Purification of a Synaptic Membrane Na+/Ca2+ Antiporter and Immunoextraction with Antibodies to a 36-kDa Protein

The conditions for optimal solubilization and reconstitution of bovine brain synaptic plasma membrane Na+/Ca2+ exchange activity were examined and a series of chromatographic procedures were used for the isolation of a protein involved in this transport activity. The zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate in the presence of 20% (vol/vol) glycerol led to optimal solubilization, and soybean phospholipids in low-pH medium were found to produce optimal reconstitution of activity after dialysis to remove the detergent. Sequential chromatography steps involving the use of gel filtration on Sephacryl S-400 HR, ion exchange on diethylaminoethyl-Sephacel, and metal chelate chromatography on tris-(carboxymethyl)ethylenediamine loaded with LaCl3 led to the isolation of a fraction highly enriched in both Na+/Ca2+ exchange activity and two protein bands identified by denaturing electrophoresis. The estimated molecular masses of the two proteins were 50 and 36 kDa. Development of polyclonal antibodies to the 36-kDa protein permitted immunoextraction of greater than 95% of the antiporter activity from solubilized synaptic plasma membranes. These antibodies cross-reacted with the electroeluted 50-kDa protein on enzyme-linked immunosorbent assays, suggesting a close relationship between the two proteins. These results indicate that the 36-kDa protein is at least a component of the brain membrane Na+/Ca2+ antiporter.     

Involvement of mitochondrial inner membrane anion carriers in the uncoupling effect of fatty acids

This paper considers stages of the search (initiated by V. P. Skulachev) for a receptor protein for fatty acids that is involved in their uncoupling effect. Based on these studies, mechanism of the ADP/ATP antiporter involvement in the uncoupling induced by fatty acids was proposed (Skulachev, V. P. (1991) FEBS Lett., 294, 158– 162). New data (suppression by carboxyatractylate of the SDS-induced uncoupling, pH-dependence of the ADP/ATP and the glutamate/aspartate antiporter contributions to the uncoupling, etc.) led to modification of this hypothesis. During discussion of the uncoupling effect of fatty acids caused by opening of the Ca²⁺-dependent pore, special attention is given to the effects of carboxyatractylate added in the presence of ADP. The functioning of the uncoupling protein UCP2 in kidney mitochondria is considered, as well as the diversity observed by us in effects of 200 µM GDP on decrease in under the influence of oleic acid added after H₂O₂ (in the presence of succinate, oligomycin, malonate). A speculative explanation of the findings is as follows: 1) products of lipid and/or fatty acid peroxidation (PPO)modify the ADP/ATP antiporter in such a way that its involvement in the fatty acid-induced uncoupling is suppressed by GDP; 2) GDP increases the PPO concentration in the matrix by suppression of efflux of fatty acid hydroperoxide anions through the UCP (Goglia, F., and Skulachev, V. P. (2003) FASEB, 17, 1585–1591)and/or of efflux of PPO anions with involvement of the GDP-sensitive ADP/ATP antiporter; 3) PPO can potentiate the oleate-induced decrease in due to inhibition of succinate oxidation.Translated from Biokhimiya, Vol. 70, No. 2, 2005, pp. 197–202.Original Russian Text Copyright © 2005 by Mokhova, Khailova.This revised version was published online in April 2005 with corrections to the post codes.     

Physiological roles of three Na+/H+ antiporters in the halophilic bacterium Vibrio parahaemolyticus

Vibrio parahaemolyticus mutants lacking three Na+/H+ antiporters (NhaA, NhaB, NhaD) were constructed. The DeltanhaA strains showed significantly higher sensitivity to LiCl regarding their growth compared to the parental strain. The DeltanhaA and DeltanhaB strains exhibited higher sensitivities to LiCl. The mutant XACabd lacking all of the three antiporters could not grow in the presence of 500 mM LiCl at pH 7.0, or 50 mM at pH 8.5. The XACabd mutant was also sensitive to 1.0 M NaCl at pH 8.5. These results suggest that Na+/H+ antiporters, especially NhaA, are responsible for resistance to LiCl and to high concentrations of NaCl. Reduced Na+/H+ and Li+/H+ antiport activities were observed with everted membrane vesicles of DeltanhaB strains. However, Li+/H+ antiport activities of DeltanhaB strains were two times higher than those of DeltanhaA strains when cells were cultured at pH 8.5. It seems that expression of nhaA and nhaB is dependent on medium pH to some extent. In addition, HQNO (2-heptyl-4-hydroxyquinoline N-oxide), which is a potent inhibitor of the respiratory Na+ pump, inhibited growth of XACabd, but not of the wild type strain. Moreover, survival rate of XACabd under hypoosmotic stress was lower than that of wild type strain. It is likely that the Na+/H+ antiporters are involved in osmoregulation under hypoosmotic stress. Based on these findings, we propose that the Na+/H+ antiporters cooperate with the respiratory Na+ pump in ionic homeostasis in V. parahaemolyticus.     

