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)

The present study was conducted in 15 essential hypertensives to evaluate the modifications of plasma levels of an endogenous Na/K ATPase inhibitor, blood pressure, forearm hemodynamics and plasma renin activity (PRA) elicited by an intravenous saline infusion (0.9% NaCl at the mean rate of 0.22 mL/min/kg body weight for 2 h). The response to saline was determined in the whole hypertensive population as well as in two subgroups of patients classified according to their rate of PRA suppression in response to volume expansion by comparison with normotensive controls (Normal- and Low-suppressors: N-S, L-S). Over the whole group of hypertensive patients, NaCl load provoked an increase in Na/K ATPase inhibitory activity, measured by enzyme-coupled assay, which was linearly related to PRA decline (r = 0.73) and to the increase in mean blood pressure (r = 0.57). These effects were clearly enhanced by considering L-S patients alone. Urinary Na/K ratio after saline infusion was significantly higher in L-S as result of a lesser potassium excretion in this subgroup. Our results support the hypothesis that acute volume expansion with saline causes an increase in plasma levels of an endogenous sodium pump inhibitor with hemodynamic effects and whose release is related to the individual handling of infused fluids and to the degree of renin-angiotensin-aldosterone suppression.
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PMID:Short-term plasma renin activity suppression by saline and release of a plasma endogenous Na/K ATPase inhibitor in essential hypertension. 215 4

The sodium pump Na,K-ATPase, located in the plasma membrane of all animal cells, is a member of a family of ion-translocating ATPases that share highly homologous catalytic subunits. In this family, only Na,K-ATPase has been established to be a heterodimer of catalytic (alpha) and glycoprotein (beta) subunits. The beta subunit has not been associated with the pump's transport or enzymatic activity, and its role in Na,K-ATPase function has been, until recently, a puzzle. In this review we describe what is known about the structure of beta and summarize evidence that expression of both alpha and beta subunits is required for Na,K-ATPase activity, that inhibition of glycosylation causes a decrease in accumulation of both alpha and beta subunits, and we provide evidence that pretranslational up-regulation of beta alone can lead to increased abundance of sodium pumps. These findings are all consistent with the hypothesis that the beta subunit regulates, through assembly of alpha beta heterodimers, the number of sodium pumps transported to the plasma membrane.
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PMID:The sodium pump needs its beta subunit. 215 41

To examine the potential effect of the cellular ATP concentration and of the phosphate potential on the function of the sodium pump in intact renal cells, the ATP content of dog cortical tubules was first modified by a 30-min preincubation with one of the following effectors: 5 or 10 mM fructose, 2.5 mM adenosine 5'-monophosphate (AMP), or 2.5 mM adenosine in the presence of substrates (10 mM glutamine + 1 mM glutamate with either 10 mM lactate (low ATP) or 10 mM pyruvate (high ATP)). The tubules were then incubated in Krebs-Henseleit saline using two different phosphate concentrations and the same substrate mixture. The ATP content in tubular cells was modified by these treatments, ranging from 2.2 to 5.7 mM. The oxygen uptake by the tubules was measured before and after application of a small amount of nystatin (0.05 mM, 6 mumol/g wet wt.), added to impose an identical and submaximal increment of work to the Na(+)-K+ ATPase in tubules, irrespective of their ATP condition. This manoeuvre was followed by the addition of 1 mM ouabain to inhibit the sodium pump and quantify the respiration related to the activity of the Na+ pump. No significant effect of the ATP content on the respiratory cost of the Na(+)-K+ ATPase activity was noted when the [ATP] was above the normal concentration of approximately 3.0 mM before or after introduction of nystatin. In a second group of experiments, tubules were treated with 0.1 mM digitonin (13 mumol/g wet wt.) and resuspended in intracellular-like and sodium-free medium. The respiration was measured before and after the addition of increasing Mg-ATP concentrations (0-12 mM). A fixed quantity of Na+ (20 mM) was then introduced before ouabain was applied. The oxygen uptake was measured in these three conditions. We observed a fixed increment of ouabain-sensitive respiration upon stimulation of the pump activity by sodium at ATP concentrations ranging from 2 to 7 mM. The same observation applied when the free energy released from ATP hydrolysis ranged from -50 to -56 kJ.mol-1 and when the [ATP]/[ADP].[Pi] ratio ranged from 1.5 to 7.5 mM-1. These results suggest that the Na+:ATP stoichiometry of the Na(+)-K+ ATPase is not modified by [ATP] in dog cortical tubules when the ATP content is at or above the physiological value. Furthermore, the stoichiometry of the pump does not appear to change when the phosphate potential and (or) the free energy released from ATP hydrolysis are altered.
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PMID:Relationship between intracellular ATP and the sodium pump activity in dog renal tubules. 215 85

