Age-related differences in the effect of glucagon on metabolism in rat liver.

The authors found differences in the metabolic response of 10- and 120-day-old rats to glucagon. In 10-day-old young, the administration of glucagon was followed in 5 min by an abrupt small increase in the blood sugar level, which continued to rise and attained the maximum 2 hours after the injection of glucagon. In adult rats there was an abrupt large increase in the blood sugar level in the first minutes after administering glucagon; after that the blood sugar level fell, but remained significantly higher than in the controls. In a series of experiments on the isolated perfused liver, no differences were found in glucose and protein release from the liver into the perfusion medium, but the protein concentration in the liver of the younger rats fell. The results show that the liver of young rats, after the injection of glucagon, draws on its own protein resources for the substrates needed for gluconeogenesis.     

The effect of osmotic pressure on oligomycin-sensitive ATPase activity and the liberation of Mg2+ from liver mitochondria of rats of various ages]

The influence of osmotic pressure of the incubating medium (25-500 mM sucrose) on oligomycin--sensitive, 2,4-dinitrophenyl-stimulated ATP-ase-activity, Mg2+ release and swelling of the liver mitochondria in 1-, 3-, 12-, 24-months Wistar rats is, investigated to determine age changes of structurally functional state of mitochondria. An increase in the sucrose concentration in the medium from 150 to 500 mM causes almost equal and practically absolute inhibition of ATP-ase-activity in different-age groups of rats, regardless of the presence or absence of Mg2+ ions in the medium A fall of the sucrose concentration to 150-25 mM induces a decrease in mitochondria ATP-ase-activity in Mg2+ free medium in 12- and 24-months rats (to 30 and 22%, respectively). No changes are observed in 1- and 3-months animals. Differences in rates of exogenous NADH oxidation by mitochondria of 1- and 12-months rats as a reflection of inner membrane damage degree are not observed under these conditions. Relative changes in ATP-ase-activity in a Mg2+ free medium with sucrose concentration of 25 mM (compared with 150 mM) correlate (r = 0.82) with those of optical density of mitochondria, measured at light wave length of 520 nm. It is obvious that the liver mitochondria of young and old rats sufficiently differ in spontaneous swelling rate in the media with different osmotic pressure: mitochondria of 1-month rats swell much faster than those of old rats. Considerable age differences of osmotic dependence of Mg2+ output from mitochondria are observed. They depend also on peculiarities of spontaneous organelle swelling dynamics.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of hyperglycemia and hyperthermia on liver mitochondrial respiration and blood glucose content of rats during postnatal ontogenesis]

Correlation between glucose level in blood and liver mitochondrial energetics of 1, 10, 20-days rats under hyperglycemia and high environmental temperature (38 degrees C) has been studied. Glucose feeding led to a significant increase of glucose content in blood, this increase being less at hyperthermia. Glucose feeding strengthened the oxidation of such intermediates as succinate (Krebs cycle), pyruvate and malate (hydrocarbonates) and caprylate (lipid). High environmental temperature with hyperglycemia suppresses the liver mitochondria breathing, hydrocarbon and lipid intermediates being used; the suppression is less in the presence of succinate. It is found that liver mitochondria of growing rats at different experimental conditions oxidize different intermediates with various rates. These data can be explained in the light of ontogenetic evolution of the energetic apparatus. It is supposed that exogenic glucose is the factor which activates growing processes of animals and to certain extent diminishes the negative influence of hyperthermia on the organism.     

The effect of osmotic pressure on the mobility and metabolism of human spermatozoa]

When human sperm was suspended in a hypertonic medium, their motility is damaged and their oxygen consumption is reduced. Hypotonic conditions are more disastrous because the cells become immotile. These results are discussed with reference to high osmolarity of seminal fluid.     

