Further evidence for the dissociation of digoxin-like immunoreactivity from Na+, K+-ATPase inhibitory activity

Summary The effects of adrenalectomy or nephrectomy, carried out one hour previously, on the levels of endogenous digitalis-like factors were determined in rat plasma. Factors were assayed by digoxin-like immunoreactivity and direct Na⁺, K⁺-ATPase inhibitory activity. Digoxin-like immunoreactivity significantly decreased one hour after bilateral ablation of adrenals, while Na⁺, K⁺-ATPase inhibitory activity remained unaltered. There were no changes in either activity one hour after bilateral nephrectomy. These results suggest that digoxin-like immunoreactivity may be derived from the adrenal gland or under adrenal control and the major substances detected by digoxin-like immunoreactivity and direct Na⁺, K⁺-ATPase inhibitory activity may be different.     

Involvement of Na<Superscript>+</Superscript>, K<Superscript>+</Superscript>-ATPase and its inhibitors in HuR-mediated cytokine mRNA stabilization in lung epithelial cells

Increasing evidence demonstrates that Na⁺, K⁺-ATPase plays an important role in pulmonary inflammation, but the mechanism remains largely unknown. In this study, we used cardiotonic steroids as Na⁺, K⁺-ATPase inhibitors to explore the possible involvement of Na⁺, K⁺-ATPase in pulmonary epithelial inflammation. The results demonstrated that mice after ouabain inhalation developed cyclooxygenase-2-dependent acute lung inflammation. The in vitro experiments further confirmed that Na⁺, K⁺-ATPase inhibitors significantly stimulated cyclooxygenase-2 expression in lung epithelial cells of human or murine origin, the process of which was participated by multiple cis-elements and trans-acting factors. Most importantly, we first described here that Na⁺, K⁺-ATPase inhibitors could evoke a significant Hu antigen R nuclear export in lung epithelial cells, which stabilized cyclooxygenase-2 mRNA by binding with a proximal AU-rich element within its 3′-untranslated region. In conclusion, HuR-mediated mRNA stabilization opens new avenues in understanding the importance of Na⁺, K⁺-ATPase, as well as its inhibitors in inflammation.     

Na+,K+-ATPase as a docking station: protein–protein complexes of the Na+,K+-ATPase

The Na⁺,K⁺-ATPase, or sodium pump, is well known for its role in ion transport across the plasma membrane of animal cells. It carries out the transport of Na⁺ ions out of the cell and of K⁺ ions into the cell and thus maintains electrolyte and fluid balance. In addition to the fundamental ion-pumping function of the Na⁺,K⁺-ATPase, recent work has suggested additional roles for Na⁺,K⁺-ATPase in signal transduction and biomembrane structure. Several signaling pathways have been found to involve Na⁺,K⁺-ATPase, which serves as a docking station for a fast-growing number of protein interaction partners. In this review, we focus on Na⁺,K⁺-ATPase as a signal transducer, but also briefly discuss other Na⁺,K⁺-ATPase protein–protein interactions, providing a comprehensive overview of the diverse signaling functions ascribed to this well-known enzyme.     

Lack of Na+,K+-ATPase expression in intercalated cells may be compensated by Na+-ATPase: A study on MDCK – C11 cells

The lack of Na⁺,K⁺-ATPase expression in intercalated cells (IC) is an intriguing condition due to its fundamental role in cellular homeostasis. In order to better understand this question we compared the activities of Na⁺,K⁺-ATPase and Na⁺-ATPase in two MDCK cell clones: the C11, with IC characteristics, and the C7, with principal cells (PC) characteristics. The Na⁺,K⁺-ATPase activity found in C11 cells is far lower than in C7 cells and the expression of its β-subunit is similar in both cells. On the other hand, a subset of C11 without α-subunit expression has been found. In C11 cells the Na⁺-ATPase activity is higher than that of the Na⁺,K⁺-ATPase, and it is increased by medium alkalinization, suggesting that it could account for the cellular Na⁺-homeostasis. Although further studies are necessary for a better understanding of these findings, the presence of Na⁺-ATPase may explain the adequate survival of cells that lack Na⁺,K⁺-ATPase. Received 09 July 2008; received after revision 03 August 2008; accepted 12 August 2008     

