EC:3.6.1.3 - FACTA Search

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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 ATPase activity (proton ATPase) of rat liver mitochondria was studied 2, 24, 28, 96 and 168 h after acute tetrachloromethane poisoning. It is established that the tetrachloromethane poisoning. It is established that the tetrachloromethane poisoning is accompanied by a considerable activation of mitochondrial H+-ATPase and a decrease of the DNP and Ca+, Na+ and K+ activating influence on it. Maximum changes in the H+-ATPase activity is observed 24 h after poisoning. Changes in the H+-ATPase properties are accompanied by a fall in the alpha-ketoglutarate dehydrogenase and succinate dehydrogenase activities and by disturbance of the liver mitochondria contractile properties. The electrochemical membrane potential of the mitochondria under the effect of tetrachloromethane is supposed to be reduced due to a primary damage of the phospholipid matrix of the coupling membrane and an increase in its proton conductivity.
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PMID:[ATPase activity of rat liver mitochondria in acute tetrachloromethane poisoning]. 646 Mar 65

Hydrazine sulfate significantly potentiated antitumor effect of thiophosphamide in experiments on rats with Walker's tumor. The treatment with hydrazine sulfate (60 mg/kg) plus thiophosphamide (1 mg/kg) resulted in suppression of tumor growth up to 90%, the dosage of thiophosphamide being therapeutically ineffective. Following hydrazine sulfate treatment, the activity (pH: 7.0-7.5-7.75) derived from tumors doubled, as compared with control. Similar results were obtained with enzymatic preparations. The activities of DNP-stimulated ATPase and solubilized enzymes in rat liver were not influenced by treatment.
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PMID:[Selective action of hydrazine sulfate in combination with thiophosphamide on tumor cell mitochondria]. 646 Nov 32

The influence of the fungicidic compound beta-thujaplicin (beta-isopropyl-tropolone) on the energy transformation processes of oxidative phosphorylation was investigated in isolated rat liver mitochondria with succinate (plus rotenone) as substrate. To elucidate the observed strong inhibition of active respiration by beta-thujaplicin three possibilities were assayed: the inhibition of 1) transport processes across the inner mitochondrial membrane for inorganic phosphate, adenine nucleotides, or succinate, 2) electron flux along the respiratory chain, and 3) mitochondrial ATPase. In this respect a remarkable inhibition of both Pi transport and the translocation of adenine nucleotides could not be observed. However, the effective suppression of the DNP-induced ATPase by beta-thujaplicin explains the pronounced inhibition of active respiration. An impairment of succinate transport and the measured partial inhibition of the terminal respiratory chain at the level of cytochrome oxidase contribute to the less marked inhibition of the uncoupled respiration. The ability of beta-thujaplicin to extract mitochondrial Mg++ and the prevention of the effects of beta-thujaplicin by an excess of Mg++ in the medium suggest a common mode of action of beta-thujaplicin as a lipophilic chelator of Mg++ and other divalent cations.
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PMID:The multifunctional actions of beta-thujaplicin on the oxidative energy transformations as a consequence of its lipophilic and chelating properties. 678 24

1. The absorption mechanism of polaprezinc (zinc-carnosine chelate compound) was studied in rat by an everted gut sac method. The rates of transport and accumulation of 14C-L-carnosine were proportional to the mucosal concentration of L-carnosine, whereas the rates of transport and accumulation of 65ZnCl2 had become saturated. The Michaelis-Menten constant (Km) = 4.41 mM and maximal rate (Vmax) = 71.83 nmol/min/g for zinc transport and, similarly, Km = 6.21 mM and Vmax = 92.51 mumol/30 min/g for accumulation. 2. The addition of ouabain, 2,4-dinitrophenol (2,4-DNP) and low temperatures reduced the rate of zinc uptake, indicating that zinc transport was considered to be a carrier-mediated process based on Na+,K(+)-ATPase-dependent mechanisms. 3. The concentration of zinc in the gut of the non-fasted rat was greater than that of the fasted rat, suggesting different rates of transport and accumulation. It is suggested that zinc intestinal uptake in rat is regulated by zinc content in the gut. 4. A pharmacokinetic model for transport and accumulation of zinc saturation from the lumen side to the gut was designed, and the calculated values obtained by simultaneous multiline fitting of transport and accumulation of zinc data were in good agreement with the observed values.
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PMID:Absorption mechanism of polaprezinc (zinc L-carnosine complex) by an everted sac method. 770 50

