Interaction of palytoxin and cardiac glycosides on erythrocyte membrane and (Na+ + K+) ATPase

Palytoxin (PTX), at extremely low concentrations (0.01-1 nM), caused K+ release from rabbit erythrocytes. Among the various chemical compounds tested, cardiac glycosides potently inhibited the PTX-induced K+ release. The order of inhibitory potency (IC50) was cymarin (0.42 microM) greater than convallatoxin (0.9 microM) greater than ouabain (2.3 microM) greater than digitoxin (88 microM) greater than digoxin (90 microM). Their corresponding aglycones, even at 10 microM, did not inhibit the K+ release, but competitively antagonized the inhibitory effect of the glycosides. All these cardiotonic steroids inhibited the activity of (Na+ + K+)-ATPase prepared from hog cerebral cortex in narrow concentration ranges (IC50 = 0.15-2.4 microM), suggesting that the inhibition of K+ release is not related to their inhibitory potency on the (Na+ + K+)-ATPase activity, and the sugar moiety of cardiac glycosides is involved in the inhibition. On the other hand PTX, at higher concentrations (greater than 0.1 microM), inhibited the (Na+ + K+)-ATPase activity. However, this inhibitory effect of PTX was not antagonized by ouabain. It is suggested that, compared with ouabain, PTX has additional binding site(s) on the (Na+ + K+)-ATPase.     

Temperature-specific inhibition of human red cell Na+/K+ ATPase by 2,450-MHz microwave radiation

The ATPase activity in human red blood cell membranes was investigated in vitro as a function of temperature and exposure to 2,450-MHz continuous wave microwave radiation to confirm and extend a report of Na+ transport inhibition under certain conditions of temperature and exposure. Assays were conducted spectrophotometrically during microwave exposure with a custom-made spectrophotometer-waveguide apparatus. Temperature profiles of total ATPase and Ca+2 ATPase (ouabain-inhibited) activity between 17 and 31 degrees C were graphed as an Arrhenius plot. Each data set was fitted to two straight lines which intersect between 23 and 24 degrees C. The difference between the total and Ca+2 ATPase activities, which represented the Na+/K+ ATPase activity, was also plotted and treated similarly to yield an intersection near 25 degrees C. Exposure of membrane suspensions to electromagnetic radiation, at a dose rate of 6 W/kg and at five temperatures between 23 and 27 degrees C, resulted in an activity change only for the Na+/K+ ATPase at 25 degrees C. The activity decreased by approximately 35% compared to sham-irradiated samples. A possible explanation for the unusual temperature/microwave interaction is proposed.     

Regulation of the Na+/K+ ATPase by Klotho

Klotho-hypomorphic (Klotho(hm)) mice suffer from renal salt wasting and hypovolemia despite hyperaldosteronism. The present study explored the effect of Klotho on renal Na(+)/K(+) ATPase activity. According to immunohistochemistry and confocal microscopy Na(+)/K(+) ATPase protein abundance in isolated collecting ducts was lower in Klotho(hm) mice than in their wild type littermates (Klotho(+/+)). Analysis with dual electrode voltage clamp recording showed that expression of Klotho in Xenopus oocytes increased the Na(+)/K(+) ATPase pump current. Treatment of Xenopus oocytes with Klotho protein similarly increased the pump current. In conclusion, Klotho increases the membrane abundance and activity of the Na(+)/K(+) ATPase. Decreased Na(+)/K(+) ATPase activity could thus contribute to the volume-depletion of klotho(hm) mice.     

