Induction of phosphoenolpyruvate carboxykinase by hydrocortisone in rat liver and brain as a function of age

The activity and induction pattern of phosphoenolpyruvate carboxykinase (PEPCK) in the liver and brain of young (6-), adult (30-) and old (90-weeks) male rats were studied. The activity of this enzyme increases in both tissues until adulthood and decreases gradually thereafter. Further, the activity of PEPCK is higher in the liver than the brain. Adrenalectomy decreases significantly the activity of this enzyme in the liver of rats of all ages. However, this treatment inhibits brain PEPCK in young and adult rats. Administration of hydrocortisone to adrenalectomized rats increases PEPCK in both tissues of young and adult rats. However, the magnitude of induction is higher in the young, as compared to the adult, rats. This hormone-mediated induction of the enzyme is actinomycin D-sensitive.     

The influence of chromium chloride consumption on lipid peroxidation and activity of the antioxidant defense in rat tissues

The effect of food supplementation with chromium (CrCl₃ · 6H₂O) on intensity of peroxide processes and activity of antioxidant enzymes has been investigated in some rat tissues. Food supplementation with 200 μg/kg CrCl₃ · 6H₂O for 30 days resulted in the increase of tissue chromium. The tissue chromium content of chromium-treated rats decreased in the following order: spleen, heart, kidney, lung, brain, liver, skeletal muscles. All organs and tissues (except skeletal muscles) of chromium-treated rats were characterized by decreased content of lipid peroxidation (LPO) products: hydroperoxides and thiobarbituric acid reactive substances (TBARS). The maximal reduction in LPO products was observed in spleen, kidney, liver, and lung. Treatment with chromium also caused an increase in the activity of glutathione peroxidase, glutathione reductase, and calatase in all tissues and organs studied. In the brain and kidney an increase in the content of reduced glutathione was observed. Superoxide dismutase activity was higher in myocardium and skeletal muscles, basically equal in lung and liver, while in other organs (brain, kidney, spleen) of experimental animals it was lower than in control animals. Results of this study suggest that chromium exhibits tissue/organ-specific regulatory effects on enzymes of the antioxidant defense     

Effect of electrostimulation of the hypothalamus on protein biosynthesis in organs of adult and aged rats

The effect of hypothalamus electrical stimulation on total protein biosynthesis was studied in skeletal muscle, heart, liver, adrenal cortex and thyroid gland of adult rats. In adult animals hypothalamus stimulation provokes a pronounced increase in 3H-leucine incorporation into total protein of all tissues, as well as into liver chromatin proteins. No significant changes were observed in protein biosynthesis when hypothalamus of old rats was stimulated. This can serve as evidence of age-related decrease in the ability of the hypothalamus to stimulate protein synthesis in peripheral tissues.     

Effect of stress experienced during pregnancy on the rate of lipid peroxidation in erythrocytes and brain tissue of newborn rat pups

The rate of lipid peroxidation (LPO) in erythrocytes and brain homogenate has been assessed by the accumulation of malondialdehyde, the degree of erythrocyte autohemolysis, the content of hydrogen peroxide and catalase activity observed in newborn rats aged 1 hour, 1, 15, 20 and 30 days. Pregnant rats were exposed to emotional stress (aggressive interaction of two pregnant rats in an unavoidable conflict situation provoked by nociceptive irritation. Significant age-dependent differences in the rate of LPO (both in erythrocytes and cerebral tissue) have been found. The highest rate was noted in rats 15 days of age. The emotional stress of pregnant females resulted in the changes of behavioural reactions of newborn rats and LPO activity that was characterized by the increase in LPO rate in 1-hour- and 1-day-old rats and by slowing of LPO rate in 15-day-old rats. These phenomena were observed in erythrocytes and brain tissues of test animals.     

