EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The affect of extracellular Cd2+ on CNS white matter was studied using an isolated rat optic nerve preparation. A 100-min exposure to 200 microM Cd2+ reduced the area of the compound action potential (CAP) recorded from the optic nerve to 32.6 +/- 3.8% (mean +/- SE) of the preexposure area, compared with a reduction to 74.9 +/- 2.9% after 100 min in control conditions (P > 0.001). This CAP reduction was not reversed after 120 min of reperfusion with Cd(2+)-free solution, or by perfusion with Cd2+ chelators. 2. Cd(2+)-induced CAP loss occurred in the absence of extracellular Ca2+. Increasing extracellular Ca2+ concentration to 16 mM, however, prevented Cd(2+)-induced CAP loss. Once evident, Cd(2+)-induced CAP reduction could not subsequently be reversed by addition of 16 mM Ca2+. 3. Low concentrations of Cd2+ (60 microM) did not significantly reduce CAP area. This concentration of Cd2+ combined with high extracellular K+ (30 mM) caused CAP loss that was blocked by 10 microM nifedipine, an antagonist of L-type voltage-gated Ca2+ channels. 4. Treatment with pharmacological inhibitors of membrane proteins known to be inhibited by Cd2+ did not affect the CAP. These included inhibitors of voltage-gated Ca2+ channels, Ca(2+)-activated K+ channels, Ca(2+)-ATPase and the Na+/Ca2+ exchanger. 5. Treatment with pharmacological agents that inhibit calmodulin or disrupt tubulin, two intracellular proteins affected by Cd2+, did not affect CAP area. 6. The effect of Cd2+ was not prevented by pretreatment with (+)-cyanidanol-3, an agent that prevents Cd(2+)-induced lipid peroxidation. 7. Treatment with antimycin A, a inhibitor of mitochondrial respiration, resulted in irreversible CAP reduction with a time course and extent similar to that produced by 200 microM Cd2+. Cd(2+)-induced CAP reduction was prevented by 1 mM cysteine, which prevents Cd(2+)-induced disruption of mitochondrial respiration. 8. The ultrastructure of optic nerves exposed to 200 microM Cd2+ for 100 min was characterized by swollen mitochondria with disrupted cristae and dissolution of microtubules, which were replaced by flocculent debris. Occasional regions of axonal swelling and empty spaces beneath the myelin also were found. Qualitatively similar changes in mitochondria and cytoskeletal elements were found in optic nerves exposed to antimycin A for 100 min. Astrocytes also displayed disrupted mitochondria and had an electron-lucent appearance under both conditions. 9. The neurological injury produced by exposure to Cd2+ is characterized by lesions of CNS white matter. Our results indicate that Cd(2+)-induced white matter injury in vitro results largely from disruption of mitochondrial respiration after Cd2+ influx through routes that include voltage-gated Ca2+ channels.
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PMID:Cd(2+)-induced injury in CNS white matter. 893 Feb 71

Vasopressin stimulates transepithelial Na+ absorption in the rabbit cortical collection duct (CCD), however, this increase is short-lived and is followed by sustained inhibition of Na+ absorption. Previous studies suggest that increased basolateral Ca2+ influx via a Na+/Ca2+ exchanger may be involved in feedback inhibition of Na+ absorption, accounting for this transient stimulation. The present studies used the Na+ sensitive dye, SBFI, to measure intracellular NA+ ([Na+]i) in the CCD to determine whether either vasopressin or 3'5'cAMP increase cell Na+ in the CCD, thereby increasing Na+/Ca2+ exchange. Resting CCD [Na+]i was 23 +/- 2.5 mM. Both arginine vasopressin (AVP, 23 pM) and 0.1 mM 8-chlorophenylthio-cAMP (8CPTcAMP) transiently increased [Na+]i, which peaked within approximately 250 seconds of their addition and then gradually fell towards baseline. AVP increased [Na+]i from 19.4 +/- 3.6 to a peak of 44.4 +/- 14 mM and 8CPTcAMP increased [Na+]i from 11.8 +/- 3.6 to a peak of 38.7 +/- 6.2 mM. This [Na+]i increase was completely blocked by luminal Na+ removal. Inhibition of the basolateral Na/K ATPase with 10 microM ouabain caused [Na+]i to increase to 71.8 +/- 11.6 mM. These results demonstrate that cAMP and AVP increase CCD [Na+]i via a mechanism involving enhanced luminal Na+ entry. This [Na+]i increase is transient and of sufficient magnitude to enhance basolateral Ca2+ influx, via a Na+/Ca2+ exchanger. This latter event could contribute to feedback inhibition of Na+ absorption in the CCD.
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PMID:Effect of vasopressin on intracellular Na+ concentration in cortical collecting duct. 894 23

