smooth muscle cells from rat aorta

Using an intracellularly trapped dye, quin 2, the effects of histamine on cytosolic free calcium concentrations in rat aortic vascular smooth muscle cells in primary culture were recorded, microfluorometrically. When the cells were exposed to histamine, both in the presence and the absence of extracellular Ca2+, there was a rapid, transient and dose-dependent elevation of cytosolic Ca2+ concentrations, with a similar time course. This elevation of cytosolic Ca2+ was dose-dependently inhibited by mepyramine, but not by cimetidine. Thus, histamine activates H1- but not H2- receptors to mediate a release of Ca2+ from the store sites, and there is a rapid and transient elevation of cytosolic Ca2+.     

Regulation of cytosolic calcium by cAMP and cGMP in freshly isolated smooth muscle cells from bovine trachea

The regulation of the cytosolic calcium concentration was investigated in freshly isolated adult bovine tracheal smooth muscle cells using fura 2. These cells contain 1.1 and 1.8 pmol of cGMP kinase and cAMP kinase per mg protein, respectively. Carbachol, histamine, serotonin, isoproterenol, and salbutamol increased the cytosolic calcium in a dose-dependent manner from 79 nM to about 650 nM. Preincubation of these cells for 20 min with isoproterenol, forskolin, 8-Br-cAMP and 8-(4-Cl-phenyl)thio-cAMP did not lower carbachol-induced increases in cytosolic calcium concentration, whereas the phorbol ester 12-O-tetradecanoylphorbol 13-acetate, the atrionatriuretic factor, isobutylmethylxanthine, and 8-Br-cGMP lowered cytosolic calcium. The active fragment of cGMP kinase, but not the catalytic subunit of cAMP kinase lowered carbachol-induced calcium levels. Carbachol released calcium from intracellular stores and increased calcium influx from the extracellular space. The influx was inhibited by preincubation with the calcium channel blockers nitrendipine or gallopamil. Both carbachol-stimulated pathways were suppressed by 8-Br-cGMP. Isoproterenol increased only the influx of calcium from the outside by a channel which was blocked by calcium channel blockers or 8-Br-cGMP. Forskolin and 8-Br-cAMP lowered carbachol- and isoproterenol-stimulated increases in calcium when added shortly before or after the addition of the agonist. In addition, isoproterenol decreased carbachol-stimulated calcium levels when added 10 s after carbachol. The calcium stimulatory effect of isoproterenol was abolished by preincubation of the cells with pertussis toxin or cholera toxin. These results show (a) that the beta 2-adrenoceptor couples in isolated tracheal smooth muscle cells to a dihydropyridine- and pertussis toxin-sensitive calcium channel; (b) that the same channel is opened by carbachol; (c) that cGMP kinase is very effective in decreasing elevated cytosolic calcium concentrations, whereas cAMP-dependent protein kinase has a variable effect on stimulated cytosolic calcium levels.     

K+-depolarization induces a direct release of Ca2+ from intracellular storage sites in cultured vascular smooth muscle cells from rat aorta

Using an intracellularly trapped dye, quin 2, effects of K+-depolarization on cytosolic free calcium concentrations were recorded microfluorometrically in rat aorta vascular smooth muscle cells in primary culture. When the cells were exposed to high extracellular K+ in Ca+-free media containing 2mM EGTA, there was a transient and dose-dependent elevation of cytosolic Ca2+ concentrations. However, the concentration of the cytosolic Ca2+ was not elevated when the intracellularly stored Ca2+ was depleted by the repetitive treatment with caffeine prior to the application of high K+. Thus depolarization of plasma membrane, per se, directly induces a release of Ca2+ from intracellular storage sites in vascular smooth muscle cells, and the main fraction of this released Ca2+ is derived from the caffeine sensitive storage sites; perhaps from the sarcoplasmic reticulum.     

