Variants of peroxiredoxins expression in response to hydroperoxide stress

We examined patterns of the proteins that were expressed in human umbilical vein endothelial cells (HUVEC) in response to oxidative stress by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE). When HUVEC were exposed to H2O2 at 100 microM for 60 min, the intensities of eight spots increased and those of eight spots decreased on 2D gels, as compared with control gels, after staining with silver. These changes were also observed after exposure of cells to hydroperoxides such as cumene hydroperoxide and tert-butyl hydroperoxide, but not after exposure to other reagents that induce oxidative stress such as S-alkylating compounds, nitric oxide, and salts of heavy metals. Therefore, these proteins were designated hydroperoxide responsive proteins (HPRPs). Microsequencing analysis revealed that these HPRPs corresponded to at least six pairs of proteins. Of these, four pairs of HPRPs were thioredoxin peroxidase I (TPx I), TPx II, TPx III, and the product of human ORF06, all of which belong to the peroxiredoxin (Prx) family and all of which are involved in the elimination of hydroperoxides. The other two pairs corresponded to heat shock protein 27 (HSP27) and glyceraldehyde-3-phosphate dehydrogenase (G3PDH), respectively. The variants that appeared in response to hydroperoxides had molecular masses similar to the respective native forms, but their pI values were lower by 0.2-0.3 pH units than those of the corresponding native proteins. These variants were detected on 2D gels after cells had been exposed to hydroperoxides in the presence of an inhibitor of protein synthesis. All variants were generated within 30 min of exposure to 100 microM H2O2. The variants of TPx I and TPx II appeared within 2 min of the addition of H2O2 to the culture medium. The HPRPs returned to their respective native forms after the removal of stress. Our results indicated that at least six proteins were structurally modified in response to hydroperoxides. Analysis by 2D-PAGE of 32P-labeled proteins revealed that the variant of HSP27 was its phosphorylated form while the other HPRPs were not modified by phosphorylation. Taken together, the results suggest that 2D-PAGE can reveal initial responses to hydroperoxide stress at the level of protein modification. Moreover, it is possible that the variants of four types of Prx might reflect intermediate states in the process of hydroperoxide elimination.     

Proteomic analysis of oxidative stress-responsive proteins in human pneumocytes: insight into the regulation of DJ-1 expression

Oxidative injury is believed to play an important role in the pathogenesis of lung diseases such as emphysema and lung cancer. We examined the effects of a classic reactive oxygen species, H 2O 2, on the hydrogen peroxide response proteins (HPRP) in human pneumocytes using comparative two-dimensional gel electrophoresis (2DE) and peptide mass fingerprinting. Four HPRP-associated proteins (DJ-1, peroxiredoxins [Prxs] I and IV and glyceraldehyde-3-phosphate dehydrogenase [GAPDH]) were changed upon exposure to H 2O 2 (1 mM for 24 h). H 2O 2 exposure increased the acid (oxidized) form and decreased the basic (reduced) form of DJ-1 (pI 5.8 and 6.2, respectively), Prx I and IV and GAPDH. Mechanistic studies on DJ-1 indicated that the slow recovery of the reduced form was blocked by cyclohexamide, suggesting that the recovery was due to new protein synthesis. Total DJ-1 expression was decreased by increasing concentrations of H 2O 2. In contrast, a more complex mix of oxidants in the form of cigarette smoke extract (CSE) dose-dependently increased DJ-1 expression and produced a novel DJ-1 isoform (p I 5.6). Moreover, DJ-1 expression was higher in the lungs of chronic cigarette smokers compared with nonsmokers, a result which resembled the effects of CSE in cultured cells. These data indicate that in human pneumocytes, DJ-1 functions as an antioxidant but that no enzymatic system converts the oxidized to the reduced form. Up-regulation of DJ-1 by cigarette smoke may be a compensatory mechanism that protects the lung from oxidative stress-related injury.     

