Cosinor analysis of the seasonal changes in the cytoplasmic RNA level in the neurons of preoptic nucleus in Rana temporaria L. under the ultrasound energy

Authors studied the effects of single, total doses of ultrasound energy (frequency: 24.6 kHz; intensity: 0.35 W/cm2) on the cytoplasmic RNA level in the neurons of preoptic nucleus (PON) in Rana temporaria L., in the annual cycle. The cosinor analysis revealed that the applied ultrasound energy caused significant changes in the cytoplasmic RNA content in the PON neurons in Rana temporaria L. in the annual cycle. This was expressed by an increase in rhythm amplitude, except for the females of the second experimental group. Simultaneously, the rhythm acrophase in the animals exposed to ultrasound energy was shifted to later months (i.e. to the hibernation period), as compared to the control animals, where the acrophase occurred in August in females and in September in males (i.e. in their active land life period). In the females of the first experimental group the ultrasounds induced a disappearance of rhythmic changes in the cytoplasmic RNA of the PON neurons in the annual cycle.     

Cosinor analysis of diurnal changes of the reduced glutathione level in the blood, brain, liver and kidneys of mice, induced by ACTH administration

The influence of a single dose of ACTH(100 I.U. /kg body weight) on the diurnal rhythm of reduced glutathione (GSH) was studied in the blood and brain, liver and kidney homogenates of male mice. Cosinor analysis revealed that ACTH induces changes in the mean diurnal amount of GSH in the blood, brain, liver and kidneys. At the same time, GSH amplitudes in the blood and kidneys increased significantly, whereas in the case of brain and liver they decreased markedly. Moreover, it was found that ACTH induces a shift in GSH acrophases in the blood, brain, liver and kidneys as compared with the control values.     

Ascorbic acid supplementation causes faster restoration of reduced glutathione content in the regression of alcohol-induced hepatotoxicity in male guinea pigs

Abstract

Alcoholic liver disease is caused mainly by free radicals. Ascorbic acid (AA) and glutathione (GSH) are the major water-soluble antioxidants in the liver. The impact of AA supplementation on GSH, AA and activities of GSH-dependent enzymes in alcoholic guinea pigs was studied and was compared with alcohol abstention. Guinea pigs were administered ethanol at a dose of 4 g/kg body weight (b.wt)/day for 90 days. After 90 days, alcohol administration was stopped and one-half of the ethanol-treated animals were supplemented with AA (25 mg/100 g b.wt) for 30 days and the other half was maintained as the abstention group. There was a significant increase in the activities of alanine aminotransferase, aspartate aminotransferase, and gamma-glutamyl transpeptidase in the serum of the ethanol group. In addition, a significant decrease in the GSH content, activities of GSH peroxidase, GSH reductase, and increased activity of GSH-S-transferase were observed in the liver of the ethanol group. Histopathological analysis and triglycerides content in the liver of the ethanol group showed induction of steatosis. But AA supplementation and abstention altered the changes caused by ethanol. However, maximum protective effect was observed in the AA-supplemented group indicating the ameliorative effect of AA in the liver.     

Seasonal changes in the number of neurocytes containing lipofuscin pigment in selected areas of the brain of Rana temporaria L

The number of neurocytes containing lipofuscin pigment (LEP) was determined in the nucleus infundibularis dorsalis (NID), the subfornical organ (SFO) and the medulla oblongata (MO) of the brain of sexually mature females and males of Rana temporaria L. approximately identical in length and age. The frogs were captured in their natural habitat in seven periods of the annual cycle. The number of LFP-positive neurocytes shows distinct seasonal variations in the analyzed areas. In general, neurocytes containing LFP were found in higher numbers during the winter months, and their significant drop was observed in summer. The results seem to suggest that cells containing LFP represent a certain kind of dynamic cellular system responding to various internal and/or external factors changing within a year.     

Seasonal changes in the activity of rhodanese in frog (Rana temporaria) liver.

1. The investigators studied annual changes in rhodanese activity in mitochondria and cytosol of frog liver cells (Rana temporaria) and found that the value of the enzyme-specific activity was higher in mitochondria than in cytosol, showing significant seasonal fluctuations. 2. The character of changes in the rhodanese activity in mitochondria, regardless of the sex of the studied animal, was demonstrated to be dependent upon the seasonal changes in frog thyroid gland function. 3. In the supernatant fraction of R. temporaria liver homogenate, seasonal changes of rhodanese specific activity seemed to be related to changes in hepatic function.     

