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 is a heterodimer of alpha- and beta-subunits often referred to as the 'sodium pump' responsible for the maintenance of cell volume and electric potential across cell membranes. In the present study we have used antisense RNA probes to localize these subunits in the rat kidney by in situ hybridization. alpha 1-Subunit and beta-subunit gene expression are highest in cortical distal convoluted tubules, and the thick ascending limb of the loops of Henle; high in some proximal convoluted tubules, and low in the collecting ducts and blood vessels. Expression of the alpha 11 and alpha 111 isoforms is very low or absent throughout the kidney. These results confirm and extend studies of Na-K-ATPase enzyme activity levels and immunocytochemical localization in the kidney.
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PMID:Characterization of renal Na-K-ATPase gene expression by in situ hybridization. 137 43

Digital-imaging fluorescence microscopy with fura-2 allows the determination of intracellular calcium concentration ([Ca2+]i) in single cells. At a cell density of 10(5) cells/petri dish 44% of the chick embryo heart cells had a high [Ca2+]i of 99.4 +/- 7.1 nM and 56% of the cells a low [Ca2+]i of 27.8 +/- 4.4 nM (mean +/- SE). This laboratory previously reported that high-[Ca2+]i and low-[Ca2+]i cells from chick embryo hearts differ in their sensitivity to cardiac glycosides, as shown by measuring the increase in [Ca2+]i to reach a new steady state [Ahlemeyer, B., Weintraut, H., Seibold, G. & Schoner, W. (1991) in The sodium pump: recent developments (Kaplan, J. H. & De Weer, P., eds) pp. 653-656, Rockefeller University Press, New York]. This time we used N-hydroxysuccinimidyl digoxigenin-3-O-methylcarbonyl-epsilon-aminocaproate (HDMA) which binds irreversibly to amino groups of the Na+/K(+)-ATPase, and sheep anti-digoxigenin Fab fragments coupled with fluorescein isothiocyanate to identify different cardiac glycoside-binding sites. Half-maximal labelling of high-[Ca2+]i cells was obtained at 0.36 nM HDMA, and at 12.0 nM with the low-[Ca2+]i cells. Specific labelling of the cells by HDMA was 91% and 80% in high-[Ca2+]i and low-[Ca2+]i cells, respectively, as revealed by competition experiments with a 1000-fold excess of ouabain. HDMA half-maximally elevated the [Ca2+]i of high-[Ca2+]i cells at a concentration of 50 pM and that of low-[Ca2+]i cells at 8.0 nM. Concentrations higher than 0.1 microM produced signs of intoxication. When the labelled cells were subjected to a SDS/PAGE, a 100-kDa band was found to contain HDMA. The electrophoretic mobility of a protein labelled at 10 nM HDMA was slightly higher than that of a protein labelled at 1.0 microM. The data suggest that different isoforms of the alpha-subunit of Na+/K(+)-ATPase may exist in low-[Ca2+]i and high-[Ca2+]i cells of chick embryo heart.
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PMID:Chick heart cells with high intracellular calcium concentration have a higher affinity for cardiac glycosides than those with low intracellular calcium concentration, as revealed by affinity labelling with a digoxigenin derivative. 155 87