A comparison by species, age and sex of cysteinesulfinate decarboxylase activity and taurine concentration in liver and brain of animals

Cysteinesulfinate decarboxylase activity and taurine concentration were determined in liver and brain of rats, mice, cats, guinea-pigs and sheep. Values were compared for male and female animals and in some cases measurements were also made in animals of different ages. Cysteinesulfinate decarboxylase activity and taurine concentration were also measured in liver and brain of male and female rat pups during the postnatal period. Hepatic cysteinesulfinate decarboxylase activity increased in both male and female rat pups during the postnatal period and then declined markedly in female rats so that activity in adult males was 16-fold that in adult females. Cysteinesulfinate decarboxylase activity in liver of 5- to 6-week old kittens was 73 times that observed in liver of 15-month old cats. Taurine level in liver of guinea-pigs was much lower than that in liver of any other species studied.     

Ultrastructural characteristics of the cerebral capillaries of aging animals subjected to hypoxic hypoxia

The ultrastructure of capillary walls of the mamillary bodies was studied in rats distributed in two age groups: adult (6-8-month-old) and old (28-30-month-old) animals under hypoxic hypoxia. It was found that age-related differences in the response of brain capillary walls to the injuring agent were reduced to a rapid increase in dystrophic phenomena and less conspicuous compensatory processes seen in the old animals. More profound injuries to other brain tissues adjacent to the vessels were also indicative of less efficacy of the adaptive reactions in the old animals.     

Effect of glutathione on the proteolytic degradation of tissue proteins in young and old rats

The proteolysis rate of the total liver, brain and testicle homogenates from young and old rats was studied by proteolytic enzymes. The level of autolytic destruction of brain and liver proteins decreases with aging. The total liver, brain and testicle proteins of young animals are splitted by pronase faster than the proteins of the old ones. Addition of reduced glutathione to the reaction mixture causes an increase in the rate of liver and brain proteins splitting by pronase in old rats up to the level determined for the young animals. At the same time the effect of glutathione on the testicle tissue of old animals was not observed.     

Influence of age on lead-induced oxidative stress in rat

Influence of age on lead-induced oxidative stress was investigated in young, adult, and old rats maintained on 0.2% lead acetate (2000 ppm lead) in drinking water for 3 mo. The lead-induced depletion of blood and liver reduced glutathione was about equal in young and adult but not in old rats. The increases in blood, liver, and brain oxidized glutathione and blood and liver superoxide dismutase levels were related to the accumulation of lead in these tissues and followed the order young >adult>old. The lead-induced inhibition of blood δ-aminolevulinic acid dehydratase activity, lowering in hemoglobin, and enhanced urinary excretion of δ-aminolevulinic acid were independent of variation in age. The results indicate that young rats may be most sensitive, whereas old rats may be most resistant to some of the oxidative effects of lead examined, which may be related to the accumulation of lead.     

The inhibition stage of lipid peroxidation during stress

Stress is shown to induce at first the generalized inhibition of lipid peroxidation (LPO), and then the activation of LPO. In brain and blood serum of rats subjected to continuous footshock as well as to restraint stress LPO products decreased and superoxide scavenging activity increased during the initial period of stress, after 1 hour of footshock LPO indices nearly reached normal values, and after 2 hours of footshock the accumulation of LPO products and decrease of superoxide scavenging activity were seen. LPO inhibition was accompanied by accumulation of easy oxidizable brain phospholipids and by depletion of brain cholesterol, during LPO activation brain cholesterol content and cholesterol-phospholipid ratio increased. The content of LPO products--fluorescent Schiff bases in blood plasma of women suffering from algomenorrhea at first decreased (O-12 h) and then dramatically increased (12-24 h) after a onset of pain at the beginning of menstruation. The data suggest that the stage of LPO inhibition precedes its activation during stress.     