The effects and modes of action of certain antineoplastic phospholipid analogues (racemic 1-O-octadecyl-2-O-methyl glycero-3-phosphocholine, BM 41.440, JH-1, CV-3988, and HePC) on (sodium plus potassium)-activated adenosine triphosphatase (Na,K-ATPase) and sodium pump activities were investigated. Inhibition of Na,K-ATPase in purified rat brain synaptosomal membranes by these lipids, in contrast to ouabain, was subject to membrane surface dilution and unaffected by whether the reaction was started with KCl, NaCl, or ATP. Kinetic analysis indicated that the analogues, again dissimilar to ouabain, were likely to interact directly or indirectly with sodium-binding sites of Na,K-ATPase located at the intracellular surface of the plasma membrane, a conclusion also supported by studies using the inside-out vesicles of human erythrocyte membranes. The studies also showed that ouabain (but not the lipids) increased the affinity constant of Na,K-ATPase for K+, whereas the lipids (but not ouabain) increased that for Na+. The lipids also inhibited 86Rb uptake by intact human leukemia HL60 cells at potencies quite comparable to those seen for inhibition of purified protein kinase C or Na,K-ATPase. It is suggested that Na,K-ATPase (sodium pump) might represent a hitherto unrecognized site of action for the lipid analogues, and that the antineoplastic effects of the agents might be due to, in part, inhibition of both protein kinase C and Na,K-ATPase and perhaps other membrane-associated enzymes.
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PMID:Inhibition of protein kinase C, (sodium plus potassium)-activated adenosine triphosphatase, and sodium pump by synthetic phospholipid analogues. 215 69

Mineralocorticoids and glucocorticoids exhibit overlapping but distinct effects on transepithelial sodium transport in the descending colon. Na,K-ATPase, the major sodium pump, has been variously reported to be regulated by one or both classes of steroids. The present studies explore the ontogeny and steroidal regulation of Na,K-ATPase alpha- and beta-subunit mRNA levels in the descending colon. In descending colon, subunit mRNA levels are low before birth, increasing to reach adult levels at approximately day 25. Dexamethasone treatment caused a rapid dose-dependent increase in colonic Na,K-ATPase subunit mRNA levels. The specific glucocorticoid RU26988 also increased subunit mRNA levels. Aldosterone administration, at doses adequate to yield a profound antinatriuresis, did not alter subunit mRNA levels. Carbenoloxone sodium produced an approximately 3-fold increase in subunit mRNA levels in intact but not adrenalectomized rats. We have demonstrated that Na,K-ATPase subunit gene expression is: 1) low in the fetal colon but achieves plateau levels by day 25; 2) acutely regulated by corticosteroids via type II rather than type I receptors; and 3) increased by carbenoxolone sodium, presumably as a result of increased occupancy of the type II receptor by corticosterone.
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PMID:Colonic sodium-potassium adenosine triphosphate subunit gene expression: ontogeny and regulation by adrenocortical steroids. 216 14

In this review we have summarized the work of ourselves and others on ionic and hormonal regulation of synthesis of the sodium pump. No one central theme emerges from this summary. Rather, it appears that abundance can be regulated pre-translationally or posttranslationally. As reviewed recently, regulation of the expression of the beta glycoprotein subunit, which has no described enzymatic function, can regulate holoenzyme expression. In the kidney this is exemplified in our studies in LLC-PK1 cells and proximal tubule cells where pre-translational regulation of beta expression is key to increasing holoenzyme abundance, and also exemplified in the hypothyroid renal cortex where regulation of beta protein abundance post-translationally appears to impact the abundance of enzymatically active NaK-ATPase. Future studies in the field of ionic regulation of NaK-ATPase must be directed at elucidating the signals that mediate the response, and at how these signals alter the NaK-ATPase biosynthetic pathway from expression of alpha and beta genes, through to turnover of the mature NaK-ATPase heterodimer.
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PMID:Ionic regulation of the biosynthesis of NaK-ATPase subunits. 216 28

Na(+)-K(+)-ATPase of immature and mature sheep red blood cells of both the high-K+ and low-K+ genotype and of immature cells matured in vitro was detected using polyclonal antiserum to purified sheep kidney Na(+)-K(+)-ATPase. This antiserum detects both alpha (alpha 1)- and alpha + (alpha 2 and/or alpha 3)-isoforms of the catalytic subunit as well as the beta-subunit of brain and kidney Na(+)-K(+)-ATPase. After sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting, a single major immunologically reactive component corresponding to the alpha-subunit was detected in membranes of immature and mature cells from sheep of both genotypes. Cells separated according to increasing density showed a corresponding decrease in ouabain binding sites on the cells and Na(+)-activated ATP hydrolysis of membranes isolated from the cells. A progressive decrease in immunologically reactive alpha-subunit was also observed. After in vitro culture of reticulocytes, reduction in ouabain binding to the cells was also associated with loss in alpha-subunit. As well, appearance of immunologically reactive alpha-subunit was detected in membranous material shed into the incubation medium, accounting for a fraction (less than or equal to 30%) of the material lost from the cells. Proteolytic sensitivity of the alpha-subunit indicates that, in this material, the cytoplasmic surface of the enzyme is exposed to the medium. The shed material was largely devoid of function as evidenced in little, if any, Na(+)-dependent phosphorylation of Na(+)-K(+)-ATPase. The existence in reticulocytes of an intracellular pool of ouabain binding sites was indicated by the transient appearance on the cell surface of ouabain binding sites after rapid ATP depletion and also after addition of chloroquine to cells during culture. Taken together, these findings indicate that the maturation-associated loss of sodium pump protein involves, at least partly, energy-dependent endocytosis and, presumably, processing whereby inactivation of function occurs as well as release of pump protein into the extracellular milieu.
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PMID:Decrease in Na(+)-K(+)-ATPase associated with maturation of sheep reticulocytes. 216 34