Physiological control of the plasma membrane sodium pump, (Na+,K+)-ATPase, is essential for proper function of eukaryotic cells. In the electric organ of the elasmobranch Narcine brasiliensis, the normal demands placed upon the pump during the process of generation of electrical currents call for large and rapid changes in activity of this enzyme, making this a good model for the study of its cellular regulation. 31P NMR spectroscopic techniques were used to study metabolic regulation of membrane pump function in resting and stimulated electric organ and in skeletal muscle of the live, intact N. brasiliensis. Because the ATP synthetic abilities of the electric organ by glycolysis or oxidative phosphorylation are extremely limited, depletion of phosphocreatinine (PCr) could be used to determine the activity of the (Na+,K+)-ATPase after the electric organ was stimulated to discharge, and to measure the net flux from PCr to ATP through the creatine phosphokinase (CPK) reaction in the electric organ. Saturation transfer, an NMR technique which measures exchange rates, was applied to determine the unidirectional flux in the forward direction through the same reaction in the electric organ and in skeletal muscle as a control. The pseudo first-order rate constant kf for the CPK reaction at 24 degrees C in resting electric organ was 0.000 +/- 0.002 s-1 (n = 10) and in skeletal muscle was 0.08 +/- 0.03 s-1 (n = 3). The results demonstrate that in resting electric organ, which is well supplied with CPK, there was no measurable flux through this reaction, although CPK when extracted is highly active. Measured and calculated levels of all substrates for the creatine kinase reaction in the electric organ are similar to those in unstimulated skeletal muscle, where the creatine phosphokinase reaction rates are high in vivo. In contrast to the resting electric organ, during stimulation of the electric organ the measured net rate constant was greater than 0.08 s-1. In addition, as shown by lack of PCr depletion, there was virtually no net turnover of ATP in the resting organ compared to the stimulated organ. The marked difference in the (Na+,K+)-ATPase activity in the resting and activated electric organ confirmed earlier results (Blum, H., Nioka, S., and Johnson, R. G., Jr. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 1247-1251). Together, these results suggest that there is a novel method of coordinate regulation of cellular enzymes of great sensitivity and rapidity.
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PMID:Coupled in vivo activity of creatine phosphokinase and the membrane-bound (Na+,K+)-ATPase in the resting and stimulated electric organ of the electric fish Narcine brasiliensis. 164 45

In previous reports, we described the isolation and characterization of an endogenous digitalislike factor (EDLF). In this report, we describe a unique combination of bioassay and large-scale purification methodology that made possible the purification of sufficient quantities of this inhibitor of Na+,K(+)-ATPase for structural analysis. Using an initial XAD-2 extraction and preparative high-performance liquid chromatography followed by a batch enzyme affinity extraction and two subsequent semipreparative chromatographic steps, 300 l of human plasma was processed, yielding 31 micrograms (53 nmol) of pure EDLF and representing purification on a dry weight basis in excess of 0.6 billionfold. Four divergent pieces of evidence, including chromatographic, mass spectrometric, immunoreactive, and binding characteristics, suggested that the EDLF purified in the present study was either ouabain or an isomer of ouabain. This material may represent a plasma-borne, naturally occurring, selective, high-affinity ligand for the digitalis binding site that may play a significant role in the modulation of the sodium pump and thereby cellular electrolyte homeostasis in humans.
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PMID:Purification of an endogenous digitalislike factor from human plasma for structural analysis. 164 71

To evaluate the importance of an endogenous sodium pump inhibitor in the pathogenesis of low renin human hypertension, the urinary excretion of a digoxin-like immunoreactive substance (DLIS) was measured in eight patients with primary aldosteronism (n = 5, with adenomas) during two sequential 1-week periods of low- (20 mmol/l NaCl) and high- (200 mmol/l NaCl) sodium intake. DLIS excretion increased consistently during high-sodium intake while urinary aldosterone, plasma renin activity, cortisol and adrenocorticotropic hormone did not change. Although blood pressure showed a time-course parallel to that of the urinary DLIS, the blood pressure increments were not accompanied by evidence of vasoconstriction since forearm blood flow (plethysmographic technique) increased and forearm vascular resistances were reduced. Moreover, the reactivity of forearm arterioles to local norepinephrine was unchanged during the period of low- and high-salt intake, despite the fact that an endogenous sodium pump inhibitor should, supposedly, sensitize the responses to an adrenergic agonist. Finally, forearm vasoconstrictor responses to ouabain, a pharmacological Na+,K(+)-ATPase antagonist, were potentiated during the high-salt diet, a result not expected if an increased number of sodium pumps were occupied by an endogenous inhibitor. These results provide unequivocal evidence for a modulation by salt intake of the urinary excretion of a DLIS in patients with primary aldosteronism. This substance might participate in the regulation of body fluid volume in this syndrome and possibly in other physiological conditions. However, no evidence could be found for a cause--effect relationship between blood pressure and DLIS increments during high-salt intake, at least during the short-term course of the study.
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PMID:Does a digoxin-like substance participate in vascular and pressure control during dietary sodium changes in patients with primary aldosteronism? 164 66