Protective effects of melatonin and N-acetylserotonin on aflatoxin B1-induced lipid peroxidation in rats

Aflatoxin B1 (AFB1) is a potent hepatotoxic and hepatocarcinogenic mycotoxin. Reactive oxygen species are considered to participate in the main mechanism of aflatoxin toxicity. Melatonin (Mel) is a hormone which has antioxidative activities. N-acetylserotonin (NAc-5HT) is an immediate precursor of Mel. Melatonin is documented to be completely safe in humans and animals. The aim of our study was to examine the potential protective effects of Mel or NAc-5HT against lipid peroxidation (LPO), caused by AFB1 in male Wistar rats. Mel and NAc-5HT were intraperitoneally (i.p.) injected for 3 weeks in late afternoon (16:00-18:00) injections (20 mg kg(-1) BW/daily). AFB1 (50 microg kg(-1) BW/daily) was administered i.p. 6 h prior to indoleamine injections. Concentrations of malondialdehyde + 4-hydroxyalkenals (MDA + 4-HDA), as an index of LPO, were measured in liver, brain, lung, testis and kidney homogenates. The level of LPO in tissue homogenates was expressed as the amount of MDA + 4-HDA (nmol) per milligram of protein. AFB1 increased LPO in the liver, lung, brain and testis, but not the kidney. The increase of LPO caused by AFB1 injections was completely prevented by either Mel or NAc-5HT in all the tissues examined. Melatonin can be considered as a protective pharmacological agent in intoxication with AFB1 and the protective effect of NAc-5HT against aflatoxin-induced LPO broadens the knowledge about its antioxidative properties.     

Regulation of NAD- and NADP-linked isocitrate dehydrogenase by hydrocortisone in the brain and liver of male rats of various ages

The activity and hormonal regulation of NAD- and NADP-linked isocitrate dehydrogenase (EC 1.1.1.41 and 1.1.1.42, respectively) in the brain and liver of rats of various ages were investigated. The activity of NAD-linked isocitrate dehydrogenase of the brain was greater than cytoplasmic or mitochondrial NADP-linked isocitrate dehydrogenase. In contrast, the cytoplasmic NADP-isocitrate dehydrogenase of the liver predominates over both NAD- and mitochondrial NADP-isocitrate dehydrogenases at the three ages studied. The activity of NAD-isocitrate dehydrogenase increased in the brain (139%) and liver (17%) of rats upt o 33 weeks of age and decreased (57 and 39%, respectively) in old rats (85-week-old). The activity of cytoplasmic NADP-isocitrate dehydrogenase was maximum in immature (6-week-old) rat brain and decreased as the age of the rats increased; whereas, in liver, the activity of this enzyme was found to be maximum in adult rats (33-week-old). Brain mitochondrial NADP-isocitrate dehydrogenase activity increased (64%) in adult rats, but in liver it decreased (45 and 33% in 33- and 85-week-old rats, respectively). In both tissues, adrenalectomy and hydrocortisone treatment showed differential age-dependent response. Hydrocortisone-mediated induction of the level of enzymes was inhibited by actinomycin D.     

Changes in the proteolytic activity of tissues during aging

The intensity of proteolytic processes and qualitative composition of autolysis products of the brain, liver and testicle tissues of young and old rats were studied. The gel-chromatographic analysis (Sephadex G-15 and G-50) revealed no considerable amount of high-molecular peptides (1500 Da and over) before and after autolysis. The measurement of the quantity of free amino groups in the gel-chromatographic fraction after the complete acid hydrolysis has confirmed that result. The low-molecular peptides and free amino acids, are the main products of the tissue autolysis. The intensity of proteolytic processes, determined by an increase in the amount of amino acids depends on the autolysis duration and age of animals. The total increment of amino acids in the brain and liver tissues of old animals for the first hour of autolysis has been higher by 102 and 219% as compared to young ones. The autolysis of testicles of the young and old animals after the first hour of incubation is characterized by the same intensivity. Such a regularity is not revealed when analyzing the same processes by the Lowry method.     