S-adenosylmethionine (SAMe) protects against acute alcohol induced hepatotoxicity in mice small star, filled

Although S-Adenosylmethionine (SAMe) has beneficial effects in many hepatic disorders, the effects of SAMe on acute alcohol-induced liver injury are unknown. In the present study, we investigated effects of SAMe on liver injury in mice induced by acute alcohol administration. Male C57BL/6 mice received ethanol (5 g/kg BW) by gavage every 12 hrs for a total of 3 doses. SAMe (5 mg/kg BW) was administrated i.p. once a day for three days before ethanol administration. Subsequent serum ALT level, hepatic lipid peroxidation, enzymatic activity of CYP2E1 and hepatic mitochondrial glutathione levels were measured colorimetrically. Intracellular SAMe concentration was measured by high-performance liquid chromatography (HPLC). Histopathological changes were assessed by H&E staining. Our results showed that acute ethanol administration caused prominent microvesicular steatosis with mild necrosis and an elevation of serum ALT activity. SAMe treatment significantly attenuated the liver injury. In association with the hepatocyte injury, acute alcohol administration induced significant decreases in both hepatic SAMe and mitochondrial GSH levels along with enhanced lipid peroxidation. SAMe treatment attenuated hepatic SAMe and mitochondrial GSH depletion and lipid peroxidation following acute alcohol exposure. These results demonstrate that SAMe protects against the liver injury and attenuates the mitochondrial GSH depletion caused by acute alcohol administration. SAMe may prove to be an effective therapeutic agent in many toxin-induced liver injuries including those induced by alcohol.     

镉长期暴露对黑斑蛙的氧化胁迫和抗氧化能力的影响

在实验条件下,将黑斑蛙暴露于12．5mg／L和25．0mg／L浓度的镉溶液中30d,分别测定了黑斑蛙在暴露10、20和30d时肝、肾组织中镉（Cd）含量、过氧化产物丙二醛（MDA）的含量、还原型谷胱甘肽（GSH）含量和超氧化物歧化酶（SOD）活性,以探讨镉对机体的脂质过氧化作用及机体的抗氧化损伤机制。实验结果表明,不同剂量组黑斑蛙肝、肾镉含量、MDA含量均随着镉暴露时间的延长而升高,且肝MDA含量与镉在肝中的蓄积量呈显著正相关（R^2=0．8643,n=9）。肝脏GSH含量随镉暴露时间的延长而被显著诱导,且与MDA含量呈显著正相关（R^2=0．5933,n=9）;肾GSH含量则随暴露时间的延长而显著下降,与MDA含量呈显著负相关（R^2=0．8609,n=9）。不同剂量组肝SOD活性随镉暴露时间的延长而升高,肾SOD活性在高剂量组随镉暴露时间的延长表现为先升高后回落下降的趋势。可见,在镉的长期暴露下,细胞膜过氧化增强是镉伤害机体的主要原因,而GSH含量、SOD活性的升高则可能是机体抗过氧化的机理之一。     

Effect of alcohol intoxication and aldehyde dehydrogenase inhibitors on lipid peroxidation in rat liver

A single intraperitoneal administration of ethanol (3.5 g/kg) to rats induced a marked increase in lipid peroxidation and a decrease of antioxidative activity in the liver after 1 h when assessed by chemi-luminescence in liver homogenates. The pretreatment with aldehyde dehydrogenase inhibitor, disulfiram (200 mg/kg 24 hr before ethanol), caused a 10-fold elevation of the blood acetaldehyde levels, with no effect on the hepatic lipid peroxidation compared to control. Cyanamide (50 mg/kg, 2 h before the ethanol) increased approximately 100-fold the acetaldehyde levels, however, the changes in lipid peroxidation were not significantly different from that produced by ethanol alone. The present results suggest, that the metabolism of acetaldehyde and not acetaldehyde itself is responsible for the in vivo activation of lipid peroxidation during acute alcohol intoxication. Disulfiram prevents the ethanol-induced lipid peroxidation in the rat liver.     

