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23 results on '"LYSKOVA TI"'

1. Influence of intra- and extracellular acidification on free radical formation and mitochondria membrane potential in rat brain synaptosomes.

Author

Pekun TG, Lemeshchenko VV, Lyskova TI, Waseem TV, and Fedorovich SV

Subjects
Acidosis metabolism, Amiloride pharmacology, Animals, Fluorescent Dyes, Hydrogen-Ion Concentration, Male, Mitochondria metabolism, Oxidative Stress, Rats, Rats, Wistar, Uncoupling Agents pharmacology, Voltage-Sensitive Dye Imaging, Brain metabolism, Extracellular Space metabolism, Intracellular Space metabolism, Membrane Potential, Mitochondrial drug effects, Superoxides metabolism, Synaptosomes metabolism
Abstract

Brain ischemia is accompanied by lowering of intra- and extracellular pH. Stroke often leads to irreversible damage of synaptic transmission by unknown mechanism. We investigated an influence of lowering of pH(i) and pH(o) on free radical formation in synaptosomes. Three models of acidosis were used: (1) pH(o) 6.0 corresponding to pH(i) decrease down to 6.04; (2) pH(o) 7.0 corresponding to the lowering of pH(i) down to 6.92: (3) 1 mM amiloride corresponding to pH(i) decrease down to 6.65. We have shown that both types of extracellular acidification, but not intracellular acidification, increase 2',7'-dichlorodihydrofluorescein diacetate fluorescence that reflects free radical formation. These three treatments induce the rise of the dihydroethidium fluorescence that reports synthesis of superoxide anion. However, the impact of amiloride on superoxide anion synthesis was less than that induced by moderate extracellular acidification. Superoxide anion synthesis at pH(o) 7.0 was almost completely eliminated by mitochondrial uncoupler carbonyl cyanide 4-(trifluoromethoxy)phenylhydrazone. Furthermore, using fluorescent dyes JC-1 and rhodamine-123, we confirmed that pH(o) lowering, but not intracellular acidification, led to depolarization of intrasynaptosomal mitochondria. We have shown that pH(o) but not pH(i) lowering led to oxidative stress in neuronal presynaptic endings that might underlie the long-term irreversible changing in synaptic transmission.

Published
2013
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2. [Effect of acidosis on membrane potential and calcium transport in rat brain synaptosomes].

Author

Fedorovich SV, Aksentsev SL, Lyskova TI, Kaler GV, Fedulov AS, and Konev SV

Subjects
Animals, Brain enzymology, Brain metabolism, Calcium Channels metabolism, Carrier Proteins metabolism, Hydrogen-Ion Concentration, Ion Channel Gating, Ion Transport, Rats, Sodium-Calcium Exchanger, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Synaptosomes enzymology, Synaptosomes metabolism, Acidosis physiopathology, Brain physiopathology, Calcium metabolism, Membrane Potentials physiology, Synaptosomes physiology
Abstract

The influence of acidosis on the transmembrane potential, sodium pump and membranous systems of calcium transport was studied on isolated presynaptic nerve terminals (synaptosomes) from rat brain. It is established that acidic shift causes a decrease of membrane potential, a large inhibition of the sodium pump (by three times at pH 6.0). All the systems controlling both inward- and outward-directed calcium fluxes are partially blocked by low pH. At pH 6.0 the basal influx and calcium pump are reduced two-fold while the voltage-sensitive calcium channels and Na+/Ca2+ exchanger are inhibited by three and four to five times, respectively. We have no found any evidence of acidosis-induced net flux of calcium directed inwards.

Published
1997

3. [Effect of ischemic damage factors on lipid peroxidation in rat brain synaptosomes].