Endothelin stimulates c-fos and c-myc expression and proliferation of vascular smooth muscle cells

Recently, a potent vasoconstrictor peptide, endothelin (EDT), was isolated from vascular endothelial cells. We examined its effect on rat vascular smooth muscle cells (VSMCs). EDT induced the elevation of intracellular calcium, which was dependent on extracellular calcium and inhibited by a calcium-channel antagonist in a competitive manner. EDT caused a rapid and transient increase in the c-fos and c-myc mRNA levels and stimulated the DNA synthesis of VSMCs in a dose-dependent manner. This effect of EDT on the proliferation of VSMCs might be related to the development of atherosclerosis.     

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.     

Does endothelin mobilize calcium from intracellular store sites in rat aortic vascular smooth muscle cells in primary culture?

In the presence of endothelin, there was a rapid increase in the 45Ca++ efflux from primary cultured rat vascular smooth muscle cells, both in physiological salt solution and in calcium free medium containing 2 mM EGTA. The 45Ca++ influx was not affected. The endothelin-induced, transient increase in cytosolic calcium concentration is probably mainly due to release of calcium from the intracellular store in vascular smooth muscle cells.     

Effects of prostaglandins on the cytosolic free calcium concentration in vascular smooth muscle cells

The effects of prostaglandin (PG) F2 alpha and 9,11-epithio-11,12-methanothromboxane A2 (STA2), a stable analogue of thromboxane A2, on the cytosolic free calcium concentration ([Ca2+]i) in vascular smooth muscle cells were studied with a new fluorescent Ca2+ indicator fura 2. PGF2 alpha and STA2, which are strong vasoconstrictors, caused rapid phasic and subsequent tonic increases in [Ca2+]i. PGF2 alpha caused dose-dependent elevation of [Ca2+]i not only in control solution but also in the calcium-free solution. A first stimulation with PGF2 alpha caused dose-dependent decrease in the response of [Ca2+]i to a second stimulation with PGF2 alpha. Pretreatment with 13-Azaprostanoic acid, a receptor level antagonist of thromboxane A2 inhibited the increase of [Ca2+]i induced by STA2. These results suggest that PGF2 alpha induces calcium mobilization followed by smooth muscle contraction through its specific receptors.     

Calmodulin inhibitors suppress calcium signaling from serotonin receptors in smooth muscle cells and abolish vasoconstrictive response on intravenous introduction of serotonin

Comparative study of the effect of calmodulin inhibitors trifluoperazine, W-12, and W-13 and the TRPV1 channel blocker capsazepine on receptor-dependent calcium metabolism in smooth muscle cells of the rat aorta and on the contraction of the isolated rat aorta was performed. Trifluoperazine almost completely abolishes an increase in free cytoplasmic calcium concentration in smooth muscle cells isolated from the rat aorta and smooth muscle cells of the A7r5 line in response to serotonin and does not affect cellular reaction to vasopressin and angiotensin II. W-12 and W-13 also do not attenuate responses to vasopressin and angiotensin II and reduces by two times free cytoplasmic calcium concentration elevation in response to serotonin. The efficiency of calcium metabolism suppression by calmodulin inhibitors correlates with the degree of inhibition of the aorta contractile response to serotonin. It was demonstrated that the inhibitory action of calmodulin antagonists on calcium metabolism in smooth muscle cells and the contractility of the isolated rat aorta during the activation of serotonin vasoconstrictive receptors are realized by a TRPV1-independent mechanism. It was demonstrated in experiments in vivo that trifluoperazine does not influence hypotensive reaction in rats (normally observed in response to intravenous serotonin injection), but removes the hypertensive effect of this neurotransmitter in rats after chronic introduction of dexamethasone. The results obtained confirm the hypothesis (that we previously stated) about the direct involvement of calmodulin in signal transmission from vasoconstrictive serotonin receptors.     

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.     

Mastoparan, a wasp venom, activates platelets via pertussis toxin-sensitive GTP-binding proteins

Mastoparan induced limited release of serotonin from intact human platelets, while neither intracellular calcium ion elevation nor arachidonic acid mobilization was observed. Cytolysis induced by mastoparan was negligible in the concentration range that induced serotonin release. In digitonin-permeabilized cells, mastoparan induced Ca(++)-independent release of serotonin and Ca(++)-dependent arachidonic acid release. Both serotonin release and arachidonic acid release were reduced by pertussis toxin, suggesting that platelet activation induced by mastoparan is mediated by GTP-binding proteins.     

