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1.
Rat submandibular glands were digested with crude collagenase, and the intracellular calcium concentration of the cellular suspension was measured using fura-2. In the absence of extracellular magnesium and calcium ([Ca2+]o), ATP had no effect; the response to ATP peaked at 1–2.5 mM [Ca2+]o and was inhibited at 5 mM. One millimolar (mM) extracellular ATP did not increase the leak of LDH or fura-2; 10 m?M Coomassie brilliant blue G specifically inhibited the effect of ATP on [Ca2+]in. Depleting intracellular calcium pools with thapsigargin did not affect the response to ATP. Using a Ca2+-free/Ca2+ reintroduction protocol, it was shown that ATP and thapsigargin increase the uptake of extracellular calcium. The effect of the two agonists was synergistic. Removal of extracellular sodium inhibited the effect of carbachol on [Ca2+]in and the calcium uptake but potentiated the response to ATP. These results suggest that, after binding to purinergic receptors, extracellular ATP4- increases [Ca2+]in. ATP4- does not mobilize thapsigargin-sensitive intracellular calcium pools (among which is the IP3-sensitive calcium pool) but stimulates the uptake of extracellular calcium by a mechanism inhibited by extracellular sodium, probably by opening a nonselective cation channel. © 1994 Wiley-Liss, Inc.  相似文献   

2.
Phosphatidylinositol 3′-kinase (PI 3′-kinase) plays an important role in the migration of hepatocytes, endothelial cells and neoplastic cells to agonists which activate cellular tyrosine kinases. We examined the PI 3′-kinase-dependent chemotactic responses of neutrophilic leukocytes induced by phosphatidic acid (PA) in order to clarify mechanisms by which the enzyme potentially influences cellular migration. Western analysis of immunoprecipitates indicated that PA induced the tyrosine phosphorylation of three distinct proteins involved in functional activation which co-immunoprecipitated in PA-stimulated cells. These proteins were identified as lyn, syk and the 85 kDa regulatory subunit of PI 3′-kinase. Chemotactic responses to PA but not to several other neutrophil agonists were inhibited by the PI 3′-kinase inhibitors wortmannin and LY294002. Chemotactic inhibition resulted from upstream inhibition of calcium mobilization. Chelation of extracellular calcium by ethylene glycol-bis(β-aminoethyl ether) N,N,N′,N′-tetraacetic acid (EGTA) did not affect the PA-induced chemotaxis, whereas chelation of intracellular calcium by 1,2-bis(2-aminophenoxy)-ethane-N,N,N′,N′-tetraacetic acid (BAPTA) attenuated this response. Thus, changes in intracellular Ca2+ levels that can be effected by Ca2+ mobilized from intracellular stores in the absence of Ca2+ influx regulate PA-induced chemotaxis. Furthermore, PI 3′-kinase inhibition blunted the agonist-dependent generation of inositol 1,4,5-trisphosphate (IP3), suggesting that PI 3′-kinase exerted its effects on calcium mobilization from intracellular sources by mediating activation of phospholipase C (PLC) in PA-stimulated cells. Moreover, the PI 3′-kinase inhibitor LY294002 also inhibited phosphorylation of syk in PA-stimulated cells. We, therefore, propose that products of PI 3′-kinase confined to the inner leaflet of the plasma membrane play a role in activation of syk, calcium mobilization and induction of chemotactic migration.  相似文献   

3.
Estradiol had abiphasic effect on permeability across cultures of human umbilical veinendothelial cells (HUVEC): at nanomolar concentrations it decreased theHUVEC culture permeability, but at micromolar concentrations itincreased the permeability. The objective of the present study was totest the hypothesis that the changes in permeability were mediated bynitric oxide (NO)-related mechanisms. The results revealed dualmodulation of endothelial paracellular permeability by estrogen.1) An endothelial NO synthase (eNOS)-, NO-, and cGMP-related,Ca2+-dependent decrease inpermeability was activated by nanomolar concentrations of estradiol,resulting in enhanced Clinflux, increased cell size, and increases in the resistance of thelateral intercellular space(RLIS) and inthe resistance of the tight junctions(RTJ); theseeffects appeared to be limited by the ability of cells to generate cGMPin response to NO. 2) An inducibleNO synthase (iNOS)- and NO-related,Ca2+-independent increase inpermeability was activated by micromolar concentrations of estradiol,resulting in enhanced Clefflux, decreased cell size, and decreasedRLIS andRTJ. We conclude that the net effect on transendothelial permeability across HUVEC depends on the relative contributions of each of these two systems tothe total paracellular resistance.  相似文献   