Author

Lyskova TI, Alsemtsev SL, Fedorovich SV, Levko AV, Rakovich AA, Samoĭlenko SG, Fedulov AS, and Konev SV

Subjects
Animals, Antioxidants pharmacology, Arachidonic Acid pharmacology, Brain drug effects, Cell Membrane metabolism, Hot Temperature, Hydrogen-Ion Concentration, Mitochondria metabolism, Rats, Synaptosomes drug effects, Thiobarbituric Acid Reactive Substances metabolism, Brain metabolism, Brain Ischemia metabolism, Lipid Peroxidation, Synaptosomes metabolism
Abstract

Accumulation of TBA-reactive substances after a 40 min incubation of rat brain synaptosomes at 37 degrees C was analysed. A lowering of pH to 6.5-5.5 or arachidonic acid (0.1-1.0 mM) increased lipid peroxidation which was blocked by antioxidants. Acidosis (pH 6.0) and arachidonic acid used in combination had a strong synergic effect. Depolarisation of plasma membranes or intrasynaptosomal mitochondria were without influence on lipid peroxidation at neutral or acid pH. The results support a leading role of acidosis and phospholipases in stimulation of peroxidation under ischaemia.

Published
1997

4. Effect of gamma-irradiated carbohydrates on isolated synaptic membranes.

Author

Kaler GV, Lyskova TI, Shadyro OI, Samoilenko SG, Edimecheva IP, Aksentsev SL, and Konev SV

Subjects
Animals, Edetic Acid pharmacology, Egtazic Acid pharmacology, Free Radicals, Gamma Rays, Hydrogen Peroxide toxicity, Rats, Sodium-Potassium-Exchanging ATPase radiation effects, Glucose radiation effects, Synaptic Membranes radiation effects
Abstract

The effect of gamma-irradiated solutions of carbohydrates, mainly glucose, upon Na+, K(+)-ATPase and lipid peroxidation in rat brain synaptosomal membranes was studied. The membrane damage by irradiated glucose was enhanced in the presence of Fe2+ and was diminished when a free-radical scavenger (BHT) or metal chelators (EDTA, EGTA) were present. It is suggested that a key element in the free-radical membrane damage by irradiated carbohydrates is an Fe(2+)-complex of some species of the radiolysis products. Participation of radiotoxins of carbohydrate origin in radiobiological effects is discussed.

Published
1993
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5. Sensitivity of the brain synaptosomal membrane Mg(2+)-ATPase activity to arachidonic acid is under control of the Na+,K(+)-ATPase state.

Author

Okun IM, Lyskova TI, Aksentsev SL, and Konev SV

Subjects
Animals, Ca(2+) Mg(2+)-ATPase antagonists & inhibitors, In Vitro Techniques, Indomethacin pharmacology, Ouabain pharmacology, Prostaglandin D2 pharmacology, Rats, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Sodium-Potassium-Exchanging ATPase metabolism, Substrate Specificity, Synaptosomes enzymology, Arachidonic Acid pharmacology, Brain enzymology, Ca(2+) Mg(2+)-ATPase metabolism
Abstract

Evidence is presented for the sensitivity of the synaptosomal plasma membrane Mg(2+)-ATPase activity to arachidonic acid being dependent on the functional state of Na+,K(+)-ATPase. An "Inversion effect" was observed at arachidonic acid concentrations exceeding 80 mumol/l when the Mg(2+)-ATPase activity (after ouabain addition) is higher than the total ATPase activity (without ouabain). The "Inversion effect" is reduced by cyclooxygenase inhibitor indomethacin or acetylsalicylic acid and restored by prostaglandin PGA2 or PGD2.

Published
1992

6. [The coupling of Na,K-ATPase with the sodium channels in the plasma membranes of the brain synaptosomes of rats].

Author

Lyskova TI, Mongin AA, Okun' IM, Aksentsev SL, and Konev SV

Subjects
Animals, Brain drug effects, Drug Interactions, Male, Ouabain pharmacokinetics, Rats, Sodium Channels drug effects, Sodium-Potassium-Exchanging ATPase drug effects, Synaptic Membranes drug effects, Synaptosomes drug effects, Tritium, Brain metabolism, Sodium Channels metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Synaptic Membranes metabolism, Synaptosomes metabolism
Abstract

Effect of neurotoxins veratrine (100 micrograms/ml) and tetrodotoxin (1 microM) on the binding of 3H-ouabain (10(-8) M) with Na,K-ATPase of intact synaptosomes and isolated synaptic membranes was studied. The persistent opening of sodium channels in synaptosomes by veratrine results in an increase of specific binding of the labeled ligand by 20%. A similar effect was caused by Na/H exchanger monensin. Destruction of microtubules with vinblastine and colchicine has no influence on veratrine action, while depolymerization of microfilaments with cytochalasin B reverses the neurotoxin effect. In isolated synaptic membranes veratrine and tetrodotoxin stimulate ouabain binding, the absolute veratrine-induced increment being several times higher in the presence of ATP than in its absence. Since the closed vesicles of any type are not permeable to ATP and ouabain, it means that in the isolated membranes an interaction between sodium channels and Na,K-ATPase molecules takes place. In intact nerve endings such a mechanism may be operative along with the known ways of control of sodium pump and its ouabain-binding site.