Kinetic studies on Na+/K+-ATPase and inhibition of Na+/K+-ATPase by ATP

Na+/K+-ATPase (EC 3.6.1.3) is an important membrane-bound enzyme. In this paper, kinetic studies on Na+/K+-ATPase were carried out under mimetic physiological conditions. By using microcalorimeter, a thermokinetic method was employed for the first time. Compared with other methods, it provided accurate measurements of not only thermodynamic data (deltarHm) but also the kinetic data (Km and Vmax). At 310.15K and pH 7.4, the molar reaction enthalpy (deltarHm) was measured as -40.514 +/- 0.9kJmol(-1). The Michaelis constant (Km) was determined to be 0.479 +/- 0.020 mM and consistent with literature data. The reliability of the thermokinetic method was further confirmed by colorimetric studies. Furthermore, a simple and reliable kinetic procedure was presented for ascertaining the true substrate for Na+/K+-ATPase and determining the effect of free ATP. Results showed that the MgATP complex was the real substrate with a Km value of about 0.5mM and free ATP was a competitive inhibitor with a Ki value of 0.253 mM.     

Ouabain binding site in a functioning Na+/K+ ATPase

The Na(+)/K(+) ATPase is an almost ubiquitous integral membrane protein within the animal kingdom. It is also the selective target for cardiotonic derivatives, widely prescribed inhibitors for patients with heart failure. Functional studies revealed that ouabain-sensitive residues distributed widely throughout the primary sequence of the protein. Recently, structural work has brought some consensus to the functional observations. Here, we use a spectroscopic approach to estimate distances between a fluorescent ouabain and a lanthanide binding tag (LBT), which was introduced at five different positions in the Na(+)/K(+) ATPase sequence. These five normally functional LBT-Na(+)/K(+) ATPase constructs were expressed in the cell membrane of Xenopus laevis oocytes, operating under physiological internal and external ion conditions. The spectroscopic data suggest two mutually exclusive distances between the LBT and the fluorescent ouabain. From the estimated distances and using homology models of the LBT-Na(+)/K(+) ATPase constructs, approximate ouabain positions could be determined. Our results suggest that ouabain binds at two sites along the ion permeation pathway of the Na(+)/K(+) ATPase. The external site (low apparent affinity) occupies the same region as previous structural findings. The high apparent affinity site is, however, slightly deeper toward the intracellular end of the protein. Interestingly, in both cases the lactone ring faces outward. We propose a sequential ouabain binding mechanism that is consistent with all functional and structural studies.     

Glycosidation of chlormadinol acetate alters its actions on Na+/K+-transporting ATPase and cardiac contractility: a contribution to the endogenous digitalis problem

Compared to the progesterone derivative chlormadinol acetate 1, the arabinofuranoside 2, rhamnoside 3 and glucoside 4 of 1 are less potent in the Na/K-ATPase assay, but evoke, contrary to 1, positive inotropy in vivo. In anaesthetized cats the circulation effects of 2 and 3 appear to be more favourable than those of the digitalis glycoside digitoxin. Hence, the progestin 1 is transformed through glycosidation into an interesting cardioactive steroid.     

Synthesis of Na+/K+ ATPase by the preimplantation rabbit blastocyst

The rates of incorporation of [35S]methionine into Na+/K+ ATPase, actin (beta- and gamma-isoforms), and total protein of the preimplantation rabbit blastocyst were determined between Days 4 and 7 of development. Blastocyst proteins were metabolically radiolabelled with [35S]methionine and subsequently analysed by co-isolation with purified Na+/K+ ATPase using two-dimensional polyacrylamide gel electrophoresis, immunoprecipitation, immunoblotting, fluorography, and liquid scintillation spectroscopy. The rate of [35S]methionine incorporation into acid-soluble total protein increased 24-fold between Days 4 and 6 post coitum (p.c.), then diminished approximately 79% on Day 7. In-vitro incorporation of [35S]methionine was linear at each stage of blastocyst development. [35S]methionine incorporation rates were unaffected by low free intracellular methionine concentration (less than 0.06 mM) and stage-related differences in blastocoele volume. Analysis of beta- and gamma-actin synthesis revealed patterns of [35S]methionine incorporation rates which were similar to those of total protein. In contrast, synthesis of blastocyst Na+/K+ ATPase was characterized by a 90-fold increase (P less than 0.001) in the rate of [35S]methionine incorporation between Days 4 and 6 p.c. The results demonstrate that Na+/K+ ATPase is actively synthesized at a high and increasing rate during preimplantation development in the rabbit at a period which is characterized by rapid fluid accumulation by the blastocyst.     