DJ-1 is an indicator for endogenous reactive oxygen species elicited by endotoxin

We previously found that DJ-1 protein of pI 5.8 (DJ-1/5.8) increased on 2D gels as DJ-1 of pI 6.2 (DJ-1/6.2) decreased, upon exposure of human cells to sublethal levels of oxidative stress, such as H₂O₂ and paraquat. Here, we show that the DJ-1/5.8 increases concomitantly with endogenous production of reactive oxygen species (ROS) under endotoxin-induced inflammatory conditions. Lipopolysaccharide (LPS) significantly increased the expression of DJ-1/5.8 in murine peritoneal macrophages (MΦ) and a murine macrophage cell line (J774). Diphenylene iodonium, a flavoenzyme inhibitor, blocked the effect of LPS on DJ-1/5.8 expression. Aminoguanidine (AG), a selective inhibitor of type II nitric oxide synthase, had no effect on the DJ-1/5.8 expression, but suppressed accumulation of nitrite in the culture medium after LPS treatment. We also examined the expression of DJ-1/5.8 in lung, since acute lung injury is seen in endotoxin shock. When female mice (6-weeks old) were intraperitoneally given LPS (10 mg/kg), myeloperoxidase (MPO) activity in lung, a marker of neutrophil infiltration, was transiently raised by 3.5 fold. The expression of DJ-1/5.8 in lung was enhanced and then reverted to the control level, in parallel with the MPO activity. These results, taken together, suggest that the DJ-1/5.8 might increase in response to endogenously produced ROS, probably due to activation of NADPH oxidase, and imply that DJ-1 may be useful as an endogenous indicator of oxidative stress status in vivo.     

稀有鮈鲫HSP70基因启动子的克隆及功能分析

热休克蛋白70(HSP70)作为一种分子伴侣,在环境毒理学中受到广泛研究。前期研究表明稀有鮈鲫HSP70基因(GrHSP70)表达量与五氯酚(pentachlorophenol, PCP)处理的浓度和时间在肝脏中呈现剂量/时间-依赖效应。为探究启动子在热休克蛋白70表达调控中的作用,根据已知的GrHSP70 cDNA序列,采用染色体步移技术克隆了GrHSP70的5'侧翼区的核苷酸序列。生物信息学分析从预测的转录起始位点(C)起的5'侧翼区域共1 487bp,潜在的转录因子结合位点包括雌激素响应元件(ERE)、Sp1结合位点(Sp1)、糖皮质激素响应元件(GRE)、TATA结合蛋白(TBP)、CCAAT/增强子蛋白结合位点(C/EBP)、Oct-1结合位点(Oct-1)、GATA转录因子结合位点(GATA-1)等。实验构建了含有启动子缺失片段的萤火虫萤光素酶(firefly luciferase)和海肾萤光素酶(renilla luciferase)报告基因表达载体,瞬时转染HeLa细胞后,利用双荧光活性检测确定获得的GrHSP70启动子具有启动活性,其核心启动位点位于转录起始点上游-1 487~-1 093bp。同时,用不同浓度PCP暴露成功转染了重组质粒(pGL-HSP70 promoter-Luc+)的HeLa细胞,培养24h后检测双荧光活性,与对照相比,随PCP浓度的增加,荧光活性均显著增加。说明在稀有鮈鲫肝脏中PCP会通过激活GrHSP70启动子来诱导GrHSP70表达,但PCP在稀有鮈鲫体内通过何种机制来调节HSP70的合成,仍然需要进一步研究。     

Calcium-dependent mitochondrial formation of species promoting strand scission of genomic DNA in U937 cells exposed to tert-butylhydroperoxide: the role of arachidonic acid