Effect of the cationic detergent CTAB on the involvement of ADP/ATP antiporter and aspartate/glutamate antiporter in fatty acid-induced uncoupling of liver mitochondria

The influence of the positively charged amphiphilic compound cetyltrimethyl ammonium bromide (CTAB) on palmitate- and laurate-induced uncoupling and on carboxyatractylate and glutamate recoupling effects in liver mitochondria have been studied. CTAB (40 M) in the presence of 3 mM MgCl₂ had little (if any) effect on the palmitic acid-stimulated respiration of mitochondria; the glutamate recoupling effect increased, and the carboxyatractylate recoupling effect decreased to the same degree with the combined effect (about 80%) remaining unchanged. Thus, CTAB decreases the ADP/ATP antiporter involvement and increases to the same extent the aspartate/glutamate antiporter involvement in the fatty acid-induced uncoupling. The carboxyatractylate and glutamate recoupling effects were less pH dependent in the presence of CTAB than in its absence. These data could be interpreted with the assumption that fatty acid anions are more accessible to the ADP/ATP antiporter and their neutral forms are more accessible to the aspartate/glutamate antiporter, and that CTAB changes the relative anion carrier involvement in the fatty acid-induced uncoupling as it forms neutral complexes with fatty acid anions.     

Effect of ethanol on the palmitate-induced uncoupling of oxidative phosphorylation in liver mitochondria

The effect of ethanol on the uncoupling activity of palmitate and recoupling activities of carboxyatractylate and glutamate was studied in liver mitochondria at various Mg²⁺ concentrations and medium pH values (7.0, 7.4, and 7.8). Ethanol taken at concentration of 0.25 M had no effect on the uncoupling activity of palmitic acid in the presence of 2 mM MgCl₂ and decreased the recoupling effects of carboxyatractylate and glutamate added to mitochondria either just before or after the fatty acid. However, ethanol did not modify the overall recoupling effect of carboxyatractylate and glutamate taken in combination. The effect of ethanol decreased as medium pH was decreased to 7.0. Elevated concentration of Mg²⁺ (up to 8 mM) inhibits the uncoupling effect of palmitate. Ethanol eliminates substantially the recoupling effect of Mg²⁺ under these conditions, but does not influence the recoupling effects of carboxyatractylate and glutamate. It is inferred that ADP/ATP and aspartate/glutamate antiporters are involved in uncoupling function as single uncoupling complex with the common fatty acid pool. Fatty acid molecules gain the ability to migrate under the action of ethanol: from ADP/ATP antiporter to aspartate/glutamate antiporter on addition of carboxyatractylate and in opposite direction on addition of glutamate. Possible mechanisms of fatty acid translocation from one transporter to another are discussed.     

长叶红砂液泡膜Na~+/H~+逆向转运蛋白基因的克隆及表达特性

为研究长叶红砂(Reaumuria trigyna)离子转运分子机制,利用RT-PCR和RACE技术,克隆到其液泡膜Na+/H+逆向转运蛋白基因(NHX1)的全长cDNA片段,命名为RtNHX1(NCBI序列号为KR919802)。结果表明:RtNHX1的cDNA片段全长2 622bp,开放阅读框1 662bp,5′非编码区509bp,3′非编码区451bp,编码553个氨基酸,推测分子量为60.91kD。该蛋白含有12个跨膜结构域,为疏水蛋白,与其他植物液泡膜Na+/H+逆向转运蛋白NHX1的亲缘关系较近。实时荧光定量PCR对其在NaCl胁迫下的表达检测显示,不同时间和不同浓度NaCl胁迫下,RtNHX1表达量变化均呈先升高后降低趋势,在100mmol/L NaCl胁迫6h和200mmol/L NaCl胁迫后达到最高,表达量分别超过或约是对照的3倍,一定程度反应出RtNHX1参与长叶红砂的盐胁迫应答,是该植物离子转运体系的重要元件。     