4.
Induction of sporulation in Blastocladiella emersonii is absolutely dependent on extracellular calcium. Vegetative cells grown in media with or without calcium do not sporulate in media devoid of calcium or in CaCl2 with EGTA. Calcium channel blockers, CoCl2 and nifedipine, and ionophore A23187 inhibited the induction of sporulation. The calmodulin antagonists trifluoperazine and chlorpromazine inhibited the sporulation when present in the cultures at least 60 min after induction. So, calcium that is accumulated during growth is not sufficient or is not mobilized to initiate sporulation, and a calcium influx is likely to occur by type II calcium channel functions, essential for the response to nutritional starvation. A calmodulin-like protein has been suggested to mediate calcium events in sporulation.  相似文献   

5.
We have previously reported that angiotensin II (ANG II) induces oscillations in the cytoplasmic calcium concentration ([Ca2+]i) of pulmonary vascular myocytes. The present work was undertaken to investigate the effect of ANG II in comparison with ATP and caffeine on membrane currents and to explore the relation between these membrane currents and [Ca2+]i. In cells clamped at −60 mV, ANG II (10 μM) or ATP (100 μM) induced an oscillatory inward current. Caffeine (5 μM) induced only one transient inward current. In control conditions, the reversal potential (Erev) of these currents was close to the equilibrium potential for Cl ions (ECl = −2.1 mV) and was shifted towards more positive values in low-Cl solutions. Niflumic acid (10–50 μM) and DIDS (0.25-1 mM) inhibited this inward current. Combined recordings of membrane current and [Ca2+]i by Indo-1 microspectrofluorimetry revealed that ANG II- and ATP-induced currents occurred simultaneously with oscillations in [Ca2+]i, whereas the caffeine-induced current was accompanied by only one transient increase in [Ca2+]i Niflumic acid (25 μM) had no effect on agonist-induced [Ca2+]i responses, whereas thapsigargin (1 μM) abolished both membrane current and the [Ca2+]i response. Heparin (5 mg/ml in the pipette solution) inhibited both [Ca2+]i responses and membrane currents induced by ANG II and ATP, but not by caffeine. In pulmonary arterial strips, ANG II-induced contraction was inhibited by niflumic acid (25 μM) or nifedipine (1 μM) to the same extent and the two substances did not have an additive effect. This study demonstrates that, in pulmonary vascular smooth muscle, ANG II, as well as ATP, activate an oscillatory calcium dependent chloride current which is triggered by cyclic increases in [Ca2+]i and that both oscillatory phenomena are primarily IP3 mediated. It is suggested that ANG II-induced oscillatory chloride current could depolarise the cell membrane leading to activation of voltage-operated Ca2+ channels. The resulting Ca2+ influx contributes to the component of ANG II-induced contraction that is equally sensitive to chloride or calcium channel blockade.  相似文献   