Treatment of U937 cells with a sublethal concentration of tert-butylhydroperoxide generates DNA single strand breakage in U937 cells and this response is increased by caffeine, ATP, pyruvate or antimycin A. As we previously reported (Guidarelli, Clementi, Brambilla and Cantoni, (1997) Biochem. J. 328, 801-806), the enhancing effects of antimycin A are mediated by inhibition of complex III and the ensuing formation of superoxides and hydrogen peroxide in a reaction in which ubisemiquinone serves as an electron donor. Active electron transport was required in pyruvate-supplemented cells since the increased genotoxic response occurred as a consequence of enforced mitochondrial Ca²⁺ accumulation, a process driven by the increased electrochemical gradient. The enhancing effects of caffeine or ATP were also the consequence of mitochondrial Ca²⁺ accumulation but these responses were independent on electron transport. The increased formation of DNA lesions resulting from exposure to tert-butylhydroperoxide associated with the Ca²⁺-mobilizing agents or the respiratory substrate was mediated by arachidonic acid generated by Ca²⁺-dependent activation of phospholipase A₂. Melittin, a potent phospholipase A₂ activator, and reagent arachidonic acid mimicked the effects of caffeine, ATP or pyruvate on the tert-butylhydroperoxide-induced DNA single strand breakage.     

The toxicity of iron to brown trout and effects on the gills: a comparison of two grades of iron sulphate

The 96-h LC₅₀ on brown trout Salmo trutta of a commercial iron (III) sulphate liquor, used for treating reservoirs to reduce algal growth, was 28 mg total Fe l⁻¹ (0·05 mg soluble Fe l⁻¹). The 96-h LC₅₀ for analar grade iron (III) sulphate was 47 mg total Fe l⁻¹ (0·24 mg soluble Fe l⁻¹). Lethal and sublethal exposure to both grades of iron resulted in accumulation on the gill, which appears to be the main target for iron toxicity. Greater iron accumulation occurred during exposure to commercial iron sulphate liquor. Physical clogging of gills and gill damage was seen during lethal and sublethal exposure to iron. Gill tissue analysis showed no evidence of iron uptake into gill tissues during lethal or sublethal exposure to iron. Iron did not accumulate in plasma of fish exposed to iron compared to controls. Respiratory disruption due to physical clogging of the gills is suggested as a possible mechanism for iron toxicity.     

Electronic absorption spectroscopy for the investigation of the solution binding of gold, palladium, mercury and silver salts to the lower rim substituted calix[4]arenes 25,26,27,28-(2-N,N-dimethyldithiocarbamoylethoxy)calix[4]arene and 25,26,27,28-(2-methylthioethoxy)calix[4]arene

The two uncharged compounds 25,26,27,28-(2-N,N-di methyldithiocarbamoylethoxy)calix[4]arene (1) and 25,26,27,28- (2-methylthioethoxy)calix[4]arene (2) are effective extractants for transferring Hg(II), Ag(I), Pd(II) and Au(III) from aqueous solution into chloroform. The electronic absorption spectra of 1 and 2 show additional bands at long wavelength upon complexation with AuCl₄⁻, PdCl₄²⁻ and PdBr₄²⁻, and analogous bands for Hg²⁺ and Ag⁺ with 1. For 1 these new bands are considered to be either of the charge transfer type or transitions within the C=S moiety. These new bands for the complexes with 2 are assigned to LMCT transitions of the S → M type. These spectral features are used to obtain information about the solution structures of the complexes that are formed between these metal ions and both 1 and 2.     

Effects of divalent metal ions on chlorophyll a fluorescence in isolated spinach chloroplasts

The effects of divalent metal ions on the yields of chlorophyll a fluorescence were investigated in isolated spinach chloroplasts at room and liquid nitrogen temperatures. Mg²⁺, Ca²⁺, Sr²⁺, Ba²⁺ and Mn²⁺ increased the yields of fluorescence emission at 684 and 695 nm from pigment system II and decreased that at 735 nm from pigment system I. Al³⁺ showed similar but less significant effects on the fluorescence yields. Zn²⁺ and Cd²⁺ showed no significant effect on the fluorescence yields at concentrations lower than 5 mM.