Regulation of Na+/K+ ATPase transport velocity by RNA editing

Because firing properties and metabolic rates vary widely, neurons require different transport rates from their Na(+)/K(+) pumps in order to maintain ion homeostasis. In this study we show that Na(+)/K(+) pump activity is tightly regulated by a novel process, RNA editing. Three codons within the squid Na(+)/K(+) ATPase gene can be recoded at the RNA level, and the efficiency of conversion for each varies dramatically, and independently, between tissues. At one site, a highly conserved isoleucine in the seventh transmembrane span can be converted to a valine, a change that shifts the pump's intrinsic voltage dependence. Mechanistically, the removal of a single methyl group specifically targets the process of Na(+) release to the extracellular solution, causing a higher turnover rate at the resting membrane potential.     

Modifications induced by general anesthetics on Na+/K+ ATPase obtained from human placenta

Previously it was demonstrated that thiopental in vivo anesthesia didn't affect the Na+/K(+)-ATPase activity of syncythiotrophoblast plasma membrane, while affecting other enzymatic activity. The aim of the present work was to investigate if this lack of effect of thiopental on the Na+/K+ ATPase activity might be due to its specificity of action on definite membrane proteins or if the binding sites of the anesthetic to this enzyme might be masked within the membrane. Temperature dependence of the Na+/K(+)-ATPase activity and of a spin label paramagnetic maleimide derivative (MSL,2,2,6,6-tetramethylpiperidin-1-oxyl-4-maleimide), which shows a selective binding to the reduced sulfhydryl groups of proteins were investigated. This report shows that a Na+/K(+)-ATPase membranous preparation obtained from placental tissue is strongly inhibited by thiopental.     

EGF modulated Na+/K+ ATPase in cultured fibroblasts

The behaviour of Na+/K+ ATPase during cell growth has been studied. Human cultured fibroblasts were used in the presence or absence of EGF. Sample and control cultures were stopped by gathering and washing the cells with tris buffer. Homogenates were tested for Na+/K+ ATPase activity by the method of incubating and for the -SH groups content (Ellman). Na+/K+ ATPase activity that slightly increases in the controls is strongly reduced by the addition of EGF. The behaviour shows evidence for a double mechanism of action: I) involvement of the cAMP system 2) decrease of the -SH group availability.     

Purification of a Na+/K+ ATPase inhibitor from borderline hypertensives' plasma

Increasing experimental evidences suggest an involvement of an endogenous Na+/K+ ATPase inhibitor in regulating water and electrolytes balance as well as in the pathogenesis of hypertension. However, conflicting results on the nature and the chemical structure of this substance still make it difficult to understand exactly its physiological mechanism of action. In the present study an attempt was made to purify a Na+/K+ ATPase inhibitor from hypertensives' plasma by solid phase extraction followed by 2 HPLC steps using reverse and normal phase columns. The fractions, from both columns, were able to inhibit Na+/K+ ATPase, 3H-ouabain binding to enzyme, ouabain sensitive 86Rb uptake and pNPPase activity in a manner not affected by boiling. Ultrafiltration experiments demonstrate that inhibitory activity is largely due to a low-molecular weight substance. These findings seem to confirm the presence in hypertensives plasma of a Na+/K+ ATPase inhibitor with some similarities with ouabain.     