Hypothyroidism lowers blood pressure,adenylate cyclase and Na+, K+-and K+, Ca++-ATPase activities in normotensive and spontaneously hypertensive rats

Summary Myocardial isoproterenol-stimulated adenylate cyclase, Na⁺, K⁺-ATPase and K⁺, Ca⁺⁺-ATPase activities are elevated in the spontaneously hypertensive rat and can be lowered by methimazole-induced hypothyroidism which also prevents the development of hypertension. Although thyroid hormone levels are similar between untreated SHRs and WKY rats, the thyroid is apparently necessary for the expression of spontaneous hypertension.Acknowledgments. Supported by North Carolina Heart Grant No. 40301 and a grant from Sigma Xi.     

Effect of various stressors on the levels of lipid peroxide,antioxidants and Na+, K+-ATPase actrivity in rat brain

The level of malondialdehyde (MDA), an index of lipid peroxidation, and the antioxidants superoxide dismutase (SOD) and glutathione (GSH), as well as the activity of Na⁺, K⁺-ATPase, were assessed in whole rat brain after immobilization, anemic hypoxia (NaNO₂) and 72 h starvation. The effect of these stressors on plasma glucose and corticosterone levels was also observed. Hypoxia and starvation stimulated the lipidj peroxide formation in braini as indicated by an increase in the level of MDA, being higher after starvation than hypoxia. Brain SOD activity was also increased in response to hypoxia and starvation while GSH content was only diminished ini hypoxia. However, neither MDA nor antioxidants were affected by immobilization. On the other hand, the activity of brain Na⁺, K⁺-ATPase was significantly increased by immobilization and hypoxia but decreased in starvation. A similar pattern of change was also observed in plasma glucose and corticosterone levels in response to these stressors. These results elucidate differences in the biochemical response of animals towards various types of stress, with increased lipid peroxide formation in hypoxia and starvation.     

Effect of mycotoxin (T-2 toxin) on catecholamine and Na+, K+-ATPase levels in rat epididymis

The effect of mycotoxin (T-2 toxin) on catecholamines and Na+, K+-ATPase activities in rat epididymis has been evaluated. Dopamine and norepinephrine levels were significantly elevated in the caput and corpus regions whereas their levels remained unchanged in the caudal part of the epididymis. Na+, K+-ATPase activity was significantly increased in all the three regions of rat epididymis as a result of the toxin treatment. These changes may suggest an adverse effect on epididymal functions in rats.     

Purification from human plasma of endogenous dodium transport inhibitor(s)

Summary Na⁺, K⁺-ATPase inhibitors extracted from plasma of healthy human subjects displaced³H-ouabain binding to human erythrocytes and inhibited the Na⁺ efflux catalyzed by the Na⁺, K⁺-pump and unexpectedly the Na⁺, K⁺-cotransport system without alteration of the Na⁺, Na⁺-exchange or the Na⁺ passive permeability. This suggests the presence in healthy human plasma of endogenous factors with ouabain-like and furosemide-like activities.Acknowledgments. We are indebted to Dr M. A. Devynck for her advice on chemical measurements and to Dr R. P. Garay for his help with flux measurements     

Insulin effect in vitro on human erythrocyte plasma membrane

Summary The effect of porcine insulin has been tested in vitro on human erythrocyte plasma membrane (Na⁺–K⁺) and Mg²⁺-ATPase activities as well as on membrane fluidity. The results indicate that the hormonal treatment significantly inhibits (Na⁺–K⁺)-ATPase activity, and at the same time decreases membrane fluidity.This investigation has been supported by Consiglio Nazionale delle Richerche, Rome, Italy.     

Inhibition of hepatic Na+, K+-adenosinetriphosphatase in taurolithocholate-induced cholestasis in the rat

Summary Na⁺, K⁺-adenosinetriphosphatase (Na⁺, K⁺-ATPase) activity was decreased in liver plasma membranes from rats in which cholestasis had been induced by i.v. administration of sodium taurolithocholate (5 moles/100 g b. wt). Incubation of liver plasma membranes with taurolithocholate (10–1300 M) caused significant and dose dependent reductions of Na⁺, K⁺-ATPase activity at taurolithocholate concentrations above 100 M. These findings lend support to the hypothesis that cholestasis induced by monohydroxy bile acids is at least partially the result of an inhibition of hepatic Na⁺, K⁺-ATPase activity.This work was supported by the Swiss National Science Foundation.The authors thank Mr H. Sägesser and Miss B. Schütz for technical assistance.     