In accordance with the results of our previous study concerning the effects of Mg²⁺ on the excitation transfer in the chloroplasts, it was concluded that ions of alkaline earths and manganese suppress the excitation transfer from bulk chlorophylla of pigment system II to that of pigment system I.     

Production of Reactive Oxygen Species and Release of l-Glutamate During Superoxide Anion-Induced Cell Death of Cerebellar Granule Neurons

Abstract: Enhanced production of superoxide anion (O₂⁻) is considered to play a pivotal role in the pathogenesis of CNS neurons. Here, we report that O₂⁻ generated by xanthine (XA) + xanthine oxidase (XO) triggered cell death associated with nuclear condensation and DNA fragmentation in cerebellar granule neuron. XA + XO induced significant increases in amounts of intracellular reactive oxygen species (ROS) before initiating loss of cell viability, as determined by measurement of 6-carboxy-2',7'-dichlorodihydrofluorescein diacetate, di(acetoxymethyl ester) (C-DCDHF-DA) for O₂⁻ and other ROS and hydroethidine (HEt) specifically for O₂⁻ by using fluorescence microscopy and flow cytometry. Catalase, but not superoxide dismutase (SOD), significantly protected granule neurons from the XA + XO-induced cell death. Catalase effectively reduced C-DCDHF-DA but not HEt fluorescence, whereas SOD reduced HEt but not C-DCDHF-DA fluorescence, indicating that HEt and C-DCDHF-DA fluorescence correlated with O₂⁻ and hydrogen peroxide, respectively. The NMDA antagonist MK-801 prevented the death. XA + XO induced an increase in l -glutamate release from cerebellar granule neurons. These results indicate that elevation of O₂⁻ induces cell death associated with increasing ROS production in cerebellar granule neurons and that XA + XO enhanced release of l -glutamate.     

The site of manganese function in photosynthetic electron transport system

The effects of Mn²⁺ on aerobic photobleaching of carotenoids, on photoreduction of 2,6-dichlorophenolindophenol (DCIP) and on fluorescence above 600 mμ of spinach chloroplasts washed with 0.8 M Tris-HC1 buffer were investigated. Carotenoids (mostly carotenes, lutein and violaxanthin) in the Tris-washed chloroplasts were irreversibly bleached by illumination with red light, while carotenoids in normal chloroplasts prepared with a low concentration of Tris-HC1 underwent no bleaching upon illumination. The photobleaching of carotenoids observed with Tris-washed chloroplasts was inhibited by Mn²⁺ (MnCl₂ or MnSO₄) as well as by some inhibitors of the Hill reaction such as dichlorophenyl-1,1-dimethylurea (DCMU), methylthio-4,6-bis-isopropylamino-s-triazine and o-phenanthroline or by reducing agents such as ascorbate plus tetramethyl-p-phenylene diamine (TMPD). DCIP photoreduction, which was deactivated by Tris, was reactivated to 50–80% of the rate for normal chloroplasts upon addition of Mn²⁺. The restored photoreduction of DCIP was inhibited by DCMU and carbonylcyanide m-chlorophenylhydrazone (CCCP). The steady-state fluorescence yield of normal chloroplasts measured at room temperature was lowered by Tris treatment, and the decreased yield was restored by adding Mn²⁺ as well as ascorbate plus TMPD. CCCP also lowered the yield; the yield was recovered by adding ascorbate plus TMPD. Determination of manganese in normal and Tris-washed chloroplasts showed that 30% of the manganese in chloroplast was removed with Tris. It was postulated that Mn²⁺ functions in the electron transport on the oxidizing side of Photosystem II at a site between water and an electron carrier (Y). CCCP as well as Tris inhibits the reduction of Y⁺ by Mn²⁺, and carotenoids are oxidized by Y⁺ which is reduced by ascorbate plus TMPD.     