6.
The sequence of ionic changes involved in initiation of acrosomal exocytosis in capacitated mouse spermatozoa was investigated. Earlier studies demonstrated that a large influx of Na+ is required for exocytosis, this Na+ apparently being associated with an increase in intracellular pH (pHi) via an Na+-H+ exchanger. This rise in pHi may in turn activate calcium channels and permit the influx of extracellular Ca2+ needed to trigger acrosomal exocytosis. In the present study, the dihydropyridine voltage-dependent calcium channel antagonist nifedipine was able to inhibit significantly exocytosis in sperm cells treated in various ways capable of stimulating acrosomal loss. The monovalent cation ionophore monensin can promote Na+ entry required for both capacitation and acrosomal exocytosis, as demonstrated by using chlortetracycline to monitor changes in sperm functional potential. In the presence of 10 nM nifedipine, monensin treatment accelerated capacitation but was unable to trigger exocytosis. The requirement for internalization of a high concentration of Na+ can be bypassed by the addition of 25 mM NH4CI to raise the pHi of cells capacitated in 25NH4CI to raise the pHi of cells capacitated in 25 mM Na+ (insufficient Na+ to support exocytosis under usual conditions). Again, introduction of nifedipine was able to inhibit exocytosis. In a third experimental approach, amiloridestimulated exocytosis in capacitated cells was significantly inhibited by nifedipine. In contrast to these treatments directed at specific mechanisms, the ability of the Ca2+ inophore A23187 to promote more general entry of Ca2+ and thereby to accelerate capacitation and exocytosis was not inhibited by nifedipine. Finally, monensin-treated cells exhibited a rise and then a fall in 45Ca2+ uptake, the time course of which paralleled stimulation of acrosomal exocytosis in similarly treated cells. Nifedipine significantly reduced this uptake. The fact that nifedipine can block exocytosis induced by a variety treatments strongly suggests that voltage-dependent calcium channels play a pivotal role in the response. These results are consistent with the following sequence of ionic changes in capacitated cells leading to acrosomal exocytosis: [Na+]i ↑ → [H]i↓ → pHi ↑ → activation of calcium channels → [Ca2+]i ↑ → exocytosis. Given that zona-induced exocytosis is reportedly an indirect response, mediated by voltage-dependent calcium channels, and that the Na+-H+ exchanger in somatic cells can be activated by receptor-mediated mechanisms, we suggest that sperm-zona inter action promotes an influx of Na+ by activating an Na+-H+ exchanger and thereby initiating the above sequence of changes. © 1993 Wiley-Liss, Inc.  相似文献   

7.
An early event in the hypersensitive response of tobacco to Pseudomonas syringae pv syringae is the initiation of a K+/H+ response characterized by specific plasma membrane K+ efflux, extracellular alkalinization, and intracellular acidification. We investigated the role of calcium in induction of these host responses. Suspension-cultured tobacco cells exhibited a baseline Ca2+ influx of 0.02 to 0.06 micromole per gram per hour as determined from 45Ca2+ uptake. Following bacterial inoculation, uptake rates began to increase coincidently with onset of the K+/H+ response. Rates increased steadily for 2 to 3 hours, reaching 0.5 to 1 micromole per gram per hour. This increased Ca2+ influx was prevented by EGTA and calcium channel blockers such as La3+, Co2+, and Cd2+ but not by verapamil and nifedipine. Lanthanum, cobalt, cadmium, and EGTA inhibited the K+/H+ response in both suspension-cultured cells and leaf discs and prevented hypersensitive cell death in leaf discs. We conclude that increased plasmalemma Ca2+ influx is required for the K+/H+ and hypersensitive responses in tobacco.  相似文献   

8.
Abstract: Catecholamine (CA) secretion was evoked when the isolated rat adrenal gland was perfused with HEPES-buffered Krebs solution acidified by the addition of HCI or by gassing with 95% O2/5% CO2. The secretion was detectable at pH 7.0 and increased with decreasing pH until at ~6.4. The low pH-induced CA secretion consisted of two phases, an initial transient response followed by a sustained phase. An intracellular Ca2+ antagonist, 3,4,5-trimethoxybenzoic acid 8-(N,N-diethylamino)octyl ester, selectively inhibited the initial phase of secretion. Both of the responses were resistant to nifedipine, a blocker of voltage-gated Ca2+ channel, but were completely inhibited in Ca2+-free (1 mM EGTA containing) solution. Adrenaline was an exclusive component in CAs released by low pH. The time course and extent of intracellular acidification caused either by low pH in the external medium or by the offset of a transitory NH4CI application had no correlation with those of the secretory responses in the corresponding period. These results suggest that extracellular acidification preferentially activates adrenaline secretive cells to evoke CA secretion and that this low pH-induced CA secretion may be mediated by dihydropyridine-insensitive Ca2+ influx. Furthermore, the initial transient phase of the low pH-induced CA secretion might be caused by a Ca2+ release from intracellular stores, which is also induced by the Ca2+ influx.  相似文献   