The effect of pressure on fetal and neonatal liver mitochondrial membranes

The effects of pressure on late fetal and neonatal rat liver mitochondria have been investigated. High hydrostatic pressure, as produced by isopycnic centrifugation in sucrose and glycogen gradients, altered the mitochondrial membranes of 1- and 7-day-old rats. Most of the mitochondrial enzymes, chosen for their known submitochondrial location, had a trimodal distribution in the sucrose gradients. In the glycogen gradients, a shift of the mitochondria to a lower density was noticed. Fetal liver mitochondria were resistant to the hydrostatic pressure exerted during isopycnic centrifugation experiments under different conditions such as sucrose and glycogen density gradients. The submitochondrial compartment tracer enzymes exhibited an unimodal distribution. Experimental temperatures set at 15 degrees C had a protective effect from hydrostatic pressure alterations in the neonatal liver mitochondria, whereas no effects were noticeable in the fetal mitochondria. Experiments in a hydraulic compression chamber showed that outer membranes of fetal mitochondria were more fragile and the inner membranes more resistant to compression than in the early stages after birth.     

Influence of menhaden oil on mitochondrial respiration in BHE rats

The effects of corn or menhaden oil and thyroxine treatment on hepatic mitochondrial respiration was studied. BHE rats were fed a 64% sucrose, 6% corn, or menhaden oil diet until they were 60-70 days of age. Succinate-supported mitochondrial respiration was studied at 3 degrees C intervals from 4 to 40 degrees C. Upper and lower activation energies and transition temperatures were determined through the calculation of Arrhenius plot. Menhaden oil plus daily thyroxine injection resulted in higher and lower activation energies than the other treatments. This combined treatment also resulted in lower state 3 and higher state 4 respiration rates and tighter coupling of respiration to ATP synthesis. These effects were thought to be due to the effect this treatment combination had on membrane fluidity.     

Effect of hydrostatic pressure on halothane-induced depression of mitochondrial respiration

Anesthetized animals are awakened when subjected to increased atmospheric pressure. Whether all phenomena associated with the anesthetic state are similarly reversed is not known. Since the anesthetic halothane produces a dose-related reversible depression of rat liver mitochondrial respiration, the effect of 51 atmospheres of pressure on the drug's action was evaluated. It is concluded that application of pressure does not antagonize the inhibition produced by this anesthetic.     

Effect of phytoecdisteroids and anabolic steroids on liver mitochondrial respiration and oxidative phosphorylation in alloxan diabetic rats

Administration of phytoecdisteroides ecdisterone and turkesterone in the dose of 5 mg/kg and anabolic steroid preparation nerobol in the dose 10 mg/kg in rats with experimental diabetes removes the activation of respiration under all metabolic conditions of rats liver mitochondria revealing at given pathology. The normalized effect of phytoecdisteroides on the cells energetic processes is observed on the 7th day of the administration. The same effect of nerobol is revealed at more prolonged (15 days) administration.     

Kidney mitochondrial respiration in protein- and energy-malnourished rats

Several lines of evidence show a close association between plasma membrane Na,K-ATPase and mitochondrial respiration. Extending the observation in human erythrocyte membrane (6), Na,K-ATPase activity has been shown to be elevated in kidney microsomal preparations from protein- and energy-malnourished rats (10). Kidney mitochondrial respiration was studied in these rats under various conditions of assay. Sucrose was used as a modifier of mitochondrial morphology and volume to study its effect on these mitochondria. Mitochondrial state 3 respiration was increased by 35% in protein-deficient rats (P less than 0.02). Vmax(ADP) of state 3 respiration was increased by about 47% in protein- as well as energy-restricted rats. Mitochondria from protein- and energy-deficient rats were more tightly coupled as compared to those from control group. Km apparent for (ADP) and (Pi) were elevated in protein- and energy-malnourished rats. The magnitude of increase was much more in energy-deficient rats. Morphological differences between the mitochondria from two dietary manipulations were reflected in differences in the responses of state 3 respiration, Km(ADP), state 4 respiration, and respiratory control ratios to changing sucrose concentrations. This increase in mitochondrial respiration parallels the increased Na,K-ATPase activity in these rats. Increased Km (ADP and Pi) for mitochondrial respiration are perhaps in response to increased availability of these metabolites in the cytosol. The sucrose effect, in addition, distinguishes the morphological differences in mitochondrial membrane due to protein or energy deficiencies. In conclusion, these results, to a great extent, support an association between the activity of Na,K-ATPase and mitochondrial respiration. The study of mechanism(s) which could contribute to the enhancement of mitochondrial respiration will be of general importance to the understanding of regulation of mitochondrial oxidative phosphorylation, and is of particular interest to us.     