The effects of cadmium on photosynthesis of Phaseolus vulgaris – a fluorescence analysis

Bean plants ( Phaseolus vulgaris L. cv. Scarlett), germinated in darkness for I week, were transferred to light (200 μmol m⁻² s⁻¹) and cultivated for I week in a complete nutrient solution. After this period, cadmium ions in the form of CdSO₄ were added at the concentrations of 0.10.20 and 50 μ M . The effects of this metal on the properties of photosystem II photochemistry were studied by means of modulated fluorescence analysis. Steady state photochemical quenching. non-photochemical quenching and terminal fluorescence were determined in control and cadmiumtreated plants. We postulate that, during short term exposure of plants to cadmium in the early stages of growth, the Calvin cycle reactions are more likely than photosystem II to be the primary target of the toxic influence of cadmium. The reduced demand for ATP and NADPH upon Calvin cycle inhibition causes a down-regulation of photosystem II photochemistry and of the yield of linear electron transport.     

Bipyridylium quaternary salts and related compounds. V. Pulse radiolysis studies of the reaction of paraquat radical with oxygen. Implications for the mode of action of bipyridyl herbicides

1. Rate constants for reduction of paraquat ion (1,1′-dimethyl-4,4′-bipyridy-lium, PQ²⁺) to paraquat radical (PQ⁺·) by e⁻_aq and CO₂⁻· have been measured by pulse radiolysis. Reduction by e⁻_aq is diffusion controlled (k = 8.4·10¹⁰ M⁻¹·s⁻¹) and reduction by CO₂⁻· is also very fast k = 1.5·10¹⁰ M⁻¹·s⁻¹).

2. The reaction of paraquat radical with oxygen has been analysed to give rate constants of 7.7·10⁸ M⁻¹·s⁻¹ and 6.5·10⁸ M⁻¹·s⁻¹ for the reactions of paraquat radical with O₂ and O₂⁻·, respectively. The similarity in these rate constants is in marked contrast to the difference in redox potentials of O₂ and O₂⁻· (− 0.59 V and + 1.12 V, respectively).

3. These rate constants, together with that for the self-reaction of O₂⁻·, have been used to calculate the steady-state concentration of O₂⁻· under conditions thought to apply at the site of reduction of paraquat in the plant cell. On the basis of these calculations the decay of O₂⁻· appears to be governed almost entirely by its self-reaction, and the concentration 5 μm away from the thylakoid is still 90% of that at the thylakoid itself. Thus, O₂⁻· persists long enough to diffuse as far as the chloroplast envelope and tonoplast, which are the first structures to be damaged by paraquat treatment. O₂⁻· is therefore sufficiently long-lived to be a candidate for the phytotoxic product formed by paraquat in plants.     

Extracellular Ionic Composition Alters Kinetics of Vesicular Release of Catecholamines and Quantal Size During Exocytosis at Adrenal Medullary Cells

Abstract: The temporal resolution of carbon-fiber microelectrodes has been exploited to examine the plasticity of quantal secretory events at individual adrenal medullary cells. The size of individual quantal events, monitored by amperometric oxidation of released catecholamines, was found to be dependent on the extracellular ionic composition, the secretagogue, and the order of depolarization delivery. Release was observed with either exposure to 60 m M K⁺ in the presence of Ca²⁺ or exposure to 3 m M Ba²⁺ in solutions of different pH, with and without external Ca²⁺. Ba²⁺ was demonstrated to induce Ca²⁺-independent exocytotic release for an extended period of time (>4 min) relative to release induced by K⁺ (∼30 s), which is Ca²⁺ dependent. In all cases, simultaneous changes of intracellular divalent cations, monitored by fura-2 fluorescence, accompanied quantal release and had a similar time course. Exocytosis caused by Ba²⁺ in Ca²⁺-free medium had a larger mean spike area at pH 8.2 than at pH 7.4. When Ba²⁺-induced spikes measured at pH 7.4 were compared, the spikes in Ca²⁺-free medium were found to be broader and shorter but had the same area. Release induced by K⁺ after exposure to Ba²⁺ was comprised of larger quantal events when compared with preceding K⁺ stimulations. Finally, spikes obtained with Ba²⁺ exposure at an extracellular pH of 5.5 had a different shape than those obtained in more basic solutions. These changes in spike size and shape are consistent with the interactions between catecholamines and other intravesicular components.     