Differentiation of hematopoietic cells in explants of embryonal organs of Rana temporaria L]

The potencies of isolated embryonic hemopoietic organs (pronephros and liver) of Rana temporaria L. to the formation of the foci of hemopoiesis were studied. The pronephros and liver rudiments were explanted at the early developmental stages (late neurula and early tail bud) and cultivated in vivo in the diffusion chambers. The blast hemopoietic elements and differentiated blood cells are found in the explants within 7 to 10 days of cultivation. A suggestion is put forward that the differentiation of hemopoietic cells in the embryonic hemopoietic organs proceeds from the local cells-precursors.     

Induction of micronuclei in tadpoles of Rana temporaria and Xenopus laevis by the pyrethroid Fastac 10 EC.

The mutagenic properties of the pyrethroid Fastac 10 EC were estimated using the micronucleus test in tadpoles of Rana temporaria and Xenopus laevis. The frequency of erythrocytes with micronuclei was examined in blood smears obtained from animals kept for 14 days in water containing 3 different concentrations of Fastac 10 EC. The study was accompanied by a positive control using the known mutagens cyclophosphamide and N-methyl-N-nitrosourea. The results obtained showed that at high concentrations Fastac 10 EC has a clastogenic activity and/or damages the mitotic spindle, as manifested by a significant increase in the frequency of the micronucleated red blood cells. It was also demonstrated that tadpoles of Rana temporaria are more sensitive to the mutagenic effect of the pyrethroid than are those of Xenopus laevis.     

Cadmium toxicity related to cysteine metabolism and glutathione levels in frog Rana ridibunda tissues

The level of glutathione and sulfane sulfur and sulfurtransferases activity in adult frogs Rana ridibunda were investigated after the exposure to 40 mg or 80 mg CdCl(2) L(-1) for 96 h or 240 h. Cd accumulation in the liver, kidneys and testes was confirmed, and the highest Cd level was found in the testes. In the liver, the exposure to Cd resulted in an increase of GSH level and the activity of rhodanese, while the activity of 3-mercaptopyruvate sulfurtransferase and cystathionase decreased. The kidneys and brain showed the elevated level of GSH and the activity of all investigated sulfurtransferases, as well as sulfane sulfur especially in brain. In such tissues as the testes, muscles and heart, the level of GSH and the activity of 3-mercaptopyruvate sulfurtransferase were significantly diminished. The increased level of sulfane sulfur was determined in the testes and muscles and the increased activity of rhodanese in the testes and the heart. These findings suggest the possible role of sulfane sulfur and/or sulfurtransferases in the antioxidation processes, which can be generated in cells by cadmium.     

Biologic activity and tolerance of a preparation of polyunsaturated fatty acids, obtained by a microbiological route ["biopolyene"]]

Biopolyene is a mixture of ethyl ethers of polyunsaturated fatty acids isolated from biomass of Entomophthora virulenta, a mycelial fungus. Its acute and chronic toxicity was studied on rats and guinea pigs. After oral administration of the preparation in single doses exceeding 50 g/kg there were no disorders in the general state of the rats. In chronic experiments with oral biopolyene in doses of 100 and 500 mg/kg and its local application to the intact skin of the animals in a dose of 1 g/kg there were no significant changes in the functional state of the liver and kidneys as well as the peripheral blood count. Insignificant changes in the serum levels of liver enzymes and coagulation were transient. The preparation showed no allergenic or immunomodulating effects. It had neither embryotoxic, teratogenic nor mutagenic action.     

