Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Na,K-ATPase alpha subunit has three isoforms whose expression is regulated developmentally and hormonally. Na,K-ATPase alpha3 subunit gene (Atpla3) is expressed only in brain and neonatal heart in a rat. The purpose of this study is to analyze cis-acting elements and trans-acting factors regulating the transcription of Atpla3 in cultured neonatal rat cardiocytes. Transient transfection assays with Atpla3-luciferase chimeric construct and a series of 5' sequential deletion mutations revealed the existence of positive regulatory elements from -74 to -59 and from -59 to -39. A factor was identified to bind across -59 by gel retardation assay. Methylation interference and DNase I footprinting analyses revealed the binding region from -74 to -53 (positive regulatory element (PRE) 1). The binding factor was identified to be NF-Y by gel retardation assay using specific antibody. Gel retardation and methylation interference analyses revealed that factors bind to two other elements from -54 to -43 (PRE2) and from -25 to -13 (PRE3). The binding factors were identified to be Sp1/Sp3 using specific antibodies. The functions of above-mentioned three elements were examined by transient transfection assay with various combinations of mutations. They all regulated the transcription positively and a synergistic enhancement of it was observed. Roles of NF-Y in the transcriptional activation and synergy are discussed.
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PMID:Promoter of the Na,K-ATPase alpha3 subunit gene is composed of cis elements to which NF-Y and Sp1/Sp3 bind in rat cardiocytes. 922 55

A 26-amino acid sequence in an extracellular loop of the Na,K-ATPase alpha subunit between membrane-spanning segments 7 and 8 has been shown to bind to the beta subunit of Na,K-ATPase and to promote alphabeta assembly (Lemas, M. V., Hamrick, M., Takeyasu, K., and Fambrough, D. M. (1994) J. Biol. Chem. 269, 8255-8259) When this 26-amino acid sequence of the rat Na,K-ATPase alpha3 subunit was replaced by the corresponding sequence of the rat gastric H,K-ATPase alpha subunit, the chimeric alpha subunit assembled preferentially with the rat gastric H,K-ATPase beta subunit (Wang, S.-G., Eakle, K. A., Levenson, R., and Farley, R. A. (1997) Am. J. Physiol. 272, C923-C930). In the present study, these 26 amino acids (Asn886-Ala911) of rat Na,K-ATPase alpha3 were replaced by the corresponding amino acids Asn908-Ala933 of rat distal colon H, K-ATPase. Site-directed mutagenesis of the chimeric alpha subunits and Na,K-ATPase alpha3 showed that Val904, Tyr898, and Cys908 in the Na,K-ATPase alpha3 subunit are key residues in alphabeta subunit interactions. The V904Q mutation in Na,K-ATPase alpha3 reduced the Bmax for ouabain binding and the ATPase activity of alpha3beta1 complexes by approximately 95%, and Y898R reduced the Bmax and ATPase activity by approximately 60%. The complementary mutations Q904V and R898Y increased the amount of ouabain bound by yeast membranes expressing the chimera with the colon H,K-ATPase sequence. The amount of ouabain bound by complexes assembled between Na, K-ATPase alpha3 containing the Y898R,C908G mutations and gastric H, K-ATPase beta was less than 10% of wild type Na,K-ATPase alpha3 expressed with the same beta subunit. The R898Y,G908C mutations in the chimeric alpha subunits also increased ouabain binding.
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PMID:Valine 904, tyrosine 898, and cysteine 908 in Na,K-ATPase alpha subunits are important for assembly with beta subunits. 979 42