Published
1991

7. [Structural and functional changes in the synaptic membranes of the brain during aging].

Author

Miliutin AA, Beliaeva EI, Bulanova KIa, Kiriliuk AP, and Lyskova TI

Subjects
Animals, Binding Sites, Brain enzymology, Cell Membrane metabolism, Lipid Bilayers metabolism, Rats, Receptors, Drug metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Spin Labels, Synaptic Membranes enzymology, Temperature, Aging, Brain metabolism, Synaptic Membranes metabolism
Abstract

Below 37 degrees the mobility of lipids in rat brain synaptic membranes evaluated by the spin probe method is higher in old (24-26 months) than in young (5-6 months) animals. The number of ouabain receptors in membranes increases with age, while maximum rate and Km values are not changed. The relation between structural state of membrane and properties of ouabain binding centers is discussed.

Published
1984

8. [Muscarinic cholinoreceptors of brain synaptic membranes from animals of various ages].

Author

Lyskova TI, Okun' IM, Miliutin AA, Beliaeva EI, and Aksentsev SL

Subjects
Aging, Animals, Brain metabolism, Ethylmaleimide pharmacology, Kinetics, Quinuclidinyl Benzilate metabolism, Rats, Brain growth & development, Receptors, Muscarinic metabolism, Synaptic Membranes metabolism
Abstract

In old rats in contrast to young and mature ones the treatment of synaptic membranes with SH-reagent N-ethylmaleimide, cholinergic agonist carbamylcholine or both of them decreases the specific binding of labeled muscarinic antagonist 3H-quinuclidinylbenzylate. The age related change of receptor conformation with exposure of thiol groups responsible for antagonist binding is suggested.

Published
1983

9. [Sites responsible for stimulation of brain Na,K-ATPase by serotonin].

Author

Novitskaia NA, Aksentsev SL, Lyskova TI, Okun' IM, and Konev SV

Subjects
Animals, Enzyme Activation, Kinetics, Methysergide pharmacology, Norepinephrine pharmacology, Phentolamine pharmacology, Rats, Cerebral Cortex enzymology, Serotonin pharmacology, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

Serotonin (10(-6)-10(-3) M) stimulates Na,K-ATPase in the rat brain cortex homogenate with a maximal effect at 10(-4) M. Deseril (10(-5) M), antagonist of serotonin receptors, removes the stimulating effect. Deseril has no influence on noradrenaline-induced ATPase activation; the alpha-adrenergic blocker phentolamine does not affect serotonin activation. The effects of the two transmitters are additive. It is assumed that the mediators interact with different membrane sites, serotonin activation being initiated via the serotonin receptors.

Published
1981

10. [Structural rearrangements in membranes induced by anesthetics].

Author

Nisenbaum GD, Okun' IM, Adzerikho RD, Lyskova TI, and Narushevichus EV

Subjects
1-Propanol pharmacology, Animals, Benzyl Alcohols pharmacology, Cattle, Ethanol pharmacology, Humans, In Vitro Techniques, Membranes drug effects, Rats, Sodium Dodecyl Sulfate pharmacology, Trypsin pharmacology, Alcohols pharmacology, Chlorpromazine pharmacology, Erythrocytes drug effects, Procainamide pharmacology, Synaptosomes drug effects
Abstract

Studies were carried out on the effects of anesthetics on the stability of membranes to sodium dodecylsulfate and trypsin. The initial rate of membrane desintegration by detergent evaluated by light scattering with stopped flow method was increased in the presence of ethanol, propanol, benzyl alcohol, procain-amide (erthrocyte membrane) and chlorpromazine (rat brain synaptosomes). Concentrations of anesthetics which correspond to half of the maximum effect were very close to that of blocking the action potential and inducing 50%--antihemolysis. Alcohols and procaine at anesthetic concentrations inhibited proteolysis of isolated erythrocyte membranes but were without effect on their ultrasonic fragments. Increase of membrane desintegtation rate is interpreted as structural rearrangements of membranes with the weakening of detergent sensitive intermolecular interactions. Proteolysis inhibition of ghosts but not the gragments indicates against the participation of the basic func of proteins in the structural membrane rearrangements.