The 1 alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3]-induced expression of Na+/Ca2+ exchanger, Ca(2+)-adenosinetriphosphatase (Ca(2+)-ATPase), and calbindin-D28k was investigated in the rabbit distal nephron. Immunocytochemical studies in rabbit kidney sections revealed colocalization of the three Ca2+ transport proteins in the majority of cells in the distal nephron, including connecting tubules and cortical collecting ducts. Subsequently, rabbit connecting and cortical collecting tubule cells were immunodissected and cultured on permeable supports. Immunocytochemical analysis of the cultured cells by confocal microscopy revealed that Na+/Ca2+ exchanger and Ca(2+)-ATPase were present at the basolateral membrane, whereas calbindin-D28k was evenly distributed throughout the cytosol. Concomitant with an increase in Ca2+ transport, 1,25(OH)2D3 increased calbindin-D28k protein and RNA content two- to threefold, as determined by Northern and Western blotting. By contrast, neither Na+/Ca2+ exchanger nor Ca(2+)-ATPase RNA or protein content was noticeably altered. Our findings suggest that 1,25(OH)2D3 stimulation of transcellular Ca2+ transport in primary cultures of rabbit cortical collecting system cells involves an increase in the gene expression of calbindin-D28k but not of Na+/Ca2+ exchanger and Ca(2+)-ATPase.
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PMID:Localization and regulation by vitamin D of calcium transport proteins in rabbit cortical collecting system. 894 92

Plasma membrane Ca(2+)-ATPase (PMCA) and the Na+/Ca2+ exchanger participate in regulating cell function by maintaining proper intracellular Ca2+ concentrations ([Ca2+]i). In renal epithelial cells these proteins have been additionally implicated in cellular calcium absorption. The purpose of the present studies was to determine the Ca2+ extrusion mechanisms in cells derived from the proximal tubule. Homology-based RT-PCR was used to amplify PMCA transcripts from RNA isolated from mouse cell lines originating from the S1, S2, and S3 proximal tubule segments. S1, S2, and S3 cells exhibited only PMCA1 and PMCA4 products. PCR product identity was confirmed by sequence analysis. Northern analysis of proximal tubule cell RNAs revealed appropriate transcripts of 7.5 and 5.5 kb for PMCA1 and 8.5 and 7.5 kb for PMCA4, but were negative for PMCA2 and PMCA3. Western analysis with a monoclonal antibody to PMCA showed that all proximal cell lines expressed a reacting plasma membrane protein of 140 kD, the reported PMCA molecular mas. Na+/Ca2+ exchanger (NCX1) mRNA expression, analyzed by RT-PCR, protein expression by Western analysis, and functional exchange activity were uniformly absent from all proximal tubule cell lines. These observations support the idea that immortalized cells derived from the proximal tubule express PMCA1 and PMCA4, which may serve as the primary mechanism of cellular Ca2+ efflux.
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PMID:Molecular dissection of Ca2+ efflux in immortalized proximal tubule cells. 904 50