Dietary cholesterol alters Na+/K+ selectivity at intracellular Na+/K+ pump sites in cardiac myocytes

A modest diet-induced increase in serum cholesterol in rabbits increases the sensitivity of the sarcolemmal Na⁺/K⁺ pump to intracellular Na⁺, whereas a large increase in cholesterol levels decreases the sensitivity to Na⁺. To examine the mechanisms, we isolated cardiac myocytes from controls and from rabbits with diet-induced increases in serum cholesterol. The myocytes were voltage clamped with the use of patch pipettes that contained osmotically balanced solutions with Na⁺ in a concentration of 10 mM and K⁺ in concentrations ([K⁺]_pip) ranging from 0 to 140 mM. There was no effect of dietary cholesterol on electrogenic Na⁺/K⁺ current (I_p) when pipette solutions were K⁺ free. A modest increase in serum cholesterol caused a [K⁺]_pip-dependent increase in I_p, whereas a large increase caused a [K⁺]_pip-dependent decrease in I_p. Modeling suggested that pump stimulation with a modest increase in serum cholesterol can be explained by a decrease in the microscopic association constant K_K describing the backward reaction E₁ + 2K⁺ E₂(K⁺)₂, whereas pump inhibition with a large increase in serum cholesterol can be explained by an increase in K_K. Because hypercholesterolemia upregulates angiotensin II receptors and because angiotensin II regulates the Na⁺/K⁺ pump in cardiac myocytes in a [K⁺]_pip-dependent manner, we blocked angiotensin synthesis or angiotensin II receptors in vivo in cholesterol-fed rabbits. This abolished cholesterol-induced pump inhibition. Because the -isoform of protein kinase C (PKC) mediates effects of angiotensin II on the pump, we included specific PKC-blocking peptide in patch pipette filling solutions. The peptide reversed cholesterol-induced pump inhibition. partial reactions; protein kinase C; angiotensin converting enzyme inhibitors; arteriosclerosis; insulin resistance     

Gramicidin A directly inhibits mammalian Na+/K+-ATPase

The linear pentadecapeptide gramicidin A forms an ion channel in the lipid bilayer to selectively transport monovalent cations. Nevertheless, we have surprisingly found that gramicidin A directly inhibits mammalian Na(+)/K(+)-ATPase. Gramicidin A inhibited ATP hydrolysis by Na(+)/K(+)-ATPase from porcine cerebral cortex at the IC(50) value of 8.1 microM, while gramicidin S was approximately fivefold less active. The synthetic gramicidin A analog lacking N-terminal formylation and C-terminal ethanolamine exhibited a weaker inhibitory effect on the ATP-hydrolyzing activity of Na(+)/K(+)-ATPase than gramicidin A, indicating that these end modifications are necessary for gramicidin A to inhibit Na(+)/K(+)-ATPase activity. Moreover, Lineweaver-Burk analysis showed that gramicidin A exhibits a mixed type of inhibition. In addition to the most well-studied ionophore activity, our present study has disclosed a novel biological function of gramicidin A as a direct inhibitor of mammalian Na(+)/K(+)-ATPase activity.     

Sargachromanols as inhibitors of Na+/K+ ATPase and isocitrate lyase

Sargachromanols A-P (1-16), 16 meroterpenoids of the chromene class isolated from the brown alga Sargassum siliquastrum, were evaluated for their inhibitory activities toward Na⁺/K⁺ ATPase from porcine cerebral cortex and isocitrate lyase (ICL) from Candida albicans. These studies led to the identification of compounds 4, 6, 8, and 12 as potent Na⁺/K⁺ ATPase inhibitors. Compounds 12, 13, and 16 exhibited moderate ICL inhibitory activity. Compound 12 also showed weak antibacterial activity. The preliminary structure-activity relationship of these compounds is described to elucidate the essential structural requirements.     