The leucine zipper EF‐hand containing transmembrane protein‐1 EF‐hand is a tripartite calcium,temperature, and pH sensor

Leucine Zipper EF‐hand containing transmembrane protein‐1 (LETM1) is an inner mitochondrial membrane protein that mediates mitochondrial calcium (Ca²⁺)/proton exchange. The matrix residing carboxyl (C)‐terminal domain contains a sequence identifiable EF‐hand motif (EF1) that is highly conserved among orthologues. Deletion of EF1 abrogates LETM1 mediated mitochondrial Ca²⁺ flux, highlighting the requirement of EF1 for LETM1 function. To understand the mechanistic role of this EF‐hand in LETM1 function, we characterized the biophysical properties of EF1 in isolation. Our data show that EF1 exhibits α‐helical secondary structure that is augmented in the presence of Ca²⁺. Unexpectedly, EF1 features a weak (~mM), but specific, apparent Ca²⁺‐binding affinity, consistent with the canonical Ca²⁺ coordination geometry, suggested by our solution NMR. The low affinity is, at least in part, due to an Asp at position 12 of the binding loop, where mutation to Glu increases the affinity by ~4‐fold. Further, the binding affinity is sensitive to pH changes within the physiological range experienced by mitochondria. Remarkably, EF1 unfolds at high and low temperatures. Despite these unique EF‐hand properties, Ca²⁺ binding increases the exposure of hydrophobic regions, typical of EF‐hands; however, this Ca²⁺‐induced conformational change shifts EF1 from a monomer to higher order oligomers. Finally, we showed that a second, putative EF‐hand within LETM1 is unreactive to Ca²⁺ either in isolation or tandem with EF1. Collectively, our data reveal that EF1 is structurally and biophysically responsive to pH, Ca²⁺ and temperature, suggesting a role as a multipartite environmental sensor within LETM1.     

质膜Na^＋／H^＋逆向转运蛋白与植物耐盐性

土壤盐碱化是造成农作物减产的主要原因之一。质膜Na^＋／H^＋逆向转运蛋白能够介导植物根部Na^＋的外排和体内Na^＋的长距离运输, 并能够调控细胞K＋的稳态平衡及细胞内pH值和Ca^2＋的转运, 因此其在植物耐盐性方面具有重要作用。该文概述了植物质膜Na^＋／H^＋逆向转运蛋白的分子结构、功能、表达调控及其与植物耐盐性关系等方面的研究进展, 并对今后有关该蛋白的主要研究方向作了分析和展望。     

Comparative analysis of cation/proton antiporter superfamily in plants

The cation/proton antiporter superfamily is associated with the transport of monovalent cations across membranes. This superfamily was annotated in the Arabidopsis genome and some members were functionally characterized. In the present study, a systematic analysis of the cation/proton antiporter genes in diverse plant species was reported. We identified 240 cation/proton antiporters in alga, moss, and angiosperm. A phylogenetic tree was constructed showing these 240 members are separated into three families, i.e., Na⁺/H⁺ exchangers, K⁺ efflux antiporters, and cation/H⁺ exchangers. Our analysis revealed that tandem and/or segmental duplications contribute to the expansion of cation/H⁺ exchangers in the examined angiosperm species. Sliding window analysis of the nonsynonymous/synonymous substitution ratios showed some differences in the evolutionary fate of cation/proton antiporter paralogs. Furthermore, we identified over-represented motifs among these 240 proteins and found most motifs are family specific, demonstrating diverse evolution of the cation/proton antiporters among three families. In addition, we investigated the co-expressed genes of the cation/proton antiporters in Arabidopsis thaliana. The results showed some biological processes are enriched in the co-expressed genes, suggesting the cation/proton antiporters may be involved in these biological processes. Taken together, this study furthers our knowledge on cation/proton antiporters in plants.