Effect of K-ATP channel opener-pinacidil on the liver mitochondria function in rats with different resistance to hypoxia during stress

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.     

Effect of drugs on the resistance of the myocardium to hypoxia

A method for the investigation of drug effects in the myocardium resistance to hypoxia has been suggested. It is based on the determination of drug effects on the performance of the isolated spontaneously contracting atrium (ISCA) of rats under hypoxic conditions. Hypoxia was induced by oxygen displacement from the nutritional solution by nitrogen. ISCA resistance to hypoxia was assessed by the mechanogram of the heart preparation (the duration and volume of ISCA performance being up to 50% of the initial amplitude). Using the inhibitor analysis, it has been demonstrated that the given model of myocardial hypoxia adequately reflects the role of energy cellular metabolism in the regulation of ISCA resistance to hypoxia and can be used in the search for myocardial antihypoxic agents.     

Role of ATP-sensitive potassium channel activators in liver mitochondrial function in rats with different resistance to hypoxia

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.     

Lung mechanics and end-expiratory lung volume during hypoxia in rats.

We investigated whether an hypoxia-induced increase in airway resistance mediated by vagal efferents participates in the increase in end-expiratory lung volume (EELV) observed in hypoxia. We also assessed the contribution of the end-expiratory activity of the diaphragm (DE) to this phenomenon. Therefore, we measured EELV, total lung resistance (RL), dynamic lung compliance (Cdyn), DE, and minute ventilation (VE) in anesthetized rats during normoxia and hypoxia (10% O(2)) before (control) and after administration of atropine or saline. In the control group, hypoxia increased EELV, Cdyn, DE, and VE but slightly decreased RL. These changes were unaffected by saline or atropine, except that, in the atropine-treated rats, hypoxia did not change RL. These results suggest that 1) the increase in EELV observed in hypoxia cannot result from an increase in airway resistance; 2) the increased and persistent activity of inspiratory muscles during expiration is the most likely cause of the increase in EELV during hypoxia; and 3) the decrease in RL induced by hypoxia could result from the increase in lung volume including EELV.     

Comparative analysis of ECG characteristics in pregnant rats subjected to acute hypoxia in the period of organogenesis

Various ECG characteristics are investigated in white rats subjected to acute hypobaric hypoxia on the 9th–10th day of gestation corresponding to the period of organogenesis. The hypoxia-induced changes in the ECG characteristics are different in groups with a low, middle, and high resistance to acute hypoxia.     

NO-dependent effects during adaptation of rats to intermittent hypoxia

In experiments on Wistar rats processes nitric oxide production on concentration of anions (NO2-, NO3-), carbamide and polyamines contents were investigated in processes of rats adaptation to acute hypoxia (7% O2 in N2, 30 min) and intermittent hypoxia training (10% O2 in N2, 15 min, 5 cycles daily) during 14 days. NO production by oxygen-dependent and oxygen-independent metabolites paths has been investigated. It is concluded that the disturbances in nitric oxide system induced by acute hypoxia by L-arginine injections may result in acute hypoxia.     

Effect of L-arginine and the nitric oxide synthase blocker L-NNA on calcium capacity in rat liver mitochondria with differing resistance to hypoxia

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.     

Chronic hypoxia attenuates nitric oxide-dependent hemodynamic responses to acute hypoxia