We have previously shown that an increase of intracellular Na+ occurs in isolated rat hepatocytes undergoing ATP depletion and that Na+ accumulation is associated with an uncontrolled influx of Ca2+ through the activation in reverse mode of the Na+/Ca2+ exchanger. In the present study we have investigated the relationship between alterations of Na+ and Ca2+ homeostasis and hepatocyte killing using treatments which differentially chelate extracellular or intracellular Ca2+. Chelation of extracellular Ca2+ by ethylene glycol bis-(beta-aminoethyl ether) N,N,N',N'-tetraacetic acid (EGTA) potentiated Na+ overload and cell killing induced in isolated rat hepatocytes by hypoxia or menadione. Similar effects were also observed when Na+ accumulation was induced by the combined addition of Na+ ionophore monensin and the inhibition of plasma membrane Na+/K+ ATPase by ouabain. Conversely, the use of the intracellular Ca2+ chelator EGTA acetoxymethyl ester (EGTA/AM) reduced Na+ overload and hepatocyte death induced by hypoxia or cell treatment with menadione or monensin plus ouabain. The effects of EGTA/AM were reverted in the presence of bepridil, an inhibitor of Na+/Ca2+ exchanger. Altogether these results indicated that differential chelation of intracellular or extracellular Ca2+ influences in opposite ways hepatocyte killing due to ATP depletion by modulating intracellular Na+ levels through the reversed activity of the Na+/Ca2+ exchanger.
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PMID:Role of Na+/Ca2+ exchanger in preventing Na+ overload and hepatocyte injury: opposite effects of extracellular and intracellular Ca2+ chelation. 912 11

The Ca2+ ATPase of the sarcoplasmic reticulum (SERCA2) plays a dominant role in lowering cytoplasmic calcium levels during cardiac relaxation and reduction of its activity has been linked to delayed diastolic relaxation in hypothyroid and failing hearts. To determine the contractile alterations resulting from increased SERCA2 expression, we generated transgenic mice overexpressing a rat SERCA2 transgene. Characterization of a heterozygous transgenic mouse line (CJ5) showed that the amount of SERCA2 mRNA and protein increased 2. 6-fold and 1.2-fold, respectively, relative to control mice. Determination of the relative synthesis rate of SERCA2 protein showed an 82% increase. The mRNA levels of some of the other genes involved in calcium handling, such as the ryanodine receptor and calsequestrin, remained unchanged, but the mRNA levels of phospholamban and Na+/Ca2+ exchanger increased 1.4-fold and 1.8-fold, respectively. The increase in phospholamban or Na+/Ca2+ exchanger mRNAs did not, however, result in changes in protein levels. Functional analysis of calcium handling and contractile parameters in isolated cardiac myocytes indicated that the intracellular calcium decline (t1/2) and myocyte relengthening (t1/2) were accelerated by 23 and 22%, respectively. In addition, the rate of myocyte shortening was also significantly faster. In isolated papillary muscle from SERCA2 transgenic mice, the time to half maximum postrest potentiation was significantly shorter than in negative littermates. Furthermore, cardiac function measured in vivo, demonstrated significantly accelerated contraction and relaxation in SERCA2 transgenic mice that were further augmented in both groups with isoproterenol administration. Similar results were obtained for the contractile performance of myocytes isolated from a separate line (CJ2) of homozygous SERCA2 transgenic mice. Our findings suggest, for the first time, that increased SERCA2 expression is feasible in vivo and results in enhanced calcium transients, myocardial contractility, and relaxation that may have further therapeutic implications.
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PMID:Overexpression of the rat sarcoplasmic reticulum Ca2+ ATPase gene in the heart of transgenic mice accelerates calcium transients and cardiac relaxation. 921 15

Ouabain is an endogenous substance occurring in the plasma in the nanomolar range, that has been proposed to increase vascular resistance and induce hypertension. This substance acts on the alpha-subunit of Na+,K(+)-ATPase inhibiting the Na(+)-pump activity. In the vascular smooth muscle this effect leads to intracellular Na+ accumulation that reduces the activity of the Na+/Ca2+ exchanger and to an increased vascular tone. It was also suggested that circulating ouabain, even in the nanomolar range, sensitizes the vascular smooth muscle to vasopressor substances. We tested the latter hypothesis by studying the effects of ouabain in the micromolar and nanomolar range on phenylephrine (PE)-evoked pressor responses. The experiments were performed in normotensive and hypertensive rats in vivo, under anesthesia, and in perfused rat tail vascular beds. The results showed that ouabain pretreatment increased the vasopressor responses to PE in vitro and in vivo. This sensitization after ouabain treatment was also observed in hypertensive animals which presented an enhanced vasopressor response to PE in comparison to normotensive animals. It is suggested that ouabain at nanomolar concentrations can sensitize vascular smooth muscle to vasopressor stimuli possibly contributing to increased tone in hypertension.
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PMID:Effects of ouabain on vascular reactivity. 925 76

