Inhibition of the Na+-H+ exchanger isoform-1 and the extracellular signal-regulated kinase induces apoptosis: a time course of events.

AIMS: The present study attempts to shed light on the role and the relative position of the Na(+)/H(+) exchanger isoform 1 (NHE1) and the extracellular signal-regulated kinase (ERK) in HEp-2 cell signaling pathways concerning a diverse range of cellular functions such as regulation of intracellular pH (pHi), DNA synthesis, production of reactive oxygen species (ROS) and apoptosis. METHODS: Pharmacological inhibition with cariporide (highly specific inhibitor of NHE1) and PD98059 (specific inhibitor of the upstream activator of ERK) was implemented. Fluorescence spectrometry, atomic absorption spectrometry and ELISA methods were used in order to obtain the results. RESULTS: NHE1 and ERK take part in all of the aforementioned cellular functions, as their inhibition had an effect on all of them. Additionally, inhibition of NHE1 resulted in ERK inhibition as well. Moreover, continuous inhibition of NHE1 or ERK for up to 24h led HEp-2 cells to apoptosis, as assessed through caspase-3 activation, DNA fragmentation and annexin-V binding levels. CONCLUSION: Our data shows a time course of events in relation to NHE1 and ERK and suggests the existence of a positive feedback loop between NHE1 and ERK which could pose a barrier against apoptosis.     

Ontogeny of the Na(+)-H+ exchanger in rat ileal basolateral membrane vesicles.

This study was designed to examine the activity of the Na(+)-H+ exchanger across the basolateral membranes of the ileal enterocyte and its developmental pattern. The function of the Na(+)-H+ exchanger was studied using a well validated basolateral membrane vesicle technique. Na+ uptake represented transport into the vesicle rather than binding as validated by initial rate studies. Na+ uptake represented an electroneutral process as shown by studies in which negative membrane potential was induced by the ionophore valinomycin. Various outwardly directed pH gradients significantly stimulated Na+ uptake compared with no pH gradient conditions at all age groups. However, the magnitude of stimulation was significantly different between the age groups with more marked stimulation of amiloride-sensitive Na+ uptake occurring in adolescent rats as compared to weanling or suckling rats. The amiloride sensitivity of the pH stimulated Na+ uptake was investigated using [Amiloride] = 10(-2)-10(-5) M at pHi/pHo = 5.2/7.5. At 10(-2) M amiloride concentration, Na+ uptake was inhibited by 80%, 70%, 77%, in the basolateral membranes of adolescent, weanling and suckling rats, respectively. Dixon plot analysis in both adolescent and weanling rats was consistent with two amiloride binding sites, a low affinity system and a high affinity system. In the suckling rat, on the other hand, the data supported a single high affinity binding site. Kinetic studies revealed a Km for amiloride-sensitive Na+ uptake of 12.6 +/- 6.6, 10.2 +/- 1.77, 9.46 and Vmax of 4.83 +/- 1.22, 4.47 +/- 0.36 and 8.08 +/- 1.92 n.mol.mg.protein-1.7 s-1 in suckling, weanling and adolescent rats, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

p90(RSK) is a serum-stimulated Na+/H+ exchanger isoform-1 kinase. Regulatory phosphorylation of serine 703 of Na+/H+ exchanger isoform-1.

The Na+/H+ exchanger isoform-1 (NHE-1) is the key member of a family of exchangers that regulates intracellular pH and cell volume. Activation of NHE-1 by growth factors is rapid, correlates with increased NHE-1 phosphorylation and cell alkalinization, and plays a role in cell cycle progression. By two-dimensional tryptic peptide mapping of immunoprecipitated NHE-1, we identify serine 703 as the major serum-stimulated amino acid. Mutation of serine 703 to alanine had no effect on acid-stimulated Na+/H+ exchange but completely prevented the growth factor-mediated increase in NHE-1 affinity for H+. In addition, we show that p90 ribosomal S6 kinase (p90(RSK)) is a key NHE-1 kinase since p90(RSK) phosphorylates NHE-1 serine 703 stoichiometrically in vitro, and transfection with kinase-inactive p90(RSK) inhibits serum-induced phosphorylation of NHE-1 serine 703 in transfected 293 cells. These findings establish p90(RSK) as a serum-stimulated NHE-1 kinase and a mediator of increased Na+/H+ exchange in vivo.     

An essential role for vicinal dithiol groups in the catalytic activity of the human placental Na(+)-H+ exchanger

We examined the effects of phenylarsine oxide, a reagent specific for vicinal dithiol groups, on the catalytic activities, Na+ influx and H+ efflux, of the human placental Na(+)-H+ exchanger. Treatment of the placental brush-border membrane vesicles with the reagent markedly inhibited both the activities. The inhibition was partially reversible by dithiols. The effect of phenylarsine oxide was to reduce the maximal velocity of the exchanger without influencing its affinity for Na+. The exchanger was partially protected from this inhibition by amiloride but not by cimetidine even though both these compounds interacted with the Na(+)-binding site. The data demonstrate that vicinal dithiol groups are essential for the catalytic function of the placental Na(+)-H+ exchanger and that the critical dithiol groups are located at a site distinct from the Na(+)-binding site.     

