Activity of erythrocyte membrane Na,K-ATPase in rats with experimental botulism

The effect of type C botulinum toxin on Na, K, Mg-ATPase activities of erythrocyte membranes of white rats was studied in experiments in vivo and in vitro. The activity of Na, K, Mg-ATPase was found to be markedly inhibited in the preclinical period of poisoning, 2 hours after intraperitoneal injection of the toxin. In this case Mg-ATPase activity noticeably increased. In the presence of the development of a grave paralytic syndrome one day after intraperitoneal injection of the toxin, the activity of Na, K-ATPase of the erythrocyte membrane remained decreased as was the case in the preclinical period of poisoning, whereas the activity of Mg-ATPase returned to normal. The experiments in vitro with preincubation of erythrocyte membranes with botulinum toxin in the concentrations corresponding to the mean calculated ones in the experiments in vivo demonstrated inhibition of Na, K-ATPase. The magnitude of Mg-ATPase activity remained virtually unchanged in all the modifications of the experiments with boiled and native botulinum toxin. The in-vivo experiments with intraperitoneal injection of glutathione and unithiol to the pretreated animals attested to normalization of Na, K-ATPase in the preclinical period of poisoning, with this normalization being brought about by unithiol. In the in-vitro experiments with addition of unithiol or glutathione into the incubation medium, each of the donators of sulphhydryl groups prevented Na, K-ATPase inhibition with botulinum toxin.     

Effect of the polyene antibiotic, roseofungin, on the liberation of the intracellular components from Candida guilliermondii cells and from rat erythrocytes]

Liberation of inorganic ions (potassium and phosphorus), nucleotides and protein from the cells of Candida guilliermondii and rat erythrocytes was studied. It was found that leakage of these components depended on the incubation time, antibiotic dose and amount of the cell material. The potassium ions proved to be most sensitive to the antibiotic: even at low concentrations of roseofungin (2-4 microgram/ml) the amount of the intracellular potassium changed. A decrease in the dry mass and volume concentration in the cells of Candida guilliermondii and lysis in the red blood cells were observed in addition to the leakage of the above intracellular components. The cells of Candida guiliermondii at the beginning of the semilogarithmic growth phase were especially sensitive to roseofungin. The coefficient of roseofungin distribution in the cells of Candida guiliermondü was evaluated. The maximum distribution coefficient was observed at roseofungin concentrations of 40 and 80 microgram/ml for the 4- and 18-hour cultures respectively. Therefore, the effect of roseofungin is characteristic of polyens.     

Bile pigments and bilirubin UDP-glucuronyl transferase during the metamorphosis of Rana catesbeiana tadpoles

1. Cold-acclimated (1 degree C) goldfish (Carassius auratus) branchial Na/K-ATPase activity was elevated 100% while renal Na/K-ATPase activity was not significantly affected compared with warm-acclimated (20 degrees C) goldfish. 2. Cold-acclimated goldfish branchial and renal Mg-ATPase activity was reduced 18 and 30% on a per mg protein basis, respectively. 3. Renal Na/K-ATPase activity was 4.6- and 1.6-fold greater than gill in cold- and warm-acclimated fish, respectively. 4. The elevated branchial Na/K-ATPase activity and the unchanged renal Na/K-ATPase activity are consistent with the maintenance of the reduced blood ion level in cold-acclimated goldfish.     

Effect of carbacholine and serotonin on the ATPase activity in synaptosomes of the projection and association areas of the feline cerebral cortex]