Age-related differences in the inhibition of DNA synthesis in the liver of albino rats by proliferation inhibitors of chalone type

It was demonstrated that during postnatal ontogenesis, the heterogeneity of endogenous inhibitors of DNA synthesis in albino rat liver does not change. Upon ageing, the sensitivity of liver cells to the inhibiting effect of chalone-containing extracts and the functional activity of the inhibitor are diminished.     

Protective effect of dietary squalene supplementation on mitochondrial function in liver of aged rats

Mitochondria are an important intracellular source and target of reactive oxygen species. The life span of a species is thought to be determined, in part, by the rate of mitochondrial damage inflicted by oxygen free radicals during the course of normal cellular metabolism. In the present study, we have investigated the protective effect of squalene supplementation for 15 days and 30 days on energy status and antioxidant defense system in liver mitochondria of 18 young and 18 aged rats. The dietary supplementation of 2% squalene significantly minimized aging associated alterations in mitochondrial energy status by maintaining the activities of TCA cycle enzymes (isocitrate dehydrogenase, α-ketoglutarate dehydrogenase, succinate dehydrogenase and malate dehydrogenase) and respiratory marker enzymes (NADH dehydrogenase and cytochrome-c-oxidase) at higher level in the liver mitochondria of aged rats compared with unsupplemented controls. It exerted an antioxidant effect by inhibiting mitochondrial lipid peroxidation (malondialdehyde) in liver of young and aged rats. Supplementation with squalene also maintained the mitochondrial antioxidant defense system at higher rate by increasing the level of reduced glutathione and the activities of glutathione-dependent antioxidant enzymes (glutathione peroxidase and glutathione-S-transferase) and antiperoxidative enzymes (superoxide dismutase and catalase) in the liver of young and aged rats. The results of this study provide evidence that dietary supplementation with squalene can improve liver mitochondrial function during aging and minimize the age-associated disorders in which reactive oxygen species are a major cause.     

Effect of water and food deprivation in pregnant rats on mitochondrial respiration and the state of gluconeogenesis in the rat pup liver

Wistar female rats were submitted to a water and food deprivation (food and water were restricted by 50% as compared to those consumed by control animals) during the entire pregnancy. There were 6 to 8 pups in the litters of experimental dams, the body weight of these pups being significantly lower than in control. In liver homogenates from deprived animals, intensity of gluconeogenesis was decreased by 50% or more, and gluconeogenesis precursors did not stimulate the glucose synthesis. Oxidation of pyruvate and malate as well as of caprylate by liver mitochondria remained significantly lower than in control from the postnatal day 10 to 2 months. A possible role of energetic disturbances in underdevelopment of animals submitted to the water and food deprivation during the intrauterine development is considered.     

Effect of water and food deprivation in pregnant rats on mitochondrial respiration and the state of gluconeogenesis in the rat pup liver

Wistar female rats were submitted to a water and food deprivation (food and water were restricted by 50% as compared to those consumed by control animals) during the entire pregnancy. There were 6 to 8 pups in the litters of experimental dams, the body weight of these pups being significantly lower than in control. In liver homogenates from deprived animals, intensity of gluconeogenesis was decreased by 50% or more, and gluconeogenesis precursors did not stimulate the glucose synthesis. Oxidation of pyruvate and malate as well as of caprylate by liver mitochondria remained significantly lower than in control from the postnatal day 10 to 2 months. A possible role of energetic disturbances in underdevelopment of animals submitted to the water and food deprivation during the intrauterine development is considered.