Published
1976

11. [Mechanism of brain Na,K-ATPase activation by adrenaline].

Author

Aksentsev SL, Konev SV, Lyskova TI, Okun' IM, and Adzerikho RD

Subjects
Animals, Brain drug effects, Calcium pharmacology, Egtazic Acid pharmacology, Enzyme Activation, In Vitro Techniques, Phentolamine pharmacology, Rats, Brain enzymology, Epinephrine pharmacology, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

Norepinephrine stimulates Na, K-ATPase from rat brain homogenates at concentrations of 10(-4)--10(-5) and 10(-7)--10(-8) M. A low concentration maximum is observed after 48 hrs of incubation at -20 degrees C and is not changed by the addition of alpha-tocopherol, glycerol and MAO inhibitor ipraside. The maximum observed at the mediator concentration equal to 10(-4)--10(-5) M is eliminated after treatment with EGTA. At all concentrations of norepinephrine the enzyme stimulation is removed by the alpha-adrenoblocker phentolamine. The activated enzyme reveals lower sensitivity to Ca2+ induced inhibition. The role of Ca2+ and conformational state of the membranes in the realization of the remote effect on the adrenoreceptor-Na, K-ATPase system is discussed.

Published
1978

12. [Effect of cross-linking agents on electron transport and proton transfer in the mitochondrial respiratory chain].

Author

Konev SV, Rudenok AN, Chernook NN, Lyskova TI, and Aksentsev SL

Subjects
Animals, Biological Transport drug effects, Electron Transport drug effects, In Vitro Techniques, Mitochondria, Liver drug effects, Oxidation-Reduction, Rats, Cross-Linking Reagents pharmacology, Mitochondria, Liver metabolism, Protons
Abstract

The effect of protein cross-linkage on proton translocation and electron transport in mitochondria respiratory chain was studied. Dimethylsuberimidate (1 mM) or dicyclohexyl carbodiimide (50 g/ml) inhibit proton translocation with concomitant stimulation of respiration. It is concluded that the definite level of dynamic mobility of proteins is needed for proton translocation.

Published
1985

13. [Membrane regulation of brain Na,K-ATPase inhibition by calcium ions].

Author

Aksentsev SL, Novitskaia NA, Okun' IM, Lyskova TI, and Konev SV

Subjects
Animals, Kinetics, Rats, Sodium-Potassium-Exchanging ATPase metabolism, Brain enzymology, Calcium pharmacology, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Synaptic Membranes enzymology
Abstract

In contrast to the purified enzyme. Na, K-ATPase from intact synaptic membranes is inhibited by Ca2+ according to a biphase pattern at Ca2+ concentrations of 10(-6) to 10(-3) M. The membrane damage after three washings with bidistilled water results in elimination of low cocentration phase. Recombination of the sediment and the supernatant restores the initial shape of the inhibition curve. Dithiothreitol greatly increases the inhibition by low Ca concentrations. This effect is absent in the purified enzyme preparation and is considerably reduced after the membrane damage. Recombination restores the dithiothreitol effect. It is suggested that the sensitivity of membrane Na,K-ATPase to low concentrations of Ca2+ is controlled by the components (most likely, peripheral proteins), which are loosely bound to the membrane, this process being dependent on the degree of the SH-group reduction.

Published
1980

14. [Biphasic stimulation of cerebral Na+-, K+-ATPase induced by interaction of noradrenaline with membrane alpha-adrenoreceptors].

Author

Lyskova TI, Aksentsev SL, Adzerikho RD, Miliutin AA, and Konev SV

Subjects
Animals, Cerebral Cortex enzymology, Hypothalamus enzymology, Magnesium pharmacology, Potassium metabolism, Rats, Sodium metabolism, Adenosine Triphosphatases metabolism, Brain enzymology, Norepinephrine pharmacology, Receptors, Adrenergic drug effects, Receptors, Adrenergic, alpha drug effects
Published
1977

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