cDNAs for the Na+/Ca2+ exchanger from Drosophila melanogaster (Dmel/Nck) have been cloned by homology screening using the human heart Na+/Ca2+ exchanger cDNA. The overall deduced protein structure for Dmel/Nck is similar to that of mammalian Na+/Ca2+ exchanger genes NCX1 and NCX2, having six hydrophobic regions in the amino terminus separated from six at the carboxy-terminal end by a large intracellular loop. Sequence comparison of the Drosophila exchanger cDNAs with NCX1 and NCX2 Na+/Ca2+ exchangers are approximately 46% identical at the deduced amino acid level. Consensus phosphorylation sites for both protein kinase C and protein kinase A are present on the intracellular loop region of the Dmel/Nck. Alternative splicing for the Dmel/Nck gene is suggested in the same intracellular loop region as demonstrated for NCX1. Functionally, the Drosophila Na+/ Ca2+ exchanger expressed in oocytes differs from expressed mammalian NCX1 with regard to Ca2+ transport in Ca2+/ Ca2+ exchange and the effect of monovalent-dependent Ca2+/ Ca2+ exchange. The Dmel/Nck gene maps to chromosome 3 (93A-B) using in situ hybridization to polytene chromosomes, the same position as the Na(+)-K(+)-ATPase, a related transporter. We conclude that, although extracellular Na+ concentration-dependent Ca2+ transport is subserved by both human and Drosophila Na+/Ca2+ exchangers, there are clear and important differences in the transporters, which should be useful in deducing how the Na+/Ca2+ exchanger protein function depends on its structure.
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PMID:Na+/Ca2+ exchanger in Drosophila: cloning, expression, and transport differences. 925 64

Chloride cells (CCs; recognised by the vital mitochondrial stain DASPEI) and pavement cells (PCs) isolated from tilapia opercular epithelium were adhered to Cell-Tak-coated glass coverslips and loaded with fluorescent probes for the measurement of intracellular concentrations of Na+ or Ca2+. Basal levels of cytosolic Na+ and Ca2+ ranged from 6.4 to 16.5 mmol l-1 and from 76 to 110 nmol l-1, respectively, and did not differ between CCs and PCs. In CCs, inhibition of Na+/K+-ATPase by ouabain or Cu2+ increased intracellular [Na+]. Replacing extracellular Na+ with N-methyl-d-glucamine+ led to a rise in cytosolic [Ca2+] that was dependent on the extracellular [Ca2+], indicating that a Na+/Ca2+ exchanger was operating in reverse mode (importing Ca2+). The forward mode of this exchanger could be demonstrated by inhibition with bepridil. The CC has various pathways for passive Na+ influx: a tetrodotoxin-sensitive pathway, an amiloride-sensitive pathway and other as yet unidentified pathways.
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PMID:Na+ and Ca2+ homeostatic mechanisms in isolated chloride cells of the teleost Oreochromis mossambicus analysed by confocal laser scanning microscopy 931 98

The effect of oxidative stress, induced by Fe(2+)-EDTA system, on Na+,K(+)-ATPase, Na+/CA2+ exchanger and membrane fluidity of synaptosomes was investigated. Synaptosomes isolated from gerbil whole forebrain were incubated in the presence of 200 microM FeSO4-EDTA per mg of protein at 37 degrees C for 30 min. The oxidative insult reduced Na+,K(+)-ATPase activity by 50.7 +/- 5.0% and Na+/Ca2+ exchanger activity measured in potassium and choline media by 47.1 +/- 7.2% and 46.7 +/- 8.6%, respectively. Membrane fluidity was also significantly reduced as observed with the 1,6-diphenyl-1,3,5-hexatriene probe. Stobadine, a pyridoindole derivative, prevented the decrease in membrane fluidity and in Na+/Ca2+ exchanger activity. The Na+,K(+)-ATPase activity was only partially protected by this lipid antioxidant, indicating a more complex mechanism of inhibition of this protein. The results of the present study suggest that the Na+/Ca2+ exchanger and the Na+,K(+)-ATPase are involved in oxidation stress-mediated disturbances of intracellular ion homeostasis and may contribute to cell injury.
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PMID:Iron-induced inhibition of Na+, K(+)-ATPase and Na+/Ca2+ exchanger in synaptosomes: protection by the pyridoindole stobadine. 935 20

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