3株多环芳烃高效降解菌株的分离鉴定及降解特性

筛选分离降解多环芳烃(PAHs)的优势菌种对开展多环芳烃污染生态系统修复具有重要的现实意义。本研究以焦化厂周围受多环芳烃污染的土壤为菌源,经过富集培养驯化和平板分离,获得11株能降解多环芳烃的菌株。通过形态观察、生理生化特征及16S rRNA序列比对对菌株进行鉴定,筛选出3株PAHs高效降解菌,分别命名为DJ-3、DJ-8、DJ-10。经16S rRNA序列分析鉴定,DJ-3为假单胞菌属、DJ-8为克雷伯氏菌属、DJ-10为芽孢杆菌属。对菌株降解能力的研究表明,3株菌(DJ-3、DJ-8、DJ-10)培养7 d后对混合多环芳烃中菲(200 mg·L^-1)、芘(200 mg·L^-1)和萘(160 mg·L^-1)的降解率分别为48.9%～65.9%、38.9%～43.1%和57.6%～64.9%。3株菌对多环芳烃混合样品(1200 mg·L^-1)的降解率分别为49.1%、44.5%、53.9%,远高于其他8株筛选菌,为PAHs高效降解菌株。3种菌株两两之间和三者组合均无拮抗关系。研究结果将为构建高效的多环芳烃降解菌群、提高多环芳烃原位污染土壤的生物修复效果奠定基础。     

Effects of Calcium on the Binding of Phencyclidine to Acetylcholine Receptor-Rich Membrane Fragments from Torpedo californica Electroplaque

Abstract: The influence of calcium on the binding of phencyclidine (PCP) to acetylcholine (ACh) receptor-rich membrane fragments was investigated. Calcium decreased the equilibrium affinity for PCP in the presence, but not in the absence, of the cholinergic agonist carbamylcholine. The effect of calcium was rapidly reversible by EGTA, indicating that it was not attributable to a calcium-activated protease or a phospholipase. Following detergent solubilization of the nicotinic ACh receptor, the calcium effect on PCP remained, suggesting that calcium may interact directly with the receptor to exert its effect. Other divalent cations (Mn²⁺, La²⁺ Co²⁺, Mg²⁺) had similar effects. A correlate of "desensitization" of the ACh receptor can be observed using PCP binding, and a two-step "desensitization" process can be observed. Calcium seemed to increase the amplitude of a rapid component of receptor "desensitization." The results presented in this paper suggest that calcium may play a role in the modulation of the nicotinic ACh receptor.     

Tight Junction Dynamics in the Frog Urinary Bladder

In a previous study in frog skin (Castro et al., J. Memb. Biol. 134:15-29, 1993), it was shown that TJs experimentally disrupted by a selective deposition of BaSO₄ could be re-sealed upon addition of Ca²⁺to the apical solution; in the absence of apical Ca²⁺, the normal Ca²⁺ activity of the Na₂SO₄-Ringer's bathing the basolateral side was not able to induce TJ resealing. We now show that apical Ca²⁺also activates the TJ sealing mechanism in frog urinary bladders. Three known procedures were utilized to increase TJ permeability, all in the absence of apical Ca²⁺: (i) exposure to high positive transepithelial clamping potentials; (ii) exposure of the apical surface to hypertonic solutions; and (iii) selective deposition of BaSO₄ in the TJs. The resealing of the TJs was promoted by raising the concentration of Ca²⁺ in the apical solution. This effect of Ca²⁺ is not impaired by the presence of Ca²⁺ channel blockers (nifedipine, verapamil, Mn²⁺ or Cd²⁺) in the apical solution, indicating that junction resealing does not depend on Ca²⁺ entering the cells through the apical membrane. TJ resealing that occurs in response to raised apical Ca²⁺ most likely results from a direct effect of Ca²⁺, entering the disrupted TJs from the apical solution and reaching the zonula adhaerens Ca²⁺ receptors (E-cadherins). Protein kinase C (PKC) must play a significant role in the control of TJ assembly in this tight epithelia since the PKC inhibitor (H7) and the activator (diC8) markedly affect TJ recovery after disruption by apical hypertonicity. H7 treated tissues show marked recuperation of conductance even in the absence of apical Ca²⁺. In contrast, diC8 prevents tissue recuperation which normally occurs after addition of Ca²⁺ to the apical solution.     