9.
Reid RJ  Smith FA 《Plant physiology》1992,100(2):637-643
Measurements were made of 45Ca influx into isolated internodal cells of Chara corallina and also into internodal cells of intact plants. 45Ca influx was closely related to growth. In rapidly expanding internodal cells, the influx was approximately 1.4 nmol m−2 s−1 compared to the influx in mature cells from slow-growing cultures of 0.2 nmol m−2 s−1. Isolated internodal cells had influxes in the range 0.2 to 0.7 nmol m−2 s−1, but this increased to approximately 2 nmol m−2 s−1 in high calcium solutions and to 4 nmol m−2 s−1 in high potassium solutions. No significant effects on calcium influx were observed for changes in external pH or for treatments that changed internal pH, except that NH4 was slightly inhibitory. Severe metabolic inhibition by carbonylcyanide-m-chlorophenyl-hydrazone stimulated influx, whereas dicyclohexylcarbodiimide had no effect and darkness inhibited influx. La3+ also inhibited influx, but the organic channel blockers nifedipine and bepridil stimulated influx. Verapamil had no effect. The results are generally consistent with voltage regulation of calcium channels as in animal cells.  相似文献   

10.
Primary cilium has emerged as mechanosensor to subtle flow variations in epithelial cells, but its role in shear stress detection remains controversial. To probe the function of this non-motile organelle in shear stress detection by cells, we compared calcium signalling responses induced by shear stress in ciliated and unciliated MDCK cells. Cytosolic free Ca2+ ([Ca2+]i) was measured using Fura-PE3 video imaging fluorescence microscopy in response to shear stress due to laminar flow (385 μl s?1). Our results show that both unciliated and ciliated MDCK cells are shear stress sensitive via ATP release and autocrine feedback through purinergic receptors. However, purinergic calcium signals differed in response intensity and receptor subtypes. In unciliated cells, shear stress-induced elevation in [Ca2+]i was predominantly mediated through P2X receptors (P2XR). In contrast, calcium mobilization in ciliated MDCK cells resulted from P2YRs and store-operated Ca2+-permeable channels besides P2XRs. These findings lend support to the hypothesis that ATP release in response to shear stress is independent of the primary cilium and that transduction of mechanical strain into a specific biochemical responses stems on the mobilization of different sets of purinergic receptors.  相似文献   