Alterations in the nitric oxide (NO) pathway have been implicated in the pathogenesis of chronic hypoxia-induced pulmonary hypertension. Chronic hypoxia can either suppress the NO pathway, causing pulmonary hypertension, or increase NO release in order to counteract elevated pulmonary arterial pressure. We determined the effect of NO synthase inhibitor on hemodynamic responses to acute hypoxia (10% O(2)) in anesthetized rats following chronic exposure to hypobaric hypoxia (0.5 atm, air). In rats raised under normoxic conditions, acute hypoxia caused profound systemic hypotension and slight pulmonary hypertension without altering cardiac output. The total systemic vascular resistance (SVR) decreased by 41 +/- 5%, whereas the pulmonary vascular resistance (PVR) increased by 25 +/- 6% during acute hypoxia. Pretreatment with N(omega)-nitro-L-arginine methyl ester (L-NAME; 25 mg/kg) attenuated systemic vasodilatation and enhanced pulmonary vasoconstriction. In rats with prior exposure to chronic hypobaric hypoxia, the baseline values of mean pulmonary and systemic arterial pressure were significantly higher than those in the normoxic group. Chronic hypoxia caused right ventricular hypertrophy, as evidenced by a greater weight ratio of the right ventricle to the left ventricle and the interventricular septum compared to the normoxic group (46 +/- 4 vs. 28 +/- 3%). In rats which were previously exposed to chronic hypoxia (half room air for 15 days), acute hypoxia reduced SVR by 14 +/- 6% and increased PVR by 17 +/- 4%. Pretreatment with L-NAME further inhibited the systemic vasodilatation effect of acute hypoxia, but did not enhance pulmonary vasoconstriction. Our results suggest that the release of NO counteracts pulmonary vasoconstriction but lowers systemic vasodilatation on exposure to acute hypoxia, and these responses are attenuated following adaptation to chronic hypoxia.     

The effects of indomethacin on the pulmonary vascular response to hypoxia in the premature and mature newborn goat.

The effects of indomethacin on the pulmonary circulation and the response of the circulation to hypoxia were investigated in premature and mature newborns using an isolated perfusion technique on otherwise intact left lungs in situ. There was an increase in pulmonary vascular resistance and augmentation of the increase in pulmonary vascular resistance during hypoxia following indomethacin. These effects were greater in the premature than in the mature newborn. Indomethacin effectively removes a dilator influence on the pulmonary circulation. The results are consistent with the concept that prostaglandins are important in regulating pulmonary vascular resistance.     

Lipid composition of Escherichia coli in relation to resistance to penicillin.

Clinical isolates of Escherichia coli sensitive and resistant to penicillin were compared in lipid composition and 14C-labelled penicillin uptake, as possible factors in resistance. Except for a slight increase in the triglyceride fraction in sensitive strains there were no qualitative or quantitative differences in the classes of extractable lipids present. Gas-liquid chromatography of the phospholipid and triglyceride fatty acids of the polar and non-polar fatty acids of the bound lipids showed that the same kinds of fatty acids were present. There was an increase of myristate in the chloroform-methanol extractable lipids of highly resistant strains accompanied by a rather general decrease of other fatty acids. Gas-chromatographic analysis of the polar-bound lipids showed an increase of the beta-hydroxydecanoic acid in the resistant strains. By studying the uptake of 14C-labelled benzylpenicillin and the crypticity of the beta-lactamase, evidence has been produced that a decreased permeability of resistant strains to penicillin cooperates with beta-lactamase to induce a high level of resistance. The altered lipid metabolism may reflect the special architectural changes in the cell wall which cause decreased permeability.     

Effect of L-arginine and N(omega)-nitro-L-arginine on oxidative phosphorylation and lipid peroxidation in rats with various tolerance to hypoxia under stressful conditions

The influence of L-arginine (600 mg/kg) and NO-synthase blocator N omega-nitro-L-arginine L-NNA (35 mg/kg) on processes of ADP-stimulated respiration (under using 0.35 mM succinate, 1 mM alpha-ketoglutarate, 2 mM pyruvate, 2 mM glutamate, 2 Mm malate and succinate dehydrohenase blocator--2 mM malonate as substrates of oxidation), lipid peroxidation (concentration of DK and MDA), activities of succinate dehydrohenase and aminotransferases in rats tissues with different resistance to hypoxia under stress conditions have been investigated. It have been shown that the energy metabolism indices (respiration rate and efficiency of phosphorilation ADP/O) are higher in high resistent (HR) animals in the control group. Stress causes the increase of ADP-stimulated respiration in low resistent (LR) under succinate oxidation and decrease of NADPH-dependent utilization, indicative of more effort of energy system in LR animals. Stress conditions are connected with the increase of lipid peroxidation products in blood both in LR and in HR animals, though in hepar their concentration change unimportantly. Injection of L-arginine decreases aerobic component of energy metabolism on the background decreasing aminotransferases ways of oxidation and succinate dehydrohenase activity. L-arginine causes decrease of lipid peroxidation products in LR, in HR the same effect reaches by L-NNA injection. The has been made conclusion about tight correlation between energy metabolism, processes of lipid peroxidation with resistance to hypoxia and functioning of nitric oxide cycle under stress conditions.     