Thiols oxidation and covalent binding of BSA by cyclolignanic quinones are enhanced by the magnesium cation

A novel cyclolignanic quinone, 7-acetyl-3',4'-didemethoxy-3',4'-dioxopodophyllotoxin (CLQ), inhibits topoisomerase II (TOPO II) activity. The extent of this inhibition was greater than that produced by the etoposide quinone (EQ) or etoposide. Glutathione (GSH) reduces EQ and CLQ to their corresponding semiquinones under anaerobic conditions. The latter were detected by EPR spectroscopy in the presence of MgCl₂ but not in its absence. Semiquinone EPR spectra change with quinone/GSH mol ratio, suggesting covalent binding of GSH to the quinones. Quinone-GSH covalent adducts were isolated and identified by ESI-MS. These orthoquinones also react with nucleophilic groups from BSA to bind covalently under anaerobic conditions. BSA thiol consumption and covalent binding by these quinones are enhanced by MgCl₂. Complex formation between the parent quinones and Mg⁺² was also observed. Density functional calculations predict the observed blue-shifts in the absorption spectra peaks and large decreases in the partial negative charge of electrophilic carbons at the quinone ring when the quinones are complexed to Mg⁺². These observations suggest a possible role of Mg⁺² chelation by these quinones in increasing TOPO II thiol and/or amino/imino reactivity with these orthoquinones.     

Alkalinization Prolongs Recovery from Glutamate-Induced Increases in Intracellular Ca2+ Concentration by Enhancing Ca2+ Efflux Through the Mitochondrial Na+/Ca2+ Exchanger in Cultured Rat Forebrain Neurons

Abstract: Increasing extracellular pH from 7.4 to 8.5 caused a dramatic increase in the time required to recover from a glutamate (3 µ M , for 15 s)-induced increase in intracellular Ca²⁺ concentration ([Ca²⁺]_i) in indo-1-loaded cultured cortical neurons. Recovery time in pH 7.4 HEPES-buffered saline solution (HBSS) was 126 ± 30 s, whereas recovery time was 216 ± 19 s when the pH was increased to 8.5. Removal of extracellular Ca²⁺ did not inhibit the prolongation of recovery caused by increasing pH. Extracellular alkalinization caused rapid intracellular alkalinization following glutamate exposure, suggesting that pH 8.5 HBSS may delay Ca²⁺ recovery by affecting intraneuronal Ca²⁺ buffering mechanisms, rather than an exclusively extracellular effect. The effect of pH 8.5 HBSS on Ca²⁺ recovery was similar to the effect of the mitochondrial uncoupler carbonyl cyanide p -(trifluoromethoxyphenyl)hydrazone (FCCP; 750 n M ). However, pH 8.5 HBSS did not have a quantitative effect on mitochondrial membrane potential comparable to that of FCCP in neurons loaded with a potential-sensitive fluorescent indicator, 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolocarbocyanine iodide (JC-1). We found that the effect of pH 8.5 HBSS on Ca²⁺ recovery was completely inhibited by the mitochondrial Na⁺/Ca²⁺ exchange inhibitor CGP-37157 (25 µ M ). This suggests that increased mitochondrial Ca²⁺ efflux via the mitochondrial Na²⁺/Ca²⁺ exchanger is responsible for the prolongation of [Ca²⁺]_i recovery caused by alkaline pH following glutamate exposure.