Evidence for histidyl and carboxy groups at the active site of the human placental Na+-H+ exchanger.

The Na+-H+ exchanger of the human placental brush-border membrane was inhibited by pretreatment of the membrane vesicles with a histidyl-group-specific reagent, diethyl pyrocarbonate and with a carboxy-group-specific reagent, N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline. In both cases the inhibition was irreversible and non-competitive in nature. But, if the membrane vesicles were treated with these reagents in the presence of amiloride, cimetidine or clonidine, there was no inhibition. Since amiloride, cimetidine and clonidine all interact with the active site of the exchanger in a mutually exclusive manner, the findings provide evidence for the presence of essential histidyl and carboxy groups at or near the active site of the human placental Na+-H+ exchanger. This conclusion was further substantiated by the findings that Rose Bengal-catalysed photo-oxidation of histidine residues as well as covalent modification of carboxy residues with NN'-dicyclohexylcarbodi-imide irreversibly inhibited the Na+-H+ exchanger and that amiloride protected the exchanger from inhibition caused by NN'-dicyclohexylcarbodi-imide.     

Heterogeneity of the Na(+)-H+ antiport systems in renal cells.

This study analyzes the differential characteristics of the Na(+)-H+ antiport systems observed in several epithelial and non-epithelial renal cell lines. Confluent monolayers of LLC-PK1A cells have a Na(+)-H+ antiport system located in the apical membrane of the cell. This system, however, is not expressed during cell proliferation or after incubation in the presence of different mitogenic agents. In contrast, confluent monolayers of MDCK4 express minimal Na(+)-H+ antiport activity in the confluent monolayer state but reach maximal antiport activity during cell proliferation or after activation of the cells by different mitogenic agents. Similar results were obtained with the renal fibroblastic cell line BHK. The system present in MDCK4 cells is localized in the basolateral membrane of the epithelial cell. In LLC-PK1A cells, an increase in the extracellular Na+ concentration produces a hyperbolic increase in the activity of the Na(+)-H+ antiporter. In MDCK4 and BHK cells, however, an increase in external Na+ produces a sigmoid activation of the system. Maximal activation of the system occur at a pHo 7.5 in LLC-PK1A cells and pHo 7.0 in MDCK4 cells. The Na(+)-H+ antiporter of LLC-PK1A cells is more sensitive to the inhibitory effect of amiloride (Ki 1.8 x 10(-7) M) than is the antiporter of MDCK4 cells (Ki 7.0 x 10(-6) M). Moreover, 5-(N-methyl-N-isobutyl)amiloride is the most effective inhibitor of Na(+)-H+ exchange in LLC-PK1A cells, but the least effective inhibitor in MDCK4 cells. Conversely, the analog, 5-(N,N-dimethyl)amiloride, is the most effective inhibitor of Na(+)-H+ exchange in MDCK4 cells, but is the least effective inhibitor in LLC-PK1A cells. These results support the hypothesis that Na(+)-H+ exchange observed in LLC-PK1A and other cell lines may represent the activity of different Na(+)-H+ antiporters.     

Glutamate 346 of human Na+-H+ exchanger NHE1 is crucial for modulating both the affinity for Na+ and the interaction with amiloride derivatives

A NHE1 variant that exhibits very high resistance to (3-methyl sulfonyl-4-piperidinobenzoyl) guanidine methane sulfonate (HOE694), a potent inhibitor of Na(+)-H(+) exchangers, was selected and characterized. Sequencing of the coding region corresponding to the N-terminal domain of this variant revealed the presence of only one mutation located within membrane-spanning segment 9 (M9). This base pair change replaces a glutamate (Glu) with an aspartate (Asp). We reproduced this amino acid change in wild-type NHE1 and found that this mutation alone is responsible for the huge decrease in sensitivity to the HOE694 compound and to ethylisopropylamiloride (EIPA). We found that the NHE1-Glu(346)Asp mutant was more than 2000-fold more resistant to HOE694 and up to 300-fold more resistant to EIPA than wild-type NHE1, with the size, rather than the charge, of the amino acid in position 346 having the greatest effect. Interestingly, its affinity for Na(+) was at least 4-fold lower than that of wild-type NHE1. Mutation of amino acids in the vicinity of Glu(346) did not change the sensitivity of mutated NHE1 proteins to inhibitors. We suggest there is a direct interaction of Glu(346) or involvement of Glu(346) in a coordination site with NHE inhibitors and with Na(+).     

Expression of the cardiac Na(+)-Ca2+ exchanger in insect cells using a baculovirus vector.