The effect of physostigmine on (Na++K+)-ATPase activity in different rat brain regions

Summary The activity of (Na⁺+K⁺)-ATPase and acetylcholine esterase were folloed in rat brain cerebral cortex, caudate, thalamus, hippocampus and medulla after i.v. administration of physostigmine. Both enzymes were found to be inhibited in a dose-dependent manner. The most pronounced inhibition of (Na⁺+K⁺)-ATPase was found in caudate. where the highest activity of acetylcholine esterase is found.These studies were supported by a grant from the Union of Science of Republic Serbia, No. 40404-14.     

Dissociation between compensatory renal growth and induction of (Na++K+-ATPase in rat kidney after uninefrectomy

Zusammenfassung Nach Uninephrektomie und bilateraler Adrenalektomie entsteht eine Dissoziation zwischen der Nierenvergrösserung und der (Na⁺+K⁺)-ATPase Aktivität. Es besteht wahrscheinlich kein Zusammenhang zwischen der Nierenvergrösserung und der Induktion von (Na⁺+K⁺)-ATPase. Auch in der vergrösserten Niere sind die Nebennierenhormone notwendig, um die (Na⁺+K⁺)-ATPase zu erhalten.

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The work was supported by a grant from P. Carl Petersen's Fund. Mrs.Birthe Bagge Hansen provided excellent technical assistance.     

Differences in membrane ion transport between hepatocytes from the periportal and the pericentral areas of the liver lobule

We studied the Na⁺/K⁺ pump, Na⁺/K⁺ ATPase activity, and oxygen consumption (QO₂) in hepatocytes isolated from the periportal (PH) and pericentral (CH) regions of the liver lobule, to provide an insight into the functional properties of these cells. Na⁺/K⁺ pump activity was determined using⁸⁶Rb⁺ (a functional analog of K⁺) and ouabain, a specific inhibitor of this transport system. Our results indicate the the Na⁺/K⁺, pump and Na⁺/K⁺ ATPase activity are significantly lower in CH than in PH, although basal ouabain-sensitive (OS) QO₂ was negligible in both of these cell preparations. However, OSQO₂ was significantly lower in CH than in PH when the Na⁺/K⁺ pump was activated using the ionophore nystatin in a Na⁺-containing medium. These results indicate that the differences in membrane ion transport exist between hepatocytes from different locations of the liver lobule.     

The (Na++K+)-ATPase activity in brain of quaking mice

Summary The (Na⁺+K⁺)- and Mg²⁺-dependent ATPase distribution in several brain areas has been investigated in Quaking mutant mice characterized by myelin deficiency. A marked decrease of (Na⁺+K⁺)-ATPase activity has been found in limbic structures, hypothalamus and cerebellum. The Mg²⁺-dependent activity did not change. A possible involvement of the impairment of the (Na⁺+K⁺)-ATPase activity in the seizure susceptibility of this mice is discussed.Chargée de Recherche au CNRS.     

C-peptide stimulates Na<Superscript>+</Superscript>, K<Superscript>+</Superscript>-ATPase via activation of ERK1/2 MAP kinases in human renal tubular cells