Treatment of isolated canine renal Na,K-ATPase with a stable diazomethane analog, 4-(diazomethyl)-7-(diethylamino)-coumarin (DEAC), results in enzyme inactivation. The inactivation rate was dramatically increased when the enzyme was treated with DEAC in the presence of ATP and Mg2+ (in imidazole buffer) or Pi and Mg2+, conditions which produce enzyme phosphorylation. Inactivation in the presence of Pi and Mg2+ could be partially prevented by Na+ and almost completely prevented by K+. The quantity of DEAC covalently bound to the Na,K-ATPase was determined spectrophotometrically. The extent of inactivation was linearly related to the amount of K-protectable DEAC incorporation. Complete inactivation of ATPase activity occurred with 2.14 +/- 0.18 nmol of DEAC covalently bound/mg of protein. This suggests that only 1 or 2 carboxyl residues/catalytic center (estimated by high affinity ADP binding) are involved in the modification leading to inactivation. The modified enzyme exhibited normal levels of high affinity [3H]ADP (and hence ATP) binding, thus, the nucleotide-binding domain of the enzyme seems unaffected by the modification. In contrast, under conditions where native enzyme was able to occlude 3.82 nmol of K+ ions/mg of protein, DEAC-modified enzyme occluded only 0.33 nmol of K+ ions. Na+ occlusion by the enzyme (in the presence of oligomycin) was also reduced (by 80%) following treatment with DEAC. Phosphorylation by [32P]inorganic phosphate and Na(+)-activated phosphorylation of the modified enzyme with [32P]ATP yielded reduced levels of phosphoenzyme (about 36%) compared to native enzyme. The DEAC-modified [32P]phosphoenzyme formed from [32P]ATP was insensitive to the addition of K+ ions, under conditions which led to the rapid hydrolysis of native phosphoenzyme. Gel electrophoresis of modified protein revealed strong fluorescence labeling of the alpha-subunit, which was substantially reduced if treatment with DEAC was performed in the presence of K+ ions. Partial tryptic digestion and electrophoretic analysis revealed normal degradation patterns in the presence of ADP (E1 form) but the typical patterns, seen with K+ ions (E2K) or Na+ ions (E1Na) in native enzyme, were absent. A typical E2-like tryptic degradation pattern was seen, however, in the presence of vanadate ions and ouabain, suggesting that the modification does not freeze the enzyme in an E1 conformation and that the enzyme is still able to undergo the E1E2 conformational transition after modification. Our results suggest that a small number of carboxyl residues in the sodium pump alpha-subunit (perhaps one) are essential for K+ and Na+ binding and stabilizing the occluded enzyme cation forms. Esterification of the carboxyl groups by DEAC inactivates the enzyme.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evidence for essential carboxyls in the cation-binding domain of the Na,K-ATPase. 165 Mar 64

An assessment of the ATPase functions of erythrocyte membrane of newly identified subjects having essential hypertension shows that Na+,K(+)-ATPase activity is higher in normal membranes than in membranes of individuals with essential hypertension. A study of the dependence of the enzyme on ATP in the presence of non-limiting concentrations of Na+ (120 mM) and Mg2+ (3 mM) shows that the pump in the membranes of hypertensive individuals, like that of normal humans, is easily saturable by ATP (greater than or equal to 2 microM). Analysis of the results of kinetic studies on the enzyme, in the presence of 5 mM K+, using the Hanes plot, reveals that, although the affinity (Km) of the pump for ATP is unaffected in essential hypertension, its maximum velocity (Vmax) is lower than in normal membranes. Even though the reason for a reduced sodium pump function in essential hypertension is not yet clear, it may not be unconnected with the presence of an endogenous inhibitor or with genetic or diet-induced membrane defects, as previously proposed by other workers in this area of research.
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PMID:Erythrocyte membrane ouabain-sensitive Na+, K(+)-ATPase of hypertensive Nigerians. 165 90