Na, K-ATPase and Mg-ATPase activities were measured in the synaptosomes of the temporal auditory projection area and the frontal association area. Moreover, the effects of carbacholine and serotonin on those activities were investigated. Na, K-ATPase activity in the synaptosomes of the association area was shown to be reliably higher that in the synaptosomes of the projection area (11.02 +/- 0.45 vs 8.40 +/- 0.55 microM Pi/mg of protein hr; P less than 0.05). Mg-ATPase activity was higher in the second case as compared to the first one (11.40 +/- 0.38 vs 9.04 +/- 0.35; p less than 0.05). Carbacholine and serotonin (10(-8)-10(-3) M) were found to induce equal inhibition of Na, K-ATPase activity in the synaptosomes of both cortices (1 max = 25-30%, 1C50 = 0.2-0.3 microM) which is blocked respectively with atropine (10(-6) M) and methysergide (10(-6) M) and enhanced in presence of GTP (5.10(-5) M). The enzyme activity is also inhibited by the non-hydrolysable guanine nucleotide, GTP gamma S (10(-8)-10(-4) M), in the absence of the antagonists (1 max = 35-40%, 1 C50 = 0.02 microM). In the methysergide-containing medium serotonin exerts a dose-dependent stimulatory effect on Na, K-ATPase which is more pronounced in the synaptosomes of the association area (A max = 25%, A C50 = 0.05 microM). Mg-ATPase activity of membrane preparations is liable to be stimulated by both serotonin and carbacholine, stimulation being more pronounced in the synaptosomes of the association cortex as well (A max = 35%, A C50 = 0.2-0.3 microM). This effect is insensitive either to the antagonists of the corresponding receptors or to GTP. GTP gamma S does not cause alterations in the enzymatic activity. Na, K-ATPase is suggested to be coupled to muscarine and serotonin receptors in the synaptic membranes of both projection and association cortical areas via a GTP-binding protein. At the same time, the agonists of receptors mentioned above are presumably also capable to effect Mg-ATPase activity by the receptor-independent way.     

Large-scale preparation of Na, K-ATPase from ox brain.

A method for the isolation of membrane-bound Na,K-ATPase in quantity from brain gray matter is described. The method permits a large amount of enzyme to be obtained rather quickly with about 60% of the original activity of Na,K-ATPase of the tissue being recovered. The enzyme is stable, it has a specific activity of about 200 μmoles ATP split per mg protein per hour. Mg-ATPase comprises about 1% of the total ATPase activity. The enzymatic properties of this Na,K-ATPase do not differ from those in the literature; the turnover number is about 9300 min^?1.     

Adenosine triphosphatase from plasma membranes of cattle intestinal epithelium

The activities of Na,K-, Ca,Mg- and Mg-ATPases in the membrane fractions of plasma membranes of intestinal enterocytes of cattle, brush border and basolateral membranes, were studied. The activities were estimated under conditions of alkaline phosphatase activity inhibition by theophylline to exclude the nonspecific hydrolysis of ATP as well as to establish the orientation of vesicles with the use of alamethicine. 98% of the Na,K-ATPase activity (0.99 +/- 0.031 mumol/mg protein/min) was found to be localized in basolateral membranes. Both the brush border and basolateral membranes were found to possess the Ca,Mg-ATPase (0.193 +/- 0.018 and 0.795 +/- 0.025 mumol/mg protein/min) and Mg-ATPase (0.22 +/- 0.013 and 0.403 +/- 0.022 mumol.mg protein/min) activities.     

Characteristics of ATPase activity in the sarcolemma of longitudinal and circular muscles of the canine ileum

The subcellular fraction enriched in sarcolemmal vesicles was isolated from the longitudinal muscle (LM) and the circular muscle (CM) of the canine ileum by sucrose density gradient centrifugation. Treatment of the LM and CM membranes with sodium dodecylsulfate (0.2 mg/kg protein) led to a 3-fold increase in Na,K-ATPase activity (up to 24 and 39 mumol Pi/mg protein/h, respectively) and to a 90-95% inactivation of Mg-ATPase which was 2 and 8 times (for the CM and the LM, respectively) more active than Na,K-ATPase in the untreated sarcolemma. A specific inhibition of Na,K-ATPase activity by acetylcholine (Ach) and serotonin (ST) was observed which could de blocked in the presence of muscarinic and serotonin receptor antagonists. Sensitivity of the enzyme to ST was more than one order of magnitude higher than to Ach (IC50 = 10(-8) vs 1.2 x 10(-7) M). The inhibition of Na,K-ATPase activity by the neurotransmitters was more pronounced in the LM membranes (30-40%) than in the CM ones (10-20%). These data indicate that cell membranes of the LM and CM differ both in specific ATPase activities and the responsiveness of Na,K-ATPase to the receptor-mediated effects of Ach and ST.     