Proinsulin-connecting peptide (C-peptide) exerts physiological effects partially via stimulation of Na⁺, K⁺-ATPase. We determined the molecular mechanism by which C-peptide stimulates Na⁺, K⁺-ATPase in primary human renal tubular cells (HRTCs). Incubation of the cells with 5 nM human C-peptide at 37°C for 10 min stimulated ⁸⁶Rb⁺ uptake by 40% (p<0.01). The carboxy-terminal pentapeptide was found to elicit 57% of the activity of the intact molecule. In parallel with ouabain-sensitive ⁸⁶Rb⁺ uptake, C-peptide increased subunit phosphorylation and basolateral membrane (BLM) abundance of the Na⁺, K⁺-ATPase ₁ and ₁ subunits. The increase in BLM abundance of the Na⁺, K⁺-ATPase ₁ and ₁ subunits was accompanied by depletion of ₁ and ₁ subunits from the endosomal compartments. C-peptide action on Na⁺, K⁺-ATPase was ERK1/2-dependent in HRTCs. C-peptide-stimulated Na⁺, K⁺-ATPase activation, phosphorylation of ₁-subunit and translocation of ₁ and ₁ subunits to the BLM were abolished by a MEK1/2 inhibitor (20 M PD98059). C-peptide stimulation of ⁸⁶Rb⁺ uptake was also abolished by preincubation of HRTCs with an inhibitor of PKC (1 M GF109203X). C-peptide stimulated phosphorylation of human Na⁺, K⁺-ATPase subunit on Thr-Pro amino acid motifs, which form specific ERK substrates. In conclusion, C-peptide stimulates sodium pump activity via ERK1/2-induced phosphorylation of Thr residues on the subunit of Na⁺, K⁺-ATPase.Received 15 June 2004; received after revision 14 September 2004; accepted 14 September 2004     

Effect of free fatty acids and cholesterol in vitro on liver plasma membrane-bound enzymes

Summary The effect of cholesterol and fatty acid treatment in vitro was tested on rat liver plasma membrane-bound enzymes and lipid fluidity. The observed alterations of membrane fluidity affect both (Na⁺–K⁺)-ATPase and Mg²⁺-ATPase activities but not 5-nucleotidase; basal adenylate cyclase as well as its hormonal sensitivity were differentially affected by changes of membrane microenvironment.This investigation was partially supported by the Italian National Research Council.     

A histochemical demonstration of the Na++K+-ATPase activity in the thyroid and the effect of cyclic adenosine monophosphate (c-AMP)

Summary With a suitable modification of the Farquhar and Palade technique the Na⁺+K⁺-ATPase activity in guineapig thyroid is demonstrated. The addition of c-AMP (5×10^–6 M or 1.5×10^–5 M) to the incubation media produced an apparent intensification of the Na⁺+K⁺-ATPase activity in the thyroid.This work was supported by a grant from ZMNU of Serbia.     

Vanadate: Non-selective inhibition of transepithelial transport of Na+, H+ and water

Summary In the isolated urinary bladder of the toad, 10^–5–10^–4M orthovanadate produces inhibition of the active transport of Na⁺ and H⁺ ions as well as of antidiuretic hormone-mediated osmotic flow of water. Since transport of H⁺ ions and osmotic water flow are not inhibited when (Na⁺+K⁺)-ATPase is inhibited by ouabain, biological actions of vanadate are not necessarily related to inhibition of (Na⁺+K⁺)-ATPase.This research was supported by grant AM-14915 from the National Institutes of Helath.     

Possible role of intestinal alkaline phosphatase activity in thiamine transport

Summary Thiamine deficiency caused a marked decrease of intestinal alkaline phosphatase (al-Pase) activity, but had no effect on the Ca⁺⁺-ATPase activity and Ca⁺⁺-absorption in rats. The al-Pase activity was significantly decreased 1 h after oral administration of ethanol at 0.5 and 2.5 g/kg. In contrast, Mg⁺⁺-, Ca⁺⁺- and (Na⁺+K⁺)-ATPase activities did not change after the administration of ethanol. These findings show that the al-Pase activity, unlike the Ca⁺⁺-ATPase activity, is not related to Ca⁺⁺-absorption. A possible role of al-Pase activity in the active transport of thiamine in the intestine was discussed.     

The effect of cyclic AMP on Na+ and K+ transport systems in mouse macrophages

Summary Exogenous cyclic AMP (cAMP) inhibits the Na⁺, K⁺-cotransport system and stimulates the Na⁺, K⁺-pump and Na⁺, Ca²⁺ exchange in mouse macrophages. These effects are enhanced by inhibition of phosphodiesterase with methylisobutylxanthine (MIX). MIX alone showed little or no effect. A similar response was observed after stimulation of endogenous production of cAMP by isoproterenol.