The purpose of this study was to determine the effect of thyroid status on the Na,K-ATPase alpha isoforms and beta in rat heart, skeletal muscle, kidney, and brain at the levels of mRNA, protein abundance, and enzymatic activity. Northern and dot-blot analysis of RNA (euthyroid, hypothyroid, and triiodothyronine-injected hypothyroids = hyperthyroids) and immunoblot analysis of protein (euthyroid and hypothyroid) revealed isoform-specific regulation of Na,K-ATPase by thyroid status in kidney, heart, and skeletal muscle and no regulation of sodium pump subunit levels in the brain. In general, in the transition from euthyroid to hypothyroid alpha 1 mRNA and protein levels are unchanged in kidney and skeletal muscle and slightly decreased in heart, while alpha 2 mRNA and protein are decreased significantly in heart and skeletal muscle. In hypothyroid heart and skeletal muscle, the decrease in alpha 2 protein levels was much greater than the decrease in alpha 2 mRNA levels relative to euthyroid indicating translational or post-translational regulation of alpha 2 protein abundance by triiodothyronine status in these tissues. The regulation of beta subunit by thyroid status is tissue-dependent. In hypothyroid kidney beta mRNA levels do not change, but immunodetectable beta protein levels decrease relative to euthyroid, and the decrease parallels the decrease in Na,K-ATPase activity. In hypothyroid heart and skeletal muscle beta mRNA levels decrease; beta protein decreases in heart and was not detected in the skeletal muscle. These findings demonstrate that the euthyroid levels of expression of alpha 1 in heart, alpha 2 in heart and skeletal muscle, and beta in kidney, heart, and skeletal muscle are dependent on the presence of thyroid hormone.
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PMID:Differential regulation of Na,K-ATPase alpha 1, alpha 2, and beta subunit mRNA and protein levels by thyroid hormone. 216 13

Erythrocyte sodium pump activity, in contrast to other tissues, is decreased in hyperthyroidism. In order to examine whether the effect of thyroid hormones on erythrocytes is part of a generalized effect on other transport pathways, we measured sodium pump activity, Na+,K(+)-adenosine triphosphatase (ATPase) activity, ouabain binding sites, bumetanide-sensitive sodium potassium cotransport (SPC), sodium lithium countertransport (SLC), and ouabain- and bumetanide-insensitive passive efflux of sodium (sodium "leak") in erythrocytes from 20 healthy subjects and 18 untreated hyperthyroid subjects. Sodium pump activity (ouabain-sensitive sodium efflux rate constant), Na+,K(+)-ATPase activity, and the number of ouabain binding sites were lower and the erythrocyte sodium content was higher in hyperthyroid subjects. The rate constants of erythrocyte SPC (P less than .05), SLC (P less than .001), and sodium "leak" (P less than .05) were also significantly lower in hyperthyroidism. In 11 of the hyperthyroid subjects, sodium flux measurements were repeated after 20 weeks of treatment. Sodium pump activity, the number of ouabain binding sites, and the rate constant for SLC increased. These results suggest that the effect of thyroid hormones on the erythrocyte sodium pump is part of a generalized effect on membrane proteins, rather than a specific effect.
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PMID:Erythrocyte sodium fluxes, ouabain binding sites, and Na+,K(+)-ATPase activity in hyperthyroidism. 216 11

Endogenous digoxin-like substance (EDLS) in urine has been considered to be the representative of the natriuretic hormone, the endogenous inhibitor of the sodium pump (the sodium-potassium transporting enzyme Na, K-ATPase). Its site of production remains unknown, and so does its chemical nature. It has been suggested however that EDLS and the atrial natriuretic factor represent two distinct natriuretic system. Although the present work does not provide evidence for EDLS to be a natriuretic hormone, it nevertheless supplies data in support of this hypothesis. In preterm neonates, the decreased sodium excretion during the first days of life is accompanied by a parallel decrease in urinary EDLS excretion. The same was observed in a group of children from the infant period through the age of 12-14 years. Both parameters showed in parallel the lowest values in the oldest children examined. Children aged 8-12 years also showed parallel excretion of sodium and ELDS, even if natriuresis was induced in recumbent position and antinatriuresis in upright position. When the children remained recumbent for 24 h there were no differences in sodium and EDLS excretion between daytime and night. Children involved in adequate physical activities during daytime excreted less sodium and EDLS during the day than at night.
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PMID:Endogenous digoxin-like substance in the urine of newborns and children. 216 33


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