The distribution of ATPase activities in purified transverse tubular membranes

Vesiculated fragments of transverse tubules (TT) and sarcoplasmic reticulum (SR) membranes were purified from heterogeneous microsomal membrane fractions of chicken breast muscle by a modification of an iterative calcium-oxalate loading technique. The distribution of ATPase activities were determined for the TT and SR and were compared to enriched fractions of sarcolemma (SL) membranes. The TT membranes were characterized by high rates of magnesium-stimulated ATPase (Mg-ATPase) and 5′-nucleotidase activities but were virtually devoid of calcium-stimulated, magnesium-dependent ATPase (Ca,Mg-ATPase) activity. Moderate levels of a latent sodium and potassium-stimulated ATPase (Na,K-ATPase) were observed for TT membranes when unmasked with valinomycin and monensin. In contrast to the behavior of TT membranes, highly purified SR membranes displayed an active Ca,Mg-ATPase but negligible Na,K-ATPase, Mg-ATPase, and 5′-nucleotidase activities. High levels of Na,K-ATPase and 5′-nucleotidase activities were observed for SL membranes; however, the SL displayed no appreciable Ca,Mg-ATPase and Mg-ATPase activities. The lack of significant Mg-ATPase activity in the SR and SL fractions suggested that the Mg-ATPase was uniquely associated with the TT membranes. The TT Mg-ATPase was further characterized by its pH and temperature dependences, and its sensitivity to pharmacologic agents. The Mg-ATPase of the TT was insensitive to inhibition by sodium azide and oligomycin in concentrations shown to exert maximum inhibition on the F₁ ATPase of submitochondrial particles. The Mg-ATPase was also resistant to the effects of ouabain and orthovanadate in concentrations which abolished the Na,K-ATPase and Ca,Mg-ATPase activities of the SL and SR, respectively. The Mg-ATPase displayed temperature and pH optima (25 °C, pH 7.3) which were distinguishable from the Ca,Mg-ATPase (45 °, pH 7.0) of highly purified SR fractions but which were very similar to the temperature and pH dependencies of the mixed microsomal fractions (MMF) from which the TT membranes were derived. Similarities in the pH and temperature dependencies of the TT and MMF Mg-ATPases plus the absence of appreciable Mg-ATPase activity in highly purified SR membranes suggests that the “basic” Mg-ATPase often seen in crude SR fractions may originate from TT membrane contamination. The resistance of the TT Mg-ATPase to inhibition by the pharmacologic agents tested plus its unique temperature and pH dependences indicate that this ATPase is distinguishable from other ATPases and may, therefore, be of value as a specific biochemical marker for TT membranes.     

Differential Effect of w3 PUFA Supplementations on Na,K-ATPase and Mg-ATPase Activities: Possible Role of the Membrane w6/w3 Ratio

Several functional properties of Na,K-ATPase are strongly dependent on membrane fatty acid composition, but the underlying mechanism is still not well defined. We have studied the effects of two types of supplementations enriched in the w3 polyunsaturated fatty acids on the Na,K-ATPase and Mg-ATPase activities in sciatic nerve (SN) and red blood cells (RBC). Eight groups of rats, controls and diabetics, received a standard diet, supplemented or not with 30 or 60 mg/kg/day of docosahexaenoic acid (DHA) or with soybean for eight weeks. Diabetes induced significant decrease of Na,K-ATPase activity in SN (-23%) and RBC (-25%), without affecting Mg-ATPase activity. In RBC, soybean and DHA supplementations caused significant increases in Na,K-ATPase activity (in various range, +13% to +145%) in all groups, and in Mg-ATPase activity in control soybean (+65%), control and diabetic DHA high dose (+39%, +53%) and diabetic DHA low dose (+131%) groups. In SN, the soybean caused a significant decrease in Na,K-ATPase activity (-26%) and still more in the diabetic group (-53%). The DHA diet induced a slight decrease in activity in control groups, whilst during diabetes, at high dose, we noted an aggravation of this decrease (-36%). Mg-ATPase activity was not modified by supplementations except for the low dose of DHA where the activity was slightly decreased in the control group (-16%). The supplementations induced multiple tissue-specific modifications in the membrane fatty acid composition of RBC and of SN homogenates. Several specific correlations have been found between variations in fatty acids amounts and Na,K-ATPase activity in these tissues but only in RBC for Mg-ATPase activity. Indeed, we observed that the variations in Na,K-ATPase activity are positively and significantly correlated with changes in the omega6/omega3 ratio in SN as well as in RBC. These data clearly show, for the first time, that the diet could modulate the Na,K-ATPase activity via the omega6/omega3 ratio in the membranes. A similar correlation was observed with Mg-ATPase activity in RBC, suggesting also a dietary regulation of the enzyme; but for the SN, this activity might be regulated by a different omega6/omega3 ratio or by another pathway.     