We constructed a recombinant baculovirus containing cardiac Na(+)-Ca2+ exchanger cDNA under control of the polyhedrin promoter. When either Sf9 or Sf21 insect cells are infected with the recombinant baculovirus, both Na(+)-Ca2+ exchanger protein and Na(+)-Ca2+ exchange activity are expressed at high level. The exchanger protein can be detected either by immunoblot or by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of whole cell lysate. At maximal expression, the exchanger protein comprises about 3-5% of total cell protein. The Na(+)-Ca2+ exchanger can be purified by alkaline extraction of infected cells followed by elution from a Bio-Rad Prep Cell. The expressed exchanger, in contrast to the native sarcolemmal exchanger, is not glycosylated. Sf9 cells expressing the exchanger are intensely stained by anti-exchanger antibodies as observed by immunofluorescence. The expressed exchanger is predominantly in the cell plasma membrane since it is susceptible to extracellular trypsin. In 45Ca2+ flux experiments, the expressed Na(+)-Ca2+ exchange activity is about 4-fold higher than that in cultured neonatal rat heart cells. The expressed exchanger was also analyzed electrophysiologically using whole cell patch clamp techniques. The characteristics of inward exchange currents in infected Sf21 cells are very similar to those of ventricular myocytes, although of a larger magnitude.     

G蛋白,蛋白激酶C和Na^＋—H^＋交换在内皮素—1诱导培养心肌细胞肥大反应中的

内皮系-1（ET-1）是一种强的生长因子,并诱导心肌细胞肥大反应。在本实验中,我们探讨了G蛋白、蛋白激酶C（PKC）和Na＋－H＋交换在ET-1诱导的培养新生大鼠心肌细胞肥大反应中的作用。ET-1（10－10～10－7mol／L）促进3H－亮氨酸掺入,增加细胞蛋白质的含量和心肌细胞的表面积,且呈剂量依赖性,它们的EC50分别为5．2×10-10,5．2×10－10和7．3×10－10mol／L。用蛋白激酶C（PKC）抑制剂,Staurosporin（2nmol／L）预处理心肌细胞,可完全阻断ET-1诱导的心肌细胞的这些肥大反应,而蛋白激酶C激动剂,佛波酸酯（PMA）（10－8～10－6mol／L）呈剂量依赖性促进心肌细胞的肥大反应。用Na＋－H＋交换抑制剂,氨氯毗咪（10-4mol／L）预处理心肌细胞,可抑制ET－1诱导的心肌细胞肥大反应,但不影响PMA诱导的心肌细胞肥大反应。百日咳毒素（150ng／ml）预处理心肌细胞,可明显抑制ET－1诱导的心肌细胞肥大反应。这些结果提示,ET-1诱导的培养新生大鼠心肌细胞肥大反应是与百日咳毒素敏感的G蛋白相耦联,蛋白激酶C和Na＋．H＋交换可能在ET-1诱导的心肌细胞肥大反应中是重要的细胞内信使转导途径。     

Altered expression of the Na+/H+ exchanger isoform-3 in experimental colitis: Effect of garlic

The sodium-hydrogen exchanger isoform, NHE-3 is essential for the absorption of sodium and water from intestine. Whether this protein plays any role in inflammatory bowel disease is less understood. To address this issue, NHE-3 mRNA and protein levels were estimated in the terminal ileum and colon of the rats having colitis induced with trinitrobenzenesulphonic acid (TNBS). The effect of garlic (Allium sativum) was also evaluated on the expression of NHE-3. The animals were treated with garlic extract intraperitoneally starting 2 h before the TNBS administration until day 4 post-TNBS administration and were sacrificed on day 5. In control animals, the levels of NHE-3 in colon was higher than the ileum. As a result of colitis, the levels of NHE-3 protein and mRNA increased both in the colon and terminal ileum. Garlic treatment of the colitic animals resulted in a selective suppression of NHE-3 in the terminal ileum. Colitis caused an induction of the myeloperoxidase activity, the marker of inflammation in the colon but not in the ileum. These findings suggest that induction of NHE-3 is not primarily due to inflammation. Selective suppression of this protein in ileum by garlic may cause loss of sodium chloride and water during colitis.     

钠-氢交换蛋白 mRNA在人胎儿两个发育阶段中的组织特异性表达

钠－氢交换蛋白（Na^ -H^ exchangers,NHE）至少包含6个不同的亚型,生长因子可激活其表达。目前,对在发育过程中NHE的表达了解甚少。本文利用RT－PCR观察了4种NHE亚型的mRNA在人胎儿的两个不同发育阶段（11周、16周）在不同组织中的表达,以研究它们的发育调控。结果显示,NHE1 mRNA在两种胎龄的多种组织中均有表达,和16周胚胎相比,11周的胚胎的NHE1 mRNA的表达较弱,并且表现出明显的组织差异。据此推测,NHE1的管家（house-keeping）功能可能至少在11周就开始形成,而最迟在16周已基本建立;NHE2和NHE3 mRNA在11周和16周的胚胎组织中的特异性表达呈现相反的变化趋势及组织分布上的重叠,后者与NHE2和NHE3在成人组织中的分布及功能的重叠的特点相吻合;NHE5 mRNA的表达在11周的胚胎组织中比较普遍,而在16周的胚胎组织中则局限在小脑组织中,本研究表明,在人胚胎发育11－16周期间,NHE的组织特异性表达表现出时间依赖性的调控,而在不迟于胚胎发育的第16周,具有“管家功能”的NHE1的基因表达已与成人相似。