Study of heterocycle rings binding to human serum albumin

Doxorubicin continues to be one of the most widely used anticancer agents in the clinic despite its dose-limiting side-effects. Many of doxorubicin's dose-limiting toxicities occur due to its generation of toxic oxygen species, resulting in oxidative stress. Some clinical observations have suggested that doxorubicin may have greater toxicity in older patients. The studies presented here compare basal and doxorubicin-induced antioxidant enzyme activities in brain, heart, kidney and liver tissues of Fisher 344 rats of different ages to determine whether differences in these enzymes can account for the age-dependent differences observed in doxorubicin-induced toxicity. Three groups of animals were tested, young animals (2-months-old), adult animals (10-months-old) and old animals (18-months-old). The results of these studies show that in general young and adult animals have similar levels of antioxidant enzyme activity while the older animals have less. Only in the young animals is antioxidant enzyme activity significantly increased following doxorubicin treatment suggesting that enzyme induction occurs only in the young group of animals. Lipid peroxidation is shown to have the greatest increase in the old animals following doxorubicin treatment while the young animals have the smallest increase. The results from these studies suggest that there is an increase in doxorubicin-induced oxidative damage with age and that these differences may be due to basal and drug-induced differences in tissue antioxidant enzyme activities.     

Protein amidation in the aging organism

The role of protein amide groups was studied in the process of the organism ageing. It is shown that with ageing there occurs the asparagin deamidation in water-soluble and water-insolbule proteins of the rat brain, liver and heart. The glutamine content in the old rat tissues remains at the level determined in the young animal tissues. Tissue proteins of old rats are better substrates for protein--a complex of proteinases of a wide specificity that those of young animals. An increased attack of the old animals proteins by nonspecific proteinases is due to a decrease in their amidation degree during ageing.     

Age-related characteristics of RNA transport through the nuclear membrane

The effect of cytosol and ATP-regenerating system on RNA, transport was studied in isolated liver nuclei of adult and old rats. The stimulating effect of cytosol was found not to depend on the age of animals. The release of RNA from old rat liver nuclei activated by the ATP-regenerating system was more expressed compared to adult rats. It is assumed that the age changes of energy-delivering system of the RNA transport through nuclear membrane may be conditioned by the deficit of endogenous energetic substrates in the hepatic cells of old animals.     

Age-related changes of lipid spectrum, level of lipid peroxidation, and antioxidant defence in the liver and blood of rats

It has been shown that the lowest level of total lipids, cholesterol, triacylglycerols and products of lipid peroxidation of blood and liver, as a rule, is specific to adult rats. These characteristics are significantly higher for old and young animals. At the same time, the level of glutathione and alphatocopherols in adults' liver is much higher than in young and old rats. It suggests the lower level of processes of lipid peroxidation in adult mature rats. The relative high level of products of lipid peroxidation and low content of alpha-tocopherols in old rats' liver (against the background of higher activity and glutamineperoxidase, and glutathionereductase than in adults) suggests tocopherol deficiency in old animals. High content of total lipids, cholesterol and cholesterol entering into the composition of lipoprotein of different density, triacylglycerols, diene conjugates and malonic dialdehide, activity of glutathione-dependent enzymes of antioxidant defence in young animals as compared with these levels in adult rats seems to be associated with agerelated hypercholesterolemia and intensive plastic changes of a growing organism.     

High energy phosphate compounds and ATPase activity of mitochondria in the brain of rats of different ages

Adenosine phosphate and creatine phosphate amount was determined in the brain tissue of 3-4-week, 6-8 month and 26-26 month old mongrel female rats. The maximum ATP and creatine phosphate amount and the minimum of ADP and AMP were found in young rats. In adult rats as compared with the young the ATP amount is the same, the ADP and AMP level rises, that of creative phosphate falls and energy charge decreases. In the brain of old rats the ATP and ADP amount falls, that of creatine phosphate and AMP remains at the level of mature-age animals. Despite a decrease in the ATP amount in the brain at the old age, the Mg, DNP- ATPase activity of mitochondria isolated from brain cortex and stem of the old rats remains at the level typical of adult animals.     