Virus-inhibiting properties of the carbonyl-conjugated pentaene roseofungin

The antiinfluenza activity of roseofungin, a polyenic macrolide antibiotic was studied in vitro on surviving fragments of the chick embryo chorionallantoic membranes and in ovo on growing chick embryos. It was shown that the antibiotic activity against influenza A and B viruses was sufficiently high. The activity of roseofungin against influenza A virus did not differ from that of remantadin, the most active inhibitor of influenza virus reproduction. However, the activity of roseofungin against influenza B virus was an advantage of this antibiotic over remantadin, which had practically no effect on this virus type. A statistically significant protective effect of roseofungin (p less than 0.05) was shown on the animals with experimental influenza. The study on the antiviral activity of roseofungin against the DNA-containing variolovaccine virus revealed that it markedly inhibited the plague reduction. Roseofungin had a pronounced inhibitory effect on cell neoplastic transformation induced by the RNA-containing oncogenic virus of Rous sarcoma.     

Demonstration of a Mg-ATPase and a Na,K-ATPase from the arteria carotis communis of the sheep.

Besides the Mg-ATPase, a Na,K-ATPase can be demonstrated in different fractions of smooth muscles of the A. carotis communis of the sheep. The highest activity of Mg-ATPase is observed in the heavy microsomal fraction. The Ca-ion may act as a complete substitute for the Mg-ion in the Mg-ATPase. The proportion of Na,K-ATPase is between 10 and 40%, depending on the preparative conditions used in the individual fractions. Fractionated salt treatment (LiBr, KC1, KBr) improved the assay of Na,K-ATPase but increased strength of the Tris-HC1-buffer considerably reduced its activity.     

Changes in the structural characteristics and ATPase activity of the erythrocyte membranes in angiographically verified coronary artery lesion

Structural characteristics and Na, K-ATPase activity of erythrocyte membranes were studied by the spin probe method in patients with an angiographically verified damage to the coronary arteries. The rise of the cholesterol/phospholipid ratio in patients with coronary heart disease was associated with the increased orderliness of the fatty acid chains of erythrocyte membrane lipids, leading to inhibition of Na, K-ATPase activity. The data point to the same line of changes in erythrocyte membranes and smooth muscle cells during the development of coronary heart disease.     

Differential Response of Adenylate Cyclase and ATPase Activities After Chronic Ethanol Exposure of PC12 Cells

The direct effects of chronic ethanol administration on adenylate cyclase, Na,K-ATPase, and Mg-ATPase activities in a cell containing neuronal characteristics were investigated using PC12 pheochromocytoma cells. Exposure of PC12 cells to 0, 75, and 150 mM ethanol for 4 days caused a dose-dependent increase in the stimulation of adenylate cyclase by in vitro ethanol without altering activation of the enzyme by GTP, NaF, MnCl2, or 2-chloroadenosine. Conversely, a 4-day treatment with 150 mM ethanol increased Na,K-ATPase and Mg-ATPase activities without altering the inhibitory effects of in vitro ethanol. The increase in Na,K-ATPase activity was associated with an increase in Vmax without any change in the Km for KCl. Chronic ethanol exposure also increased the amount of [3H]ouabain specifically bound to PC12 cell membranes. Except for the increase in Mg-ATPase activity, the above results were also observed when chronic ethanol treatment was carried out in the presence of pyrazole. Although ethanol slowed PC12 cell growth, observed changes were not due to an ethanol-induced reduction in cellular density. A 4-day exposure of a nonneuronal cell line (Madin Darby canine kidney cell) to 150 mM ethanol did not alter adenylate cyclase or ATPase activities. The present study indicates that the direct effects of chronic ethanol exposure of a neuronal-like cell involve an increase in the density of sodium pumps per cell and an enhanced sensitivity of adenylate cyclase to activation by ethanol.     