10 mM isatin (2,3-dioxoindole) inhibited glucose influx into human erythrocytes by over 30%. The inhibition is of the competitive type, where the affinity constant (Kt) was increased from 5.71 (control) to 11.11 mM in the presence of isatin with no change in Vmax (130 nmol/min/ml packed cells). The observed inhibition of sugar transport by isatin was not mediated through membrane -SH groups accessible to iodoacetate, iodoacetamide, DTNB, DNP or sodium arsenite. Isatin inhibited sugar transport in the presence of 2 mM harmaline, an alkaloid inhibitor of Na+, K(+)-ATPase activity. The inhibition was non additive which suggests that these two compounds interact with the same or a similar site on the erythrocyte membrane.
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PMID:Inhibition of glucose transport in human erythrocytes by 2,3-dioxoindole (isatin). 792 50

Secretory mutants (sec1, sec6) of Saccharomyces cerevisiae accumulate large pools of secretory vesicles at the restrictive temperature (37 degrees C) because of a block in the delivery of vesicles to the cell surface. We report that secretory vesicles isolated from sec mutants exhibit ATP-dependent uptake of two classes of organic anions that are substrates for the canalicular carriers of mammalian liver. Transport of the bile acid taurocholate (TC) and the glutathione conjugate of 1-chloro-2,4-dinitrobenzene (GS-DNP) into vesicles was temperature dependent and saturable and required ATP and Mg2+. Estimates of Km and Vmax were 177 microM and 1.2 nmol.min-1.mg-1 and 262 microM and 0.53 nmol.min-1.mg-1 for TC and GS-DNP, respectively. TC and GS-DNP did not complete for transport. TC transport was sensitive to vanadate and 4,4'-diisothiocyanostilbene-2,2'-disulfonate, inhibited by glycocholate, and retained partial activity when UTP and GTP, but not nonhydrolyzable ATP analogues, replaced ATP. Dissipation of the electrochemical potential with a nitrate buffer and ionophores partially decreased (30-40%) the transport of both anions. Direct testing of the influence of membrane potential was performed in sec6-4 mutants, in which the expression of electrogenic [H+]ATPase activity is reduced by > 85% in glucose-containing medium. Vesicles from sec6-4 retained full activity for ATP-dependent TC and GS-DNP transport. These results indicate that the transporters operate independently of the membrane potential and that ATP is required. These findings reveal that yeast possess separate ATP-dependent transport mechanisms for elimination of bile acids and glutathione conjugates. The mechanisms are functionally similar to those present in mammalian systems.
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PMID:ATP-dependent transport of organic anions in secretory vesicles of Saccharomyces cerevisiae. 793 92

2,4-Dinitrophenol (DNPOH) and carbonylcyanide p-trifluoromethoxyphenylhydrazone (FCCP), two classical uncouplers of mitochondrial oxidative phosphorylation, were found to stimulate human erythrocyte membrane vesicle ATPase activity. Both compounds competed with S-(2,4-dinitrophenyl)glutathione (DNPSG) for activation of the glutathione S-conjugate transport ATPase. Stimulation of the ATPase by DNPOH or FCCP occurred with Vmax values 4-6 times greater than that with DNPSG. The K0.5 for DNPOH (195 microM) was similar to that of DNPSG (196 microM), while that for FCCP (4.3 microM) was 40 times lower. Vanadate inhibits both the DNPOH- and FCCP-stimulated ATPase activities, as previously reported for the glutathione S-conjugate ATPase. The stimulation of erythrocyte vesicle ATPase activities by these classical uncoupling agents does not result from increased proton conductance across the vesicle membrane: monensin, gramicidin and nystatin, all of which increase proton conductance, but by different mechanisms, do not stimulate erythrocyte vesicle ATPase activity. Verapamil, a known P-glycoprotein ATPase activator also does not stimulate human erythrocyte membrane ATPase activity. These results show that relatively small, monoanionic lipophilic compounds such as DNPOH and FCCP can activate the glutathione S-conjugate transport ATPase. The higher Vmax values for activation by these agents than by DNPSG make possible a more sensitive assay of this transport ATPase activity. The results raise the question of whether these substances and other small anionic, lipophilic compounds are also transported by this system.
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PMID:2,4-Dinitrophenol and carbonylcyanide p-trifluoromethoxyphenylhydrazone activate the glutathione S-conjugate transport ATPase of human erythrocyte membranes. 794 90