Antioxidant effects of Emblica officinalis and Zingiber officinalis on arsenic and lead induced toxicity on Albino rats

It is of interest to document the effect of Emblica officinalis (E. officinalis) and Zingiber officinalae (Z. officinalae) leaf extract on reactive oxygen species, antioxidant potential changes in arsenic and lead-induced toxicity in male rats. We used 8 groups of adult male Wistar rats with 1 control group for this study. The animals were divided into Group I: Control and Group II: Lead and sodium arsenite induced rats (animals were induced for metal toxicity by the combined administration of arsenic (13.8 mg/ kg body weight) and lead (116.4 mg/kg body weight). These doses were administered by gastric intubation during 14 consecutive days using known standard procedures. Arsenic and lead induced rats treated with ethanolic extract of Emblica officinalis (60 mg/kg body weight/day, orally for 45 days) are group III rats. Group IV animals are arsenic and lead induced rats treated orally with ethanolic extracts of E. officinalis (120 mg/kg body weight/day for 45 days). Group V animals are arsenic and lead induced rats treated orally with ethanolic extracts of Z. officinalae (60 mg/kg body weight/day for 45 days). Group VI animals are arsenic and lead induced rats orally treated with ethanolic extracts of Zingiber officinalis (120 mg/kg body weight/day for 45 days). Group VII animals are arsenic and lead induced rats treated orally with ethanolic extracts of E. officinalis and Z. officinalae (60 + 60 mg/kg body weight/day for 45 days). Group VIII animals are arsenic and lead induced rats treated orally with ethanolic extracts of E. officinalis and Z. officinalae (120 + 120 mg/kg body weight/day, orally for 45 days). Normal Control animals were treated orally with ethanolic extracts of E. officinalis (120mg/kg body weight) + Z. officinalae (120mg/kg body weight) for 45 days. The control and experimental animals were then subjected to analysis for oxidative stress markers such as H2O2, *OH, and lipid peroxidation (LPO), antioxidant enzymes in addition to liver and kidney function markers. Results: Arsenic and lead induced rats showed a significant increase in the levels of reactive oxygen species (H2O2, OH* and LPO) with concomitant alterations in the renal and liver tissues. However, enzymic and non-enzymic antioxidant levels were decreased. Nevertheless, an oral effective dose of E. officinalis and Z. officinalae (120 + 120 mg/kg body weight/day increased the antioxidant enzymes and retrieved the altered levels of ROS and LPO that were induced by arsenic and lead. Thus, we show that E. officinalis and Z. officinalae leaf extract exhibits nephroprotective and hepatoprotective role through the restoration of reactive oxygen species and antioxidant enzymes in the kidney and liver tissue of Arsenic and Lead-induced nephrotoxicity and hepatotoxicity in rats. Hence, E. officinalis and Z. officinalae leaf extract are potential therapeutic options for the treatment of metal toxicity-induced kidney and liver diseases.     

Effect of beta-carotene and carotene producing yeast Phaffia rhodozyma on oxidative stress in rats treated with tetrachloromethane

Supplementation of rats' diet with beta-carotene or biomass of carotene producing yeast Phaffia rhodozyma caused a decrease of aminotransferases in the blood serum as well as a decrease of lipid peroxidation products and protein carbonil groups in the liver, brain and myocardium tissues of animals treated with tetrachloromethane. When compared to the control group the activity of superoxide dismutase, catalase and glutathione peroxidase in the liver of carotene fed rats were respectively 1.6, 2.2, and 1.5-fold higher. Thus, these supplements to standard diet slow down development of tetrachlorometane mediated oxidative stress in rats.     

Sensitivity to in vitro lipid peroxidation in liver and brain of aged rats.

Lipid peroxidation in rat liver and brain has been studied to see if it increases with old age. No significant differences in the level of endogenous, nonstimulated lipid peroxidation (TBA-RS) is found between 9 month-old (mature adults) and 28 month-old animals in liver or cerebral cortex. Liver homogenates subjected in vitro to an oxidative stress (ascorbate-Fe++), show a clearly slower peroxidation rate in old than in young animals. On the other hand, the in vitro peroxidation rate of cerebral homogenates was similar in young and old animals. The in vitro peroxidation rate was much higher in brain than in liver tissue. These results do not support the view that old rats liver and brain are more susceptible to free radical oxidative damage than those of young ones.