[Inhibitory analysis of the monovalent metals' cations interaction with the system of Na+-dependent Ca2+ efflux from the liver mitochondria].

Kinetic analysis reveals the mainly competitive inhibition of Na+-dependent Ca2+ efflux from mitochondria by cations of monovalent metals. Potency of the inhibitory effect of metals' cations on Na+-dependent Ca2+ efflux from mitochondria matrix increases in such an order (I50, mM): Cs+ (137.11) < Rb+ (122.63) < Li+ (24.59) < Tl+ (0.541). The results of correlation analysis show that sodium ions translocation by mitochondrial exchanger and its inhibition by the cations of monovalent metals is determined by their affinity for the oxygen-containing ligands and are accompanied with the ions dehydration. Inhibition of the mitochondrial Na+/Ca2+ exchanger by monovalent metal cations is also accompanied with the inhibition of cooperative interactions of metal ions with the ionbinding centers during transport cycle, which can be one of the mechanisms of the inhibition of ions translocation by this ion-transporting system.

[Effect of K-ATP channel opener-pinacidil on the liver mitochondria function in rats with different resistance to hypoxia during stress]. / Vplyv aktyvatora K-ATP kanaliv-pinatsydylu na funktsionuvannia mitokhondrii pechinky shchuriv iz riznoiu rezystentnistiu do hipoksiï za stresu.

We have examined the influence of ATP-sensitive potassium (KATP) channel opener pinacidil (0.06 mg/kg) and inhibitor glibenclamide (1 mg/kg) on the changes of energy metabolism in the liver of rats under the stress conditions. The rats were divided in two groups with high and low resistance to hypoxia. The stress was modeled by placing the rats in a cage filled with water and closed with a net. The distance from water to the net was only 5 cm. The effects of KATP opener pinacidil (0.06 mg/kg) and inhibitor glibenclamide (1 mg/kg) on ADP-stimulating mitochondrial respiration by Chance, calcium capacity of organellas and processes of lipid peroxidation in the liver of rats with different resistance to hypoxia under the stress condition have been investigated. We have used the next substrates of oxidation: 0.35 mM succinate and 1 mM alpha-ketoglutarate. The additional analyses were conducted with the use of inhibitors: mitochondrial enzyme complex I 10 mM rotenone and succinate dehydrohenase 2 mM malonic acid. It was shown that the stress condition evoked the succinate oxidation and the decrease of alpha-ketoglutarate efficacy, the increase of calcium mitochondrial capacity and the intensification of lipid peroxidation processes. Under the presence of succinate, the increase of O2 uptake with simultaneous decrease of ADP/O ratio in rats with high resistance under stress was observed. Simultaneously, oxidation of alpha-ketoglutarate, a NAD-dependent substrate, was inhibited. Pinacidil caused the reorganization of mitochondrial energy metabolism in favour of NAD-dependent oxidation and the improvment of the protection against stress. The decrease of the efficacy of mitochondrial energy processes functioning was shown in animals with low resistance to hypoxia. KATP channel opener pinacidil has a protective effect on the processes of mitochondrial liver energy support under stress. These changes deal with the increase of alpha-ketoglutarate oxidation (respiratory rate and ADP/O) and the decrease of lipid peroxidation processes. We concluded about protective effect ofpinacidil on mitochondrial functioning under stress.

[Role of ATP-sensitive potassium channel activators in liver mitochondrial function in rats with different resistance to hypoxia]. / Rol' aktyvatoriv ATP-chutlyvykh kaliievykh kanaliv u funktsionuvanni mitokhondrii pechinky shchuriv iz riznoiu rezystentnistiu do hipoksiï.

Effects of ATP-sensitive potassium (KATP) channels opener pinacidil (0.06 mg/kg) and inhibitor glibenclamide (1 mg/kg) in rats with different resistance to hypoxia on indices of ADP-stimulation of mitochondrial respiration by Chance, calcium capacity and processes of lipid peroxidation in liver has been investigated. We used next substrates of oxidation: 0.35 mM succinate, 1 mM alpha-ketoglutarate. Additional analyses contain the next inhibitors: mitochondrial fermentative complex I-10 mkM rotenone, succinate dehydrogenase 2 mM malonic acid. It was shown that effects of pinacidil induced the increasing of oxidative phosporylation efficacy and ATP synthesis together with lowering of calcium capacity in rats with low resistance to hypoxia. Effects of pinacidil were leveled by glibenclamide. These changes are connected with the increasing of respiratory rate, calcium overload and intensification of lipid peroxidation processes. A conclusion was made about protective effect of pinacidil on mitochondrial functioning by economization of oxygen-dependent processes, adaptive potentialities of organisms with low resistance to hypoxia being increased.

[Interaction of metal cations with Ca2+-transport sites of the plasma membrane Ca2+ pump of secretory cells of gastric glands]. / Vzaiemodiia kationiv metaliv z Ca2+-transportuval'nymy tsentramy Ca2+-pompy plazmatychnoï membrany sekretornykh klityn shlunkovykh zaloz.