This study was undertaken to examine the combined effect of nitric oxide (NO) and hyperoxia on lung edema and Na,K-ATPase expression. Newborn piglets were exposed to room air (FiO2 = 0.21), room air plus 50 ppm NO, hyperoxia (FiO2 >/= 0.96) or to hyperoxia plus 50 ppm NO for 4-5 days. Animals exposed to NO in room air experienced only a slight decrease in Na,K-ATPase alpha subunit protein level. Hyperoxia, in the absence of NO, induced both the mRNA and the protein level of Na,K-ATP-ase alpha subunit and significantly increased wet lung weight, extravascular lung water, and alveolar permeability. NO in hyperoxia decreased the hyperoxic-mediated induction of Na,K-ATPase alpha subunit mRNA and protein while wet lung weight, extravascular lung water, and alveolar permeability remained elevated. These results suggest that 50 ppm of inhaled NO may not improve hyperoxic-induced lung injury and may interfere with the expression of Na,K-ATPase which constitutes a part of the cellular defense mechanism against oxygen toxicity.
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PMID:Influence of inhaled nitric oxide and hyperoxia on Na,K-ATPase expression and lung edema in newborn piglets. 992 7

We have isolated and characterized cDNA clones encoding the murine homologue of a putative fourth Na,K-ATPase alpha subunit isoform (alpha4). The predicted polypeptide is 1032 amino acids in length and exhibits 75% amino acid sequence identity to the rat alpha1, alpha2, and alpha3 subunits. Within the first extracellular loop, the alpha4 subunit is highly divergent from other Na,K-ATPase alpha subunits. Because this region of Na,K-ATPase is a major determinant of ouabain sensitivity, we tested the ability of the rodent alpha4 subunit to transfer ouabain resistance in a transfection protocol. We find that a cDNA containing the complete rodent alpha4 ORF is capable of conferring low levels of ouabain resistance upon HEK 293 cells, an indication that the alpha4 subunit can substitute for the endogenous ouabain-sensitive alpha subunit of human cells. Nucleotide sequences specific for the murine alpha4 subunit were used to identify the chromosomal position of the alpha4 subunit gene. By hybridizing an alpha4 probe with a series of BACs, we localized the alpha4 subunit gene (Atp1a4) to the distal portion of mouse chromosome 1, in very close proximity to the murine Na,K-ATPase alpha2 subunit gene. In adult mouse tissues, we detected expression of the alpha4 subunit gene almost exclusively in testis, with low levels of expression in epididymis. The close similarities in the organization and expression pattern of the murine and human alpha4 subunit genes suggest that these two genes are orthologous. Together, our studies indicate that the alpha4 subunit represents a functional Na,K-ATPase alpha subunit isoform.
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PMID:The Na,K-ATPase alpha4 gene (Atp1a4) encodes a ouabain-resistant alpha subunit and is tightly linked to the alpha2 gene (Atp1a2) on mouse chromosome 1. 1055 56

The H,K-adenosine triphosphatase (ATPase) of gastric parietal cells is targeted to a regulated membrane compartment that fuses with the apical plasma membrane in response to secretagogue stimulation. Previous work has demonstrated that the alpha subunit of the H, K-ATPase encodes localization information responsible for this pump's apical distribution, whereas the beta subunit carries the signal responsible for the cessation of acid secretion through the retrieval of the pump from the surface to the regulated intracellular compartment. By analyzing the sorting behaviors of a number of chimeric pumps composed of complementary portions of the H, K-ATPase alpha subunit and the highly homologous Na,K-ATPase alpha subunit, we have identified a portion of the gastric H,K-ATPase, which is sufficient to redirect the normally basolateral Na,K-ATPase to the apical surface in transfected epithelial cells. This motif resides within the fourth of the H,K-ATPase alpha subunit's ten predicted transmembrane domains. Although interactions with glycosphingolipid-rich membrane domains have been proposed to play an important role in the targeting of several apical membrane proteins, the apically located chimeras are not found in detergent-insoluble complexes, which are typically enriched in glycosphingolipids. Furthermore, a chimera incorporating the Na, K-ATPase alpha subunit fourth transmembrane domain is apically targeted when both of its flanking sequences derive from H,K-ATPase sequence. These results provide the identification of a defined apical localization signal in a polytopic membrane transport protein, and suggest that this signal functions through conformational interactions between the fourth transmembrane spanning segment and its surrounding sequence domains.
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PMID:A transmembrane segment determines the steady-state localization of an ion-transporting adenosine triphosphatase. 1068 57