11.
There is evidence to suggest that cell injury induced in alveolar macrophages (AM) following phagocytic activation by silica particles may be mediated through changes in intracellular free calcium [Ca2+]i. However, the mechanism of silica- induced cytotoxicity relative to [Ca2+]i overloading is not yet clear. To provide a better insight into this mechanism, isolated rat AMs were exposed to varying concentrations of crystalline silica (particle size < 5 μm in diameter) and the fluctuation in their [Ca2+]i and cell integrity were quantitatively monitored with the fluorescent calcium probe, Fura-2 AM, and the membrane integrity indicator, propidium iodide (PI). Results from this study indicate that silica can rapidly increase [Ca2+]i in a dose-dependent manner with a characteristic transient calcium rise at low doses (<0.1 mg/ml) and an elevated and sustained rise at high doses (>0.1 mg/ml). Depletion of extracellular calcium [Ca2+]o markedly inhibited the [Ca2+]i rise (≈90%), suggesting that Ca2+ influx from extracellular source is a major mechanism for silica-induced [Ca2+]i rise. When used at low doses but sufficient to cause a transient [Ca2+]i rise, silica did not cause significant increase in cellular PI uptake during the time of study, suggesting the presevation of membrane integrity of AMs under these conditions. At high doses of silica, however, a marked increase in PI nuclear fluorescence was observed. Depletion of [Ca2+]o greatly inhibited cellular PI uptake, induced by 0.1 mg/ml or higher doses of silica. This suggests that Ca2+ influx, as a result of silica activation, is associated with cell injury. Indeed, our results further demonstrated that the low dose effect of silica on Ca2+ influx is inhibited by the Ca2+ channel blocker nifedipine. At high doses of silica (>0.1 mg/ml), cell injury was not prevented by nifedipine or extracellular Ca2+ depletion, suggesting that other cytotoxic mechanisms, i.e., nonspecific membrane damage due to lipid peroxidation, are also responsible for the silica-induced cell injury. Silica had no significant effect on cellular ATP content during the time course of the study, indicating that the observed silica-induced [Ca2+]i rise was not due to the impairment of Ca2+-pumps, which restricts Ca2+ efflux. Pretreatment of the cells with cytochalasin B to block phagocytosis failed to prevent the effect of silica on [Ca2+]i rise. Taken together, these results suggest that the elevation of [Ca2+]i caused by silica is due mainly to Ca2+ influx through plasma membrane Ca2+ channels and nonspecific membrane damage (at high doses). Neither ATP depletion nor Ca2+ leakage during phagocytosis was attributed to the silica-induced [Ca2+]i rise. © 1993 Wiley-Liss, Inc.  相似文献   

12.
Although pulsed electromagnetic field (PEMF) exposure has been reported to promote neuronal differentiation, the mechanism is still unclear. Here, we aimed to examine the effects of PEMF exposure on brain-derived neurotrophic factor (Bdnf) mRNA expression and the correlation between the intracellular free calcium concentration ([Ca2+]i) and Bdnf mRNA expression in cultured dorsal root ganglion neurons (DRGNs). Exposure to 50 Hz and 1 mT PEMF for 2 h increased the level of [Ca2+]i and Bdnf mRNA expression, which was found to be mediated by increased [Ca2+]i from Ca2+ influx through L-type voltage-gated calcium channels (VGCCs). However, calcium mobilization was not involved in the increased [Ca2+]i and BDNF expression, indicating that calcium influx was one of the key factors responding to PEMF exposure. Moreover, PD098059, an extracellular signal-regulated kinase (Erk) inhibitor, strongly inhibited PEMF-dependant Erk1/2 activation and BDNF expression, indicating that Erk activation is required for PEMF-induced upregulation of BDNF expression. These findings indicated that PEMF exposure increased BDNF expression in DRGNs by activating Ca2+- and Erk-dependent signaling pathways.  相似文献   