Pulmonary vascular resistance in adult rats exposed to hypoxia in the neonatal period

Newborn rats were exposed to hypoxia (10% O2 + N2) from 24 h to day 6 of neonatal life and then returned to room air until 45 days of age (experimental). The rats were anaesthetized, heparinized, and exsanguinated. The chest was opened and the lungs were perfused with diluted autologous blood at a constant flow rate (Q). The pulmonary arterial pressure (Pa) and venous pressure (Pv) were monitored. The properties of the pulmonary vasculature were assessed by measuring baseline vascular resistance, PVR = (Pa-Pv)/Q, segmental pressure gradients (double occlusion technique), pressure-flow relationship, hypoxic pressor response (HPR, 3% O2), and the response to 0.5 microgram bolus of angiotensin II (AII). These were compared with similar measurements on age-matched control animals never exposed to hypoxia. The perfusate hematocrit and gases were not significantly different between the two groups. The PVR normalized to body weight was 30% higher in the experimental groups (p less than 0.005). The double occlusion results (obtained at a flow rate of 13 mL/min) revealed that this increase in resistance was primarily due to the increase in the postcapillary resistance. HPR was primarily in the upstream segment in both groups but was larger in the experimental group. In contrast, the response to AII occurred in both the upstream as well as in the downstream vascular segments and did not differ between the two groups. We conclude that adult rats exposed to hypoxia in the neonatal period have elevated pulmonary vascular resistance and increased vascular reactivity to hypoxia.     

Effect of past stress on the resistance of the myocardium to hypoxia

The effect of emotional painful stress on myocardial contractility and resistance to hypoxia was studied on the rat isolated atrium. It was established that in stress-exposed rats, myocardial resistance to hypoxia was reduced and contractility was depressed. It was manifested in accelerated development and greater degree of hypoxic contracture, as well as in a slower recovery of myocardial contractility under reoxygenation. The decreased myocardial resistance to hypoxia under stress is suggested to be related to the stress-induced alterations in glycolysis and calcium transport in cardiomyocytes.     

Inheritance of low-level resistance to penicillin, tetracycline, and chloramphenicol in Neisseria gonorrhoeae.

The genetics of low-level resistance to penicillin and other antibiotics in a clinical isolate and a multistep laboratory mutant of Neisseria gonorrhoea was studied by transformation. Mutations at three loci affected sensitivity to penicillin. Mutation at penA resulted in an eightfold increase in resistance to penicillin without affecting response to other antimicrobial agents. Mutation at ery resulted in a two- to fourfold increase in resistance to penicillin and similar increases in resistance to many other antibiotics, dyes, and detergents. Mutation at penB resulted in a fourfold increase in resistance to penicillin and tetracycline, the phenotypic expression of which was dependent on the presence of mutation at ery. The cumulative effect of mutations at penA, ery, and penB was an approximate 128-fold increase in penicillin resistance, to a minimum inhibitory concentration of 1.0 mug/ml. Low-level resistance to tetracycline or chloramphenicol was due to similar additive effects between mutations at the nonspecific ery and penB loci and a locus specific for resistance to each drug (tet and chl, respectively). No evidence was found for penicillinases or other drug-inactivating enzymes.     

Increased number of sympathetic neurons in the superior cervical ganglia of rats of SHR and Wistar-Kyoto strains as compared with Wistar rats

With histological technique increased number of sympathetic neurons in cranial ganglia of SHR and Wistar-Kyoto rats in comparison with Wistar line has been shown. The resistance to hypobaric hypoxia (simulated altitude 12000m) was also enhanced in SHR and WKY rats.     

Structural organization of the adrenal cortex in rats with different types of autonomic reactivity under standard conditions and after exposure to different altitudes

The structural organization of adrenal cortex has been studied in intact rats and after short-term hypoxia exposure on different altitudes (2, 6, 8, 11 km). Previously rats have been divided into 3 groups by adrenaline test for determining of vegetative reactivity type. It has been found that some histochemical and morphometric indices of adrenal cortex had peculiarities with respect to type of vegetative reactivity (width of zones, their ratio, nuclear diameter, ascorbic acid content and its distribution and other) in intact rats. Under altitude these differences form individual character of steroidogenesis and determine resistance and reactivity of organism.     