Na+/K+ATPase as a signaling molecule during bovine sperm capacitation

A heteromeric integral membrane protein, Na+/K+ATPase is composed of two polypeptides, alpha and beta, and is active in many cell types, including testis and spermatozoa. It is a well-known ion transporter, but binding of ouabain, a specific inhibitor of Na+/K+ATPase, to Na+/K+ATPase in somatic cells initiates responses that are similar to signaling events associated with bovine sperm capacitation. The objectives of the present study were to demonstrate the presence of Na+/K+ATPase in bovine sperm and to investigate its role in the regulation of bovine sperm capacitation. The presence of Na+/K+ATPase in sperm from mature Holstein bulls was demonstrated by immunoblotting and immunocytochemistry using a monoclonal antibody developed in mouse against the beta 1 polypeptide of Na+/K+ATPase. Binding of ouabain to Na+/K+ATPase inhibited motility (decreased progressive motility, average path velocity, and curvilinear velocity) and induced tyrosine phosphorylation and capacitation but did not increase intracellular calcium levels in spermatozoa. Furthermore, binding of ouabain to Na+/K+ATPase induced depolarization of sperm plasma membrane. Therefore, binding of ouabain to Na+/K+ATPase induced sperm capacitation through depolarization of sperm plasma membrane and signaling via the tyrosine phosphorylation pathway without an appreciable increase in intracellular calcium. To our knowledge, this is the first report concerning the signaling role of Na+/K+ATPase in mammalian sperm capacitation.     

Effects of sulfhydryl compounds on the inhibition of erythrocyte membrane Na+(-)K+ ATPase by ozone

Exposure of human erythrocyte membranes to ozone (5 mumol/10 min) resulted in the inhibition of erythrocyte membrane Na+(-)K+ ATPase (EC.3.6.1.39). It was determined that, the degree of enzyme inhibition in the directly ozone exposed membranes was greater than that of membranes obtained from ozone exposed intact erythrocytes. In the presence of varying concentrations (0-1.0 mM) of dithiotrethiol or mercaptoethanol Na+(-)K+ ATPase activities of both types of ozone exposed membranes were increased almost proportionally with the concentration of dithiotrethiol or mercaptoethanol however, the activities were still lower than the normal Na+(-)K+ ATPase value. The results indicate that, dithiotrethiol or mercaptoethanol prevent the enzyme inhibition by ozone in vitro. This suggests that the membrane thiol groups are primary targets for ozone and thereby preventing the oxidation of essential functional groups of enzyme protein.     

Modification of ligand binding to the Na+/K+-activated ATPase

Interactions between the ligands Mg2+, K+, and substrate and the Na+/K+-activated ATPase were examined in terms of a rapid-equilibrium, random-order, terreactant kinetic scheme for the K+-nitrophenyl phosphatase reaction that is catalyzed by this enzyme. At 37 degrees C and pH 7.5 the derived values for the dissociation constants from the free enzyme were 0.2, 0.08, and 1.4 mM for Mg2+, K+, and substrate, respectively. For Mg2+ interactions, the presence of 20% (v/v) dimethyl sulfoxide (Me2SO) increased the calculated affinity 25-fold; higher concentrations increased affinity still further. Neither reducing the temperature to 20 degrees C nor altering the pH from 6.5 to 8.3 appreciably changed the affinity for Mg2+ in the absence or presence of Me2SO. The Mg2+ sites are thus characterized by an absence of functional groups ionizable in the pH range 6.5-8.3, with binding driven by entropy changes, and with Me2SO, probably through solvation effects on the protein, increasing affinity for Mg2+ close to that for Ca2+ and Mn2+. By contrast, for K+ interactions, the presence of 20% Me2SO increased the calculated affinity only by half; moreover, reducing the temperature to 20 degrees C and the pH to 6.5 both increased affinity and diminished the response to Me2SO. The K+ sites are thus characterized by a marked sensitivity to pH and temperature, presumably through alterations in enzyme conformational equilibria that in turn are modifiable by Me2SO. Inhibition by higher concentrations of Mg2+, which varies inversely with the K+ concentration, was decreased by Me2SO. Finally, for substrate interactions, the presence of 20% Me2SO increased the calculated affinity 4-fold, and, as for Mg2+-binding, neither reducing the temperature nor varying the pH over the range 6.5-8.3 appreciably altered the affinity in the absence or presence of Me2SO. Thus, the substrate sites, like the Mg2+ sites, are characterized by an absence of functional groups ionizable in this range, with binding driven by entropy changes, and with Me2SO increasing affinity for substrate, in this case probably through favoring the partitioning of substrate from the medium into the hydrophobic active site.