13.
The excitotoxicity of glutamate is believed to be mediated by sustained increase in the cytosolic Ca2+ concentration. Mitochondria play a vital role in buffering the cytosolic calcium overload in stimulated neurons. Here we have studied the glutamate induced Ca2+ signals in cortical brain slices under physiological conditions and the conditions that modify the mitochondrial functions. Exposure of slices to glutamate caused a rapid increase in [Ca2+]i followed by a slow and persistently rising phase. The rapid increase in [Ca2+]i was mainly due to influx of Ca2+ through the N-methyl-D-aspartate (NMDA) receptor channels. Glutamate stimulation in the absence of Ca2+ in the extracellular medium elicited a small transient rise in [Ca2+]i which can be attributed to the mobilization of Ca2+ from IP3 sensitive endoplasmic reticulum pools consequent to activation of metabotropic glutamate receptors. The glutamate induced Ca2+ influx was accompanied by depolarization of the mitochondrial membrane, which was inhibited by ruthenium red, the blocker of mitochondrial Ca2+ uniporter. These results imply that mitochondria sequester the Ca2+ loaded into the cytosol by glutamate stimulation. Persistent depolarization of mitochondrial membrane observed in presence of extracellular Ca2+ caused permeability transition and released the sequestered Ca2+ which is manifested as slow rise in [Ca2+]i. Protonophore carbonyl cyanide m-chlorophenyl-hydrazone (CCCP) depolarized the mitochondrial membrane and enhanced the glutamate induced [Ca2+]i response. Contrary to this, treatment of slices with mitochondrial inhibitor oligomycin or ruthenium red markedly reduced the [Ca2+]i response. Combined treatment with oligomycin and rotenone further diminished the [Ca2+]i response and also abolished the CCCP mediated rise in [Ca2+]i. However, rotenone alone had no effect on glutamate induced [Ca2+]i response. These changes in glutamate-induced [Ca2+]i response could not be explained on the basis of deficient mitochondrial Ca2+ sequestration or ATP dependent Ca2+ buffering. The mitochondrial inhibitors reduced the cellular ATP/ADP ratio, however, this would have restrained the ATP dependent Ca2+ buffering processes leading to elevation of [Ca2+]i. In contrast our results showed repression of Ca2+ signal except in case of CCCP which drastically reduced the ATP/ADP ratio. It was inferred that, under the conditions that hamper the Ca2+ sequestering ability of mitochondria, the glutamate induced Ca2+ influx could be impeded. To validate this, influx of Mn2+ through ionotropic glutamate receptor channel was monitored by measuring the quenching of Fura-2 fluorescence. Treatment of slices with oligomycin and rotenone prior to glutamate exposure conspicuously reduced the rate of glutamate induced fluorescence quenching as compared to untreated slices. Thus our data establish that the functional status of mitochondria can modify the activity of ionotropic glutamate receptor and suggest that blockade of mitochondrial Ca2+ sequestration may desensitize the NMDA receptor operated channel.  相似文献   

14.
The rise in intracellular Ca2+ mediated by AMPA subtype of glutamate receptors has been implicated in the pathogenesis of motor neuron disease, but the exact route of Ca2+ entry into motor neurons is not clearly known. In the present study, we examined the role of voltage gated calcium channels (VGCCs) in AMPA induced Ca2+ influx and subsequent intracellular signaling events responsible for motor neuron degeneration. AMPA stimulation caused sodium influx in spinal neurons that would depolarize the plasma membrane. The AMPA induced [Ca2+]i rise in motor neurons as well as other spinal neurons was drastically reduced when extracellular sodium was replaced with NMDG, suggesting the involvement of voltage gated calcium channels. AMPA mediated rise in [Ca2+]i was significantly inhibited by L-type VGCC blocker nifedipine, whereas ω-agatoxin-IVA and ω-conotoxin-GVIA, specific blockers of P/Q type and N-type VGCC were not effective. 1-Napthyl-acetyl spermine (NAS), an antagonist of Ca2+ permeable AMPA receptors partially inhibited the AMPA induced [Ca2+]i rise but selectively in motor neurons. Measurement of AMPA induced currents in whole cell voltage clamp mode suggests that a moderate amount of Ca2+ influx occurs through Ca2+ permeable AMPA receptors in a subpopulation of motor neurons. The AMPA induced mitochondrial calcium loading [Ca2+]m, mitochondrial depolarization and neurotoxicity were also significantly reduced in presence of nifedipine. Activation of VGCCs by depolarizing concentration of KCl (30 mM) in extracellular medium increased the [Ca2+]i but no change was observed in mitochondrial Ca2+ and membrane potential. Our results demonstrate that a subpopulation of motor neurons express Ca2+ permeable AMPA receptors, however the larger part of Ca2+ influx occurs through L-type VGCCs subsequent to AMPA receptor activation and consequent mitochondrial dysfunction is the trigger for motor neuron degeneration. Nifedipine is an effective protective agent against AMPA induced mitochondrial stress and degeneration of motor neurons.  相似文献   