A major function of the alveolar epithelium is to keep the airspace free of fluid and preserve gas exchange. Since Na-K-ATPase is believed to be important in this process, we hypothesized that Na-K-ATPase in the rat lung would increase in response to acute lung injury with pulmonary edema. Na-K-ATPase localization, mRNA expression, and protein levels were determined in hyperoxic lung injury. Adult male rats were exposed to greater than 97% oxygen for 60 h followed by recovery in room air. At 60 h of hyperoxia, the wet-to-dry lung weights increased, consistent with edema. Within the alveolar capillary region, the sodium pump remained localized to the type II cell basolateral membrane by immunocytochemistry. By Northern blot analysis, the level of total lung mRNA expression of the alpha 1- and beta-subunits of Na-K-ATPase increased three- to fourfold during hyperoxia compared with unexposed rats. Total lung Na-K-ATPase membrane protein, visualized with a Western blot technique, appeared to increase by 24 h of hyperoxic insult when compared with levels in unexposed animals. The increase in sodium pump gene expression that occurs during hyperoxic insult, followed by an increase in sodium pump membrane protein, suggests that type II cells increase their Na-K-ATPase synthesis as an early response to pulmonary edema and/or hyperoxia.
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PMID:Upregulation of rat lung Na-K-ATPase during hyperoxic injury. 165 77

Receptor-mediated activation of the sodium pump has been noted in several intact tissues. To test the hypothesis that this may be due to the direct effects of the second messenger diacylglycerols on the pump, we studied the effects of various long-chain acylglycerols on the purified Na+/K(+)-ATPase. With optimal ATP, acylglycerols had no effect on enzyme activity. When ATP was suboptimal, tri- and diacylglycerols had no effects, but monoacylglycerols caused up to 3-fold increase in ATPase activity. Using sealed vesicles of red cell membranes and cardiac sarcolemma, stimulation of the ion transport function of the enzyme by monoacylglycerols in the presence of suboptimal ATP was also shown. Since the sodium pump may not be saturated with ATP in the intact cell, the possibility arises that monoacylglycerols are the second messengers for the receptor-mediated regulation of the pump.
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PMID:A second messenger role for monoacylglycerols is suggested by their activating effects on the sodium pump. 165 63

Previous studies have suggested that an alteration in the expression of the Na,K-ATPase of muscle may be an important determinant of enhanced insulin sensitivity in chronic renal failure. Therefore, in the present studies we have examined the effect of uremia on the Na,K-ATPase alpha isoforms in skeletal muscle, at the level of mRNA expression and enzymatic activity. The activity of the sodium pump, as measured ouabain-sensitive 86Rb/K uptake in soleus muscle, revealed a reduction in the activity in uremia, related to the increment in plasma creatinine values. The decrement in 86Rb uptake by the rat soleus muscle of experimental animals was associated with changes on Na,K-ATPase gene product. Northern analysis of mRNA revealed isoform-specific regulation of Na,K-ATPase by uremia in skeletal muscle: a decrease of approximately 50% in alpha 1 subunit Na,K-ATPase mRNA, as compared to controls. The decrement in alpha 1 mRNA correlates with the decreased activity of the Na,K-ATPase in uremia, under basal conditions and with the almost complete inhibition of the Na,K-ATPase, of uremic tissue by a concentration of 10(-5) M ouabain. Although the activity of the alpha 2 isoform pump was not modified by uremia, the 3.4-kb message for this enzyme was increased 2.2-fold; this discrepancy is discussed. Altogether these findings demonstrate that the defective extrarenal potassium handling in uremia is at least dependent in the expression of alpha 1 subunit of the Na,K-ATPase.
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PMID:Effect of chronic renal failure on Na,K-ATPase alpha 1 and alpha 2 mRNA transcription in rat skeletal muscle. 166


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