Neuropeptide Y receptor-effector coupling mechanisms in cultured vascular smooth muscle cells

Primary cultures of rabbit pulmonary artery (RPA) vascular smooth muscle (VSM) were utilized to determine the coupling of neuropeptide Y (NPY) receptors to several effector systems in VSM. NPY inhibited forskolin-stimulated adenylate cyclase by 65%, with an EC50 of 0.3 nM. However, NPY did not stimulate phosphoinositide (PI) hydrolysis or the elevation of cytosolic calcium, (Ca+2)i, in cultured RPA-VSM cells, nor did it potentiate norepinephrine-induced PI hydrolysis or elevation of (Ca+2)i. These results suggest that NPY-induced vasocontraction is not mediated by PI hydrolysis or the modulation of (Ca+2)i.     

Sphingosine 1-phosphate promotes antigen processing and presentation to CD4+ T cells in Mycobacterium tuberculosis-infected monocytes

It was previously shown that cells die with increased cytosolic ATP after stimulation with apoptotic inducers including staurosporine (STS). To identify the source of apoptotic ATP elevation, we monitored, in real time, the cytosolic ATP level in luciferase-expressing HeLa cells. A mitochondrial uncoupler or a respiration chain inhibitor was found to decrease cytosolic ATP by about 50%. However, even when mitochondrial ATP synthesis was suppressed, STS induced a profound elevation of intracellular ATP. In contrast, the STS-induced ATP increase was prevented by any of three inhibitors of the glycolytic pathway: 2-deoxyglucose, iodoacetamide, and NaF. The STS effect strongly depended on intracellular calcium and was mimicked by a calcium ionophore. We conclude that Ca(2+)-dependent activation of anaerobic glycolysis, but not aerobic mitochondrial oxidative phosphorylation, is responsible for the STS-induced elevation of ATP in apoptotic HeLa cells.     

Calcium signatures and signaling in cytosol and organelles of tobacco cells induced by plant defense elicitors

Calcium signatures induced by two elicitors of plant defense reactions, namely cryptogein and oligogalacturonides, were monitored at the subcellular level, using apoaequorin-transformed Nicotiana tabacum var Xanthi cells, in which the apoaequorin calcium sensor was targeted either to cytosol, mitochondria or chloroplasts. Our study showed that both elicitors induced specific Ca(2+) signatures in each compartment, with the most striking difference relying on duration. Common properties also emerged from the analysis of Ca(2+) signatures: both elicitors induced a biphasic cytosolic [Ca(2+)] elevation together with a single mitochondrial [Ca(2+)] elevation concomitant with the first cytosolic [Ca(2+)] peak. In addition, both elicitors induced a chloroplastic [Ca(2+)] elevation peaking later in comparison to cytosolic [Ca(2+)] elevation. In cryptogein-treated cells, pharmacological studies indicated that IP(3) should play an important role in Ca(2+) signaling contrarily to cADPR or nitric oxide, which have limited or no effect on [Ca(2+)] variations. Our data also showed that, depending on [Ca(2+)] fluxes at the plasma membrane, cryptogein triggered a mitochondrial respiration increase and affected excess energy dissipation mechanisms in chloroplasts. Altogether the results indicate that cryptogein profoundly impacted cell functions at many levels, including organelles.     

Vasoconstriction: a novel activity for low density lipoprotein

Low density lipoprotein plays an important role in the pathogenesis of atherosclerosis. Cumulative addition of 1-30 micrograms/ml of LDL from normolipidemic subjects produced a dose-dependent increase in contractile tension of thoracic aortic rings from rats. The maximal LDL-induced contractile response was approximately 30% of that induced by 1 microM norepinephrine. Similar concentrations of LDL induced a dose-dependent transient increase of the concentration of intracellular free calcium, and a biphasic change of the intracellular pH in cultured rat vascular smooth muscle cells. We conclude that low density lipoprotein occurring for example in the extravascular fluid can mediate vasoconstriction by changes in cytosolic calcium and intracellular pH.     

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.