15.
高海波  张淑静  沈应柏 《生态学报》2012,32(20):6520-6526
植物对昆虫取食活动进行成功防御的关键,取决于对昆虫口腔反吐物的激发子的快速识别。实验利用无损伤微测系统及激光共聚焦显微镜,研究了沙冬青细胞经灰斑古毒蛾口腔反吐物诱导后Ca2+流及H2O2的变化。结果发现:灰斑古毒蛾口腔反吐物诱导沙冬青细胞Ca2+内流及H2O2的积累,表明Ca2+内流及H2O2的积累是沙冬青细胞对口腔反吐物产生应答的早期响应事件;Ca2+钙通道阻断剂仅部分抑制Ca2+内流,说明Ca2+内流除经过质膜上的Ca2+通道进入细胞外,尚存在其他的内流途径;灰斑古毒蛾口腔反吐物中的某些成分与沙冬青细胞的质膜结合后,诱导质膜上形成允许Ca2+通过的孔道,而GdCl3不能抑制这类孔道的活性。胞外Ca2+螯合剂EGTA完全抑制H2O2的积累,GdCl3预处理仅部分抑制了H2O2的积累,说明灰斑古毒蛾诱导的沙冬青细胞内H2O2的积累依赖于Ca2+内流;抑制剂实验表明,H2O2的积累主要来源于质膜上NADPH氧化酶的作用。  相似文献   

16.
Abstract: The role of voltage-sensitive Ca2+ channels in mediating Ca2+ influx during ischemia was investigated in NG108-15 cells, a neuronal cell line that does not express glutamate-sensitive receptor-mediated Ca2+ channels. Concurrent 31P/19F and 23Na double-quantum filtered (DQF) NMR spectra were used to monitor cellular energy status, intracellular [Ca2+] ([Ca2+]i), and intracellular Na+ content in cells loaded with the calcium indicator 1,2-bis-(2-amino-5-fluorophenoxy)ethane-N,N,N′,N′-tetraacetic acid (5FBAPTA) during ischemia and reperfusion. Cells loaded with 5FBAPTA were indistinguishable from unloaded cells except for small immediate decreases in levels of phosphocreatine (PCr) and ATP. Ischemia induced a steady decrease in intracellular pH and PCr and ATP levels, and a steady increase in intracellular Na+ content; however, a substantial increase in [Ca2+]i (about threefold) was seen only following marked impairment of cellular energy status, when PCr was undetectable and ATP content was reduced to 55% of control levels. A depolarization-induced increase in [Ca2+]i could be completely blocked by 1 µM nifedipine, whereas up to 20 µM nifedipine had no effect on the increase in [Ca2+]i seen during ischemia. These data demonstrate that voltage-gated Ca2+ channels do not mediate significant Ca2+ flux during ischemia in this cell line and suggest an important role for Ca2+i stores, the Na+/Ca2+ antiporter, or other processes linked to cellular energy status in the increase in cytosolic Ca2+ level during ischemia.  相似文献   

17.
Apolipoprotein E (apoE) and certain peptides derived from it have been shown to exert neurotoxic effects in vitro, and apoE has been linked to the etiology of Alzheimer's disease. The mechanisms underlying these toxic and pathological effects are, however, not known. To approach this question, we have studied the effects of apoE peptides on the cytoplasmic calcium ([Ca2+]1) homeostasis of cultured cortical neurons. A tandem dimer repeat peptide (apoEdp) derived from the receptor binding domain of apoE was found to have a potent effect on elevation of [Ca2+]1 calcium. The pathway by which apoEdp exerted this effect was shown to involve both the mobilization of intracellular calcium and the influx of extracellular calcium, although the effect on influx was more pronounced. Calcium mobilization occurs via a G-protein-linked phospholipase C (PLC) pathway, whereas calcium influx appears to involve a novel Co2+-sensitive channel. Both the mobilization and the influx of calcium require the binding of the apoE peptide to a membrane receptor because both pathways are blocked by anti-body to low-density-lipoprotein receptor-related protein. The data suggest that the neurotoxic effects of apoE may be mediated by a persistent elevation of [Ca2+]1. J. Cell. Physiol. 173:73–83, 1997. © 1997 Wiley-Liss, Inc.  相似文献   