The roles of Ser775 and Glu779, two amino acids in the putative fifth transmembrane segment of the Na,K-ATPase alpha subunit, in determining the voltage and extracellular K+ (K+(o)) dependence of enzyme-mediated ion transport, were examined in this study. HeLa cells expressing the alpha1 subunit of sheep Na,K-ATPase were voltage clamped via patch electrodes containing solutions with 115 mM Na+ (37 degrees C). Na,K-pump current produced by the ouabain-resistant control enzyme (RD), containing amino acid substitutions Gln111Arg and Asn122Asp, displayed a membrane potential and K+(o) dependence similar to wild-type Na,K-ATPase during superfusion with 0 and 148 mM Na+-containing salt solutions. Additional substitution of alanine at Ser775 or Glu779 produced 155- and 15-fold increases, respectively, in the K+(o) concentration that half-maximally activated Na,K-pump current at 0 mV in extracellular Na+-free solutions. However, the voltage dependence of Na,K-pump current was unchanged in RD and alanine-substituted enzymes. Thus, large changes in apparent K+(o) affinity could be produced by mutations in the fifth transmembrane segment of the Na,K-ATPase with little effect on voltage-dependent properties of K+ transport. One interpretation of these results is that protein structures responsible for the kinetics of K+(o) binding and/or occlusion may be distinct, at least in part, from those that are responsible for the voltage dependence of K+(o) binding to the Na,K-ATPase.
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PMID:The role of Na,K-ATPase alpha subunit serine 775 and glutamate 779 in determining the extracellular K+ and membrane potential-dependent properties of the Na,K-pump. 1087 39

Renal sodium retention is responsible for ascites and edema in nephrotic syndrome. In puromycin aminonucleoside (PAN)-induced nephrosis, sodium retention originates in part from the collecting duct, and it is associated with increased Na,K-ATPase activity in the cortical collecting duct (CCD). The aims of this study were to evaluate whether the outer medullary collecting duct (OMCD) also participates to sodium retention and to determine the mechanisms responsible for stimulation of Na,K-ATPase in CCD. PAN nephrosis increased Na,K-ATPase activity in the CCD but not in OMCD. The two-fold increase of Na,K-ATPase activity in CCD was associated with two-fold increases in the number of alpha and beta Na,K-ATPase subunits mRNA determined by quantitative RT-PCR and of the total amount of Na,K-ATPase alpha subunits estimated by Western blotting. PAN nephrosis also increased two-fold the amount of Na,K-ATPase alpha subunit at the basolateral membrane of CCD principal cells, as determined by Western blotting after biotinylation and streptavidin precipitation and by immunofluorescence. The intracellular pool of latent Na,K-ATPase units also increased in size and was no longer recruitable by vasopressin and cAMP. This unresponsiveness of the intracellular pool of Na,K-ATPase to vasopressin was not the result of any alteration of the molecular and functional expression of the vasopressin V(2) receptor/adenylyl cyclase (AC) complex. It is concluded that PAN nephrosis (1) does not alter sodium reabsorption in OMCD, (2) is associated with increased synthesis and membrane expression of Na,K-ATPase in the CCD, and (3) alters the normal trafficking of intracellular Na,K-ATPase units to the basolateral membrane.
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PMID:Increased synthesis and avp unresponsiveness of Na,K-ATPase in collecting duct from nephrotic rats. 1167

We have identified and characterized cDNAs encoding a novel zebrafish Na,K-ATPase alpha subunit. The full-length cDNA encodes a 1,023-amino-acid-long peptide which shows greatest homology to zebrafish alpha1 polypeptides. Radiation hybrid mapping localized the new gene (atp1a1a.5) to linkage group 1 in close proximity to the previously identified cluster of Na,K-ATPase alpha1 genes. The expression of atp1a1a.5 in zebrafish embryos was analyzed using whole-mount in situ hybridization. From mid-somitogenesis through 48 h post fertilization (hpf), atp1a1a.5 transcripts were detected in the pronephric duct, ear, and mucous cells. This expression pattern continues through 108 hpf, when high levels of expression were also detected in the intestinal bulb.
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PMID:Cloning, mapping, and developmental expression of a sixth zebrafish Na,K-ATPase alpha1 subunit gene (atp1a1a.5). 1261 8