The effect of equisetin, an antibiotic produced by Fusarium equiseti, has been studied on mitochondrial functions (respiration, ATPase, ion transport). Equisetin inhibits the DNP-stimulated ATPase activity of rat liver mitochondria and mitoplasts in a concentration-dependent manner; 50% inhibition is caused by about 8 nmol equisetin/mg protein. The antibiotic is without effect either on the ATPase activity of submitochondrial particles or on the purified F1-ATPase. It inhibits both the ADP- or DNP-activated oxygen uptake by mitochondria in the presence of glutamate+malate or succinate as substrates, but only the ADP-stimulated respiration is inhibited if the electron donors are TMPD+ascorbate. It does not affect the NADH or succinate oxidation of submitochondrial particles. Equisetin inhibits in a concentration-dependent manner the active Ca(2+)-uptake of mitochondria energized both by ATP or succinate without affecting the Ca(2+)-uniporter itself. The antibiotic inhibits the ATP-uptake by mitochondria (50% inhibition at about 8 nmol equisetin/mg protein) and the Pi and dicarboxylate carrier. It does not lower the membrane potential at least up to 200 nmol/mg protein concentration. The data presented in this paper indicate that equisetin specifically inhibits the substrate anion carriers of the mitochondrial inner membrane.
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PMID:Effects of equisetin on rat liver mitochondria: evidence for inhibition of substrate anion carriers of the inner membrane. 813 93

The sensitivies of double-barrelled K(+)-selective micro-electrodes (KSMs) employing the low-impedance membrane cocktail based on the neutral K(+)-selective ion carrier valinomycin (Fluka, Cocktail B 60398) to the following 3 different classes of inhibitors of K+ transport were measured: (1) general metabolic inhibitors (dinitrophenol, potassium cyanide, sodium azide, rotenone, dicyclohexylcarbodiimide, salicylhydroxamic acid); (2) P-type ATPase inhibitors (vanadate, ouabain, amiloride, SCH 28080); and (3) anion-dependent K+ transport inhibitors (bumetanide, 4-acetamide-4-isothiocyanostilbene-2,2-disulphonic acid). Of the 12 inhibitors tested, only dinitrophenol had any significant effect on the response of KSMs to K+ activity. Comparison of the calibrations in solutions with and without 0.1 mM dinitrophenol showed that this inhibitor behaved as a 'classical' interferent whereby its contribution to the K+ activity signal was statistically significant at K+ activities of 36.0 mM and less. However, at higher K+ activities (97.0 mM), dinitrophenol interference was not significant. It was possible to correct for the DNP interference and to obtain measurements of intracellular K+ activity in insect muscles.
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PMID:Sensitivity of valinomycin-based K(+)-selective micro-electrodes to inhibitors of K+ transport. 853 96

The damage to the liver appears to be an important aspect of multisystem organ failure in acute pancreatitis with poor prognosis. The objective of this study was to evaluate the protective effect of stable prostacyclin analogue--tilsuprost on the liver energy metabolism in taurocholate pancreatitis in rats preceded by acute ethanol intake. The respiratory control ratio (RCR) and ADP/O ratio of liver mitochondria with glutamate+malate as substrates and mitochondrial DNP (uncoupler)-dependent ATPase activity were significantly depressed after 12 h of taurocholate pancreatitis-the effects that were not significantly aggravated by antecedent acute ethanol intake. Tilsuprost (0.3 mg/kg i.g.) given just before induction of pancreatitis partly prevented the impairment of mitochondrial oxidative and phosphorylative functions, however these positive effects were limited in acute pancreatitis preceded by acute ethanol intake. These results suggest that prostacyclin analogues could be effective in the treatment of hepatic complications in acute pancreatitis, however their effectiveness could be limited in the case of acute ethanol antecedent abuse.
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PMID:The effect of tilsuprost on the liver mitochondria in taurocholate pancreatitis in rats with antecedent acute ethanol abuse. 887 59

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