18.
The aim of the present study was to investigate the effect of cAMP on calcium fluxes in Fura 2 loaded thyroid FRTL-5 cells. Preincubating the cells with the phosphodiesterase inhibitor Ro-201724 decreased the ATP-stimulated entry of calcium, while having no effect on the release of sequestered calcium. Pretreatment with forskolin decreased both the release of sequestered calcium and the entry of calcium in response to ATP. We then incubated the cells with phenylisopropyl adenosine (PIA), a P21-receptor agonist earlier shown to decrease cAMP in FRTL-5 cells. Although we did not observe a decrease in cellular cAMP after PIA, the ATP-evoked calcium response was enhanced. Forskolin decreased calcium entry induced by thapsigargin a Ca2?-ATPase inhibitor, but forskolin had no effect on the thapsigargin-evoked release of sequestered calcium. Addition of calcium to cells stimulated with ATP in a calcium-free buffered resulted in a rapid influx of calcium. This response in [Ca2+]i was decreased in cells pretreated with forskolin. In cells stimulated with thapsigargin, the increase in [Ca2+]i after addition of calcium was inhibited in part by forskolin and enhanced by PIA. The results suggest that cAMP may regulate calcium fluxes in FRTL-5 cells Furthermore, PIA increased agonist-induced calcium entry through a presently unknown mechanism. © 1993 Wiley-Liss, Inc.  相似文献   

19.
《Phytomedicine》2014,21(8-9):1021-1025
Baccharis trimera (Less.) D.C. (Asteraceae) is a medicinal species native to South America and used in Brazilian folk medicine to treat gastrointestinal and liver diseases, kidney disorders and diabetes. The aqueous extract (AE) of the aerial parts of this species presented two mainly constituents: the ent-clerodane diterpene (Fig. 1) and the neo-clerodane diterpene (Fig. 2). The objective of this work was to study their activities on the blockade of Ca2+-induced contractions in KCL-depolarized rat portal vein preparations, and on the influx and mobilization of cytosolic calcium in rat cardiomyocytes by fluorescence measurements. The results showed that both the neo- and the ent-clerodane diterpenes reduced the maximal contractions induced by CaCl2, in KCl depolarized rat portal vein preparations, without modifying the EC50. The data on the concentration of cytosolic calcium ([Ca2+]c) showed that, while the neo-clerodane diterpene stimulates the mobilization of [Ca2+]c in rat cardiomyocytes, this effect was not observed with the ent-clerodane diterpene. On the other hand, the influx of calcium was not altered by the neo-clerodane diterpene, but was reduced in the presence of the ent-clerodane diterpene, indicating that this compound induces a blockade of the voltage-dependent calcium channels.  相似文献   

20.
Abstract

Capacitative calcium entry was studied in the A7r5 vascular smooth muscle cell line by measuring 45Ca2+ influx. Entry was induced by depletion of the Ca2+ pools by either the receptor agonist [Arg]8vasopressin (AVP) or the SR-Ca2+-ATPase inhibitor thapsigargin (TG). TG showed a higher efficacy for calcium influx than AVP. This is probably due to a larger Ca2+ release from the pools induced by TG compared to AVP and the irreversible inhibition of the SR-Ca2+-ATPase by TG causing influx to persist for a longer period of time. At maximally effective concentrations signals induced by AVP and TG were synergistic in the absence but not in the presence of the intracellular calcium chelator, 1,2-bis(2-aminophenoxy) ethane-N,N,N′,N′-tetraacetic acid (BAPTA). Depolarisation with 55 mM KCl completely inhibited 45Ca2+ influx induced by TG but only slightly the one induced by AVP, both effects being less pronounced in the presence of BAPTA. [Ca2+]c signals induced by AVP and TG were both inhibited by depolarisation.

In conclusion, although our results show differences between AVP- and TG-induced Ca2+ influx, they can be explained by their different mechanism of action and are in accordance with an activation of the same capacitative entry pathway by both agents.  相似文献   

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