Activity of Erythrocyte Na,K-ATPase in Manic Patients

Erythrocyte membrane Na,K-ATPase activity of manic patients was studied. The activity of patients in acute manic phase was higher than that of normal controls, while that of patients in normal phase was not. Even in the same patient, the activity in acute phase was higher than that in normal phase. Mg-ATPase activities did not differ between controls and patients. These findings clearly indicate a possible correlation between change in clinical phase in manic patients and change of erythrocyte membrane Na,K-ATPase activity.     

Ouabain-sensitive H,K-ATPase functions as Na,K-ATPase in apical membranes of rat distal colon

Na,K-ATPase activity has been identified in the apical membrane of rat distal colon, whereas ouabain-sensitive and ouabain-insensitive H,K-ATPase activities are localized solely to apical membranes. This study was designed to determine whether apical membrane Na,K-ATPase represented contamination of basolateral membranes or an alternate mode of H,K-ATPase expression. An antibody directed against the H, K-ATPase alpha subunit (HKcalpha) inhibited apical Na,K-ATPase activity by 92% but did not alter basolateral membrane Na,K-ATPase activity. Two distinct H,K-ATPase isoforms exist; one of which, the ouabain-insensitive HKcalpha, has been cloned. Because dietary sodium depletion markedly increases ouabain-insensitive active potassium absorption and HKcalpha mRNA and protein expression, Na, K-ATPase and H,K-ATPase activities and protein expression were determined in apical membranes from control and sodium-depleted rats. Sodium depletion substantially increased ouabain-insensitive H, K-ATPase activity and HKcalpha protein expression by 109-250% but increased ouabain-sensitive Na,K-ATPase and H,K-ATPase activities by only 30% and 42%, respectively. These studies suggest that apical membrane Na,K-ATPase activity is an alternate mode of ouabain-sensitive H,K-ATPase and does not solely represent basolateral membrane contamination.     

Effect of acetylcholine on the cerebral microsomal Na, K-ATPase of rats of different ages

Na, K- and Mg-ATPase activity of the cerebral cortex microsomal fraction has been studied and compared in adult and old rats. The activity of Na, K-ATPase decreases while that of Mg-ATPase increases with age. The total ATPase activity remains unchanged. The effect of acetylcholine on ATPase activity has been found to be age-dependent.     

Inhibition of Na,K-ATPase and sodium pump by protein kinase C regulators sphingosine, lysophosphatidylcholine, and oleic acid

The effects and modes of action of certain lipid second messengers and protein kinase C regulators, such as sphingosine, lysophosphatidylcholine (lyso-PC), and oleic acid, on Na,K-ATPase and sodium pump were examined. Inhibition of purified rat brain synaptosome Na,K-ATPase by these lipid metabolites, unlike that by ouabain, was subject to membrane dilution (i.e. inhibition being counteracted by increasing amounts of membrane lipids). Kinetic analysis, using the purified enzyme, indicated that sphingosine and lyso-PC were likely to interact, directly or indirectly, with Na+-binding sites of Na,K-ATPase located at the intracellular face of plasma membranes, a conclusion also supported by studies on Na,K-ATPase and 22Na uptake using the inside-out vesicles of human erythrocyte membranes. The studies also showed that ouabain (but not sphingosine and lyso-PC) increased the affinity constant (K0.5) for K+, whereas sphingosine and lyso-PC (but not ouabain) increased K0.5 for Na+. Sphingosine and lyso-PC inhibited 86Rb uptake by intact human leukemia HL-60 cells at potencies comparable to those for inhibitions of purified Na,K-ATPase and protein kinase C. It is suggested that Na,K-ATPase (sodium pump) might represent an additional target system, besides protein kinase C, for sphingosine and possibly other lipid second messengers.     