Investigation of Ca2+ transport by calcium pump of the cell plasma membrane of the gastric glands isolated from guinea pigs and its inhibition by metal cations has been performed. The mainly competitive type of Ca2+ translocation inhibition by the calcium pump by metals cations (0.025-1.00 mM) was determined. Potency of inhibition increases in such an order (I50, mM): Ba2+ (0.336) < Sr2+ (0.251) < Mn2+ (0.099) < Co2+ (0.029) < Cd2+ (0.016). It was shown by one-factor dispersion analysis that potency of inhibition depends on ionic radii and hydration enthalpy of metal cations and also on stability constants of their complexes with oxygen-containing bioligands (acetic, aspartic and glutamic acid) (hx2 = 83.73-85.95). Dependence of the inhibition constants (I50) on ionic radii is most adequately described by the parabolic equation, such a dependence on hydration enthalpy and stability constants with oxygen-containing bioligands--by exponential or multiplicative equations. The conclusion has been made that selective Ca2+ translocation by the calcium pump and its inhibition by metal cations is determined by the interaction between energy of their interaction with cation-binding sites of the transport system and energy of hydration. Energetics of such interactions depends on the steric factors. The physicochemical model of the Ca2+ selective translocation by calcium pump and its inhibition by metal cations has been proposed.

[Effect of L-arginine and the nitric oxide synthase blocker L-NNA on calcium capacity in rat liver mitochondria with differing resistance to hypoxia]. / Vplyv L-arhininu i blokatora syntazy oksydu azotu L-NNA na kal'tsiievu iemnist' mitokhondrii pechinky shchuriv z riznoiu rezystentnistiu do hipoksiï.

The effect of L-arginine and blockator of nitric oxide synthase L-NNA on processes of calcium mitochondrial capacity in liver with different resistance to hypoxia in the experiments with Wistar rats has been studied using the followrng substrates of energy support: succinic, alpha-ketoglutaric acids, alpha-ketolutarate and inhibitor succinatedehydrogenase malonate. As well we used substrates mixtures combination providing for activation of aminotransferase mechanism: glutamate and piruvate, glutamate and malate. It has been shown that L-arginine injection increases calcium mitochondrial capacity of low resistant rats using as substrates the succinate and alpha-ketoglutarate to control meanings of high resistance rats. Effects of donors nitric oxide on this processes limit NO-synthase inhibitor L-NNA.

[Dependence of the inhibitory effect of metal cations on rat liver mitochondrial Ca2+ uptake on their physico-chemical properties]. / Zalezhnist' inhibuiuchykh efektiv kationiv metaliv na pohlynanniia Ca2+ mitokhondriiamy pechinky shchuriv vid ïkhnikh fizyko-khimichnykh vlastyvostei.

It has been found that Sr2+, La3+ Mn2+ (10-50 microM) inhibit Ca2+ transport into mitochondria in a competitive manner. Cd2+ ions show the mixed type inhibition of this transport. The inhibitory constants (Ki, microM) of the metals cations effect on Ca2+ transport increases in such a sequence: La3+ (2,11), Cd2+ (10,36), Mn2+ (49,29), Sr2+ (66,43). The metals cations inhibitory effect has an insignificant dependence on their ionic radii. But it is good correlated with the series of metals cations, based on the stability constants of their complexes with acetate (r = -0.96), aspartic (r = -0.91) and glutaminic acids and their hydratation enthalpy (r = -0.78). These data reveal that hydratation of metals cations and their interaction with carboxyles of Ca(2+)-uniporter plays an important role in the process of Ca2+ transport into mitochondrial matrix space and its inhibition by the metals cations. The mixed type inhibition of mitochondrial Ca2+ uptake by Cd2+ seems to be caused by the partial de-energization of mitochondria owing to Cd2+ interaction with SH-containing respiratory chain components and pore-forming ligands of mitochondrial membrane.

[Effect of cations of transition metals on respiration and H+ production in liver mitochondria]. / Vplyv kationiv perekhidnykh metaliv na dykhannia ta produkuvannia H+ mitokhondriiamy pechinky.

Results obtained prove that respiration stimulation of mitochondria Ca2+, Sr2+, Mn2+ is determined by transport of these cations to the indicated subcellular structures with participation of Ca2(+)-uniporter. Effect of Cd2+ on respiration of mitochondria is of two-phase character. Concentration of Cd2+ being above 100 microM the stimulation phase is accompanied by the further inhibition of mitochondria respiration. La3+ inhibits respiration of mitochondria. However La3+ and Cd2+ stimulate H+ production by mitochondria, that is not blocked by ruthenium red (10 microM). Probably, the effect of La3+ and Cd2+ on respiration of mitochondria is determined by the change of proton conductivity of mitochondrion membrane. Direct inhibiting effect of Cd2+ on the respiration chain of mitochondria has been established.