Beta-hydroxybutyrate and response to hypoxia in the ground squirrel, Spermophilus tridecimlineatus

1. Previous studies have suggested that elevated ketone levels are associated with increased survival time in rodents exposed to hypoxia. In this study the association between whole blood BHB (beta-hydroxybutyrate) and hypoxic survival time was investigated in hibernating and non-hibernating ground squirrels and in rats. 2. Non-hibernating ground squirrels and rats were exposed to hypoxia (4.5% O2). One hundred per cent of ground squirrels survived 1 hr of hypoxia vs 20% of rats. 3. Ketone levels were significantly higher in ground squirrels than rats during hypoxia, and rats surviving the longest had the highest ketone levels. 4. When hibernation was induced in ground squirrels there was a significant increase in beta-hydroxy-butyrate from 0.45 to 1.6 mM (P = 0.0005). 5. Ground squirrel heart mitochondrial respiratory control ratios and ATP synthesis rates indicated no preferential ketone utilization which might suggest a possible extramitochondrial role of BHB during hypoxia. 6. We conclude that elevated blood BHB levels are associated with increased hypoxic survival and they may have evolved in response to life-threatening hypoxia as experienced during hibernation.     

Reaction of rats to the effect of hyperbaric oxygenation after preliminary adaptation to hypoxia

Preliminary adaptation of rats to hypoxia in the regimen exceeding the resistance to many stress agents not only produced no protective effect in response to the action of increased oxygen pressure (IOP) up to 6 kg/cm2, but, on the contrary, decreased the organism resistance. Thus, the time of occurrence of convulsions in the adapted rats was shortened, particularly when IOP acted 24 or 48 hours after the termination of training to hypoxia; this effect was somewhat weaker in experiments conducted in 3 to 4 days. Reactions became completely normal one month after the termination of training to hypoxia. Possible causes of the phenomena detected are discussed.     

Chronic hypoxia increases fetoplacental vascular resistance and vasoconstrictor reactivity in the rat

An increase in fetoplacental vascular resistance caused by hypoxia is considered one of the key factors of placental hypoperfusion and fetal undernutrition leading to intrauterine growth restriction (IUGR), one of the serious problems in current neonatology. However, although acute hypoxia has been shown to cause fetoplacental vasoconstriction, the effects of more sustained hypoxic exposure are unknown. This study was designed to test the hypothesis that chronic hypoxia elicits elevations in fetoplacental resistance, that this effect is not completely reversible by acute reoxygenation, and that it is accompanied by increased acute vasoconstrictor reactivity of the fetoplacental vasculature. We measured fetoplacental vascular resistance as well as acute vasoconstrictor reactivity in isolated perfused placentae from rats exposed to hypoxia (10% O(2)) during the last week of a 3-wk pregnancy. We found that chronic hypoxia shifted the relationship between perfusion pressure and flow rate toward higher pressure values (by approximately 20%). This increased vascular resistance was refractory to a high dose of sodium nitroprusside, implying the involvement of other factors than increased vascular tone. Chronic hypoxia also increased vasoconstrictor responses to angiotensin II (by approximately 75%) and to acute hypoxic challenges (by >150%). We conclude that chronic prenatal hypoxia causes a sustained elevation of fetoplacental vascular resistance and vasoconstrictor reactivity that are likely to produce placental hypoperfusion and fetal undernutrition in vivo.     

Significance of individual resistance to hypoxia for the correction of the brain trauma sequelae

In rats, the individual sensitivity to hypoxia plays an prominent role for recovery of animals after mechanic brain injury. Enthomerzol (25 mg/kg intraperitoneally) for three days after brain injury decreased behavioral disorders in rats with different resistance to acute hypoxia, recovered structure of individual behavior, prevented metabolic disorders in brain. Therefore, antihypoxant ethomerzol is effective as a drug against hypoxia due to brain injury.