Characterization of Na/K-ATPase in Macrobrachium rosenbergii and the effects of changing salinity on enzymatic activity

A ouabain-sensitive Na/K-ATPase kinetic assay system based on the hydrolysis of ATP and the oxidation of NADH was adapted in order to characterize enzymatic activity in gills and examine the effects of changing salinity in Macrobrachium rosenbergii. Maximum inhibition by ouabain occurred at a concentration of 1.4 mM, and the K(m) of the reaction was 0.2 mM. In a first experiment, animals were acclimated to freshwater, 1/3 seawater, 2/3 seawater and full seawater for up to 1 week. Na/K-ATPase activity in front gills was 1. 62+/-0.19 micromol ADP/mg protein per h in freshwater, and was seen to increase slightly in 1/3 seawater (1.88+/-0.19 micromol ADP/mg protein per h) and 2/3 seawater (2.09+/-0.24 micromol ADP/mg protein per h), decreasing slightly in full seawater (1.92+/-0.43 micromol ADP/mg protein per h); however, differences were not significant. Back gills showed slightly higher levels, and a similar pattern of Na/K-ATPase activity. In a second experiment, animals were acclimated to 1/3 seawater and 2/3 seawater, and then transferred to freshwater. However, no changes in activity were seen, indicating that exposure to dilute media did not effect enzymatic activity. Whereas Na/K-ATPase is important in osmoregulatory function in marine euryhaline crustaceans, it may not play a significant role in adaptation in freshwater crustaceans that inhabit a more narrow range of salinities.     

Effect of adrenaline on the ATPase activity of suslik brain synaptosomes]

Action of adrenaline on ATPase activity of ground squirrel synaptosomes in vitro at 37 degrees and 17 degrees C was studied. It has been shown in experiments in vitro at 37 degrees C that adrenaline in a concentration of 5.10(-4) M influenced Mg and Na, K-ATPase of the synaptosomes in ground squirrel brain. The inhibition (42-72%) of Na, K-ATPase in the synaptosomes of the brain was seen during hibernation and in summer. The inhibition of Mg-ATPase (50%) was observed only in summer. The effect of adrenaline on the activity of Na, K-ATPase of synaptosome was seen in vitro as well as at 17 degrees (a 50% inhibition). It was shown that adrenaline in vitro at a concentration of 5.10(-4) M inhibited ATPases more than noradrenaline.     

Characterization of membrane-bound adenosinetriphosphatase activity of sarcolemma-enriched fraction from vascular smooth muscle

Membrane-bound adenosinetriphosphatase (ATPase) activities of the sarcolemma-enriched fraction from bovine aorta were characterized. The membranes, isolated by a sucrose density gradient method, were enriched about 31-fold in sodium- and potassium-stimulated, magnesium-dependent ATPase (Na,K-ATPase) activity, and about 8-fold in 5'-nucleotidase activity compared to the homogenate, suggesting that the isolated membranes were substantially enriched with the sarcolemma. The membranes exhibited about 31, 33 and 42 mumol Pi/mg protein/h of Na,K-ATPase, magnesium-dependent ATPase and calcium-dependent ATPase activities, respectively, in the presence of 4 mmol/l ATP. The sarcolemma-enriched membranes required considerably high concentrations of well-known inhibitors for Na,K-ATPase such as vanadate (more than 1 mumol/l), lanthanum (more than 1 mmol/l) and calcium (10 mmol/l), to induce a significant inhibition in the Na,K-ATPase activity. Treatments of the membrane with physical disruptions and sodium dodecyl sulfate or deoxycholate reduced the total Na,K-ATPase activity, and did not expose fully the ouabain sensitivity of the Na,K-ATPase. These results indicate that there are marked differences in the properties of the ATPase between vascular smooth muscle sarcolemma and cardiac sarcolemma.