Phospholemman (FXYD1) is a homolog of the Na,K-ATPase gamma subunit (FXYD2), a small accessory protein that modulates ATPase activity. Here we show that phospholemman is highly expressed in selected structures in the CNS. It is most abundant in cerebellum, where it was detected in the molecular layer, in Purkinje neurons, and in axons traversing the granule cell layer. Phospholemman was particularly enriched in choroid plexus, the organ that secretes CSF in the ventricles, where it colocalized with Na,K-ATPase in the apical membrane. It was also enriched, with Na,K-ATPase, in certain tanycytes or ependymal cells of the ventricle wall. Two different experimental approaches demonstrated that phospholemman physically associated with the Na,K-ATPase in cerebellum and choroid plexus: the proteins copurified after detergent treatment and co-immunoprecipitated from solubilized crude membranes using either anti-phospholemman or anti-Na,K-ATPase antibodies. Phospholemman antibodies precipitated all three Na,K-ATPase alpha subunit isoforms (alpha1-alpha3) from cerebellum, indicating that the interaction is not specific to a particular alpha isoform and consistent with the presence of phospholemman in both neurons and glia. Antibodies against the C-terminal domain of phospholemman reduced Na,K-ATPase activity in vitro without effect on Na+ affinity. At least two other FXYD family members have been detected in the CNS, suggesting that additional complexity of sodium pump regulation will be found.
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PMID:Phospholemman, a single-span membrane protein, is an accessory protein of Na,K-ATPase in cerebellum and choroid plexus. 1265 75

Aldosterone controls extracellular volume and blood pressure by regulating Na(+) reabsorption across epithelial cells of the aldosterone-sensitive distal nephron (ASDN). This effect is mediated by a coordinate action on the luminal channel ENaC (generally rate limiting) and the basolateral Na,K-ATPase. Long-term effects of aldosterone (starting within 3 to 6 hours and increasing over days) are mediated by the direct and indirect induction of stable elements of the Na(+) transport machinery (e.g., Na,K-ATPase alpha subunit), whereas short-term effects appear to be mediated by the upregulation of short-lived elements of the machinery (e.g., ENaC alpha subunit) and of regulatory proteins, such as the serum- and glucocorticoid-regulated kinase SGK1. We have recently shown that in cortical collecting duct (CCD) from adrenalectomized (ADX) rats, the increase in Na,K-ATPase activity (approximately threefold in 3 h), induced by a single aldosterone injection, can be fully accounted for by the increase in Na,K-ATPase cell-surface expression. Using the model cell line mpkCCD(cl4), we showed that the parallel increase in Na,K-ATPase function [assessed by Na(+) pump current (I(p)) measurements] and cell-surface expression depends on transcription and translation, and that it is not secondary to a change in apical Na(+) influx. As a first approach to address the question whether the aldosterone-induced regulatory protein SGK1 might play a role in mediating Na,K-ATPase translocation, we have used the Xenopus laevis expression system. SGK1 coexpression indeed increased both the Na(+) pump current and the surface expression of pumps containing the rat alpha1 subunits. In summary, aldosterone controls Na(+) reabsorption in the short term not only by regulating the apical cell-surface expression of ENaC but also by coordinately acting on the basolateral cell-surface expression of the Na,K-ATPase. Results obtained in the Xenopus oocyte expression system suggest the possibility that this effect could be mediated in part by the aldosterone-induced kinase SGK1.
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PMID:Short-term aldosterone action on Na,K-ATPase surface expression: role of aldosterone-induced SGK1? 1276 89


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