解酒护肝饮解酒及对急慢酒精性肝损伤的保护作用

为了评价解酒护肝饮解酒效果及其对急、慢性酒精性肝损伤保护作用机制,本研究通过建立醉酒模型,确定致醉剂量;通过醉酒睡眠实验比较解酒护肝饮解酒特性;通过测定醉酒小鼠血乙醇含量的变化,研究解酒护肝饮对乙醇代谢的影响;通过建立急慢性酒精性肝损伤模型,测定AST、ALT、SOD活性,GSH、MDA水平,HE染色切片观察肝组织形态学的变化。研究发现小鼠最佳致醉剂量为11 m L/kg;与模型组比较,解酒护肝饮高(HD)、中剂量组(MD)均可延长醉酒时间、缩短醒酒时间(p<0.05),高、中剂量组可降低酒精灌胃后2 h、3 h时间点血乙醇含量(p<0.05);与模型组比较,急慢性酒精肝损伤模型各剂量组均能显著降低血清AST、ALT活性(p<0.05),急性酒精性肝损伤模型中,各剂量组肝组织SOD、GSH水平上升(p<0.05),MDA水平下降(p<0.05),而在慢性酒精性肝损伤模型肝组织中,低剂量组(LD)的SOD、GSH及MDA水平没有统计学差异;病理切片观察可见,急慢性酒精肝损伤模型高、中、低剂量组均能显著改善肝组织因乙醇而导致的肝损伤,并且高、中剂量组效果较好。本研究表明解酒护肝饮可显著延长醉酒时间,缩短醒酒时间,降低血乙醇的含量,对酒精诱导的肝损伤有较好的保护作用。     

Role of environmental temperature and photoperiod in regulation of seasonal testicular activity in the frog, Rana perezi.

To analyze the role of environmental temperature and photoperiod in the regulation of the annual testicular cycle in Rana perezi, we performed experiments combining high (25 +/- 1 degrees C) or low (6 +/- 1 degrees C) temperature and different photoperiod regimens (18L:6D, 12L:12D, and 6L:18D (hours light:hours dark)) during three phases of the reproductive cycle: winter stage (December) and prebreeding (February) and postbreeding (May, June) periods. Low temperature and short photoperiod in winter induced the arrest of the maturation phase of spermatogenesis and the activation of primary spermatogonia proliferation and spermiohistogenesis. Rana perezi testis responded to long days stimulus in winter, even at low temperature, with induction of the maturation phase of the cycle. Exposure of male frogs to either high temperature or long photoperiod induced a decrease in testosterone levels in winter. During the prebreeding period, an increase in environmental temperature caused a reduction in testosterone, and a lengthening in photoperiod produced the opposite effect. Photoperiod had no effect on testosterone levels during the postbreeding period, but low temperature increased testosterone plasma levels. These results suggest that both temperature and photoperiod effects can vary seasonally, depending on the phase of the annual reproductive cycle in R. perezi.     

Inhibition of testosterone biosynthesis by ethanol. Relation to hepatic and testicular acetaldehyde, ketone bodies and cytosolic redox state in rats.

In experiments in which liver and testis freeze-stops were performed on pentobarbital-anaesthetized rats, ethanol (1.5 g/kg body wt.) reduced plasma testosterone concentration from 13.1 to 3.2 nmol/litre. 4-Methylpyrazole abolished the ethanol-induced hepatic and testicular increase in the lactate/pyruvate ratio, and the testicular acetaldehyde level, but did not diminish the reduction in plasma testosterone concentration. In testes, but not in liver, ethanol decreased the 3-hydroxybutyrate/acetoacetate ratio, and 4-methylpyrazole did not prevent this effect. In experiments in which freeze-stop was performed after cervical dislocation, ethanol decreased the testis testosterone concentration from 590 to 220 pmol per g wet wt. The effects of ethanol and 4-methylpyrazole on testis acetaldehyde, lactate/pyruvate and 3-hydroxybutyrate/acetoacetate ratios were the same as found during anaesthesia. The NAD+-dependent ethanol oxidation capacity in testis ranged from 0.1 to 0.2 mumol/min per g wet wt. and seemed to be inhibited by 4-methylpyrazole both in vivo and in vitro. In additional experiments, ethanol doses between 0.3 and 0.9 g/kg body wt. did not alter the plasma testosterone concentration in rats treated, or not treated, with cyanamide, which induced elevated acetaldehyde levels in blood and testes. The results suggest that ethanol-induced inhibition of testosterone biosynthesis was not caused by extratesticular redox increases, or by extra- or intra-testicular acetaldehyde per se. The inhibition is accompanied by changes in testicular ketone-body metabolism.     

Studies on the mechanism of haloacetonitrile-induced gastrointestinal toxicity: interaction of dibromoacetonitrile with glutathione and glutathione-S-transferase in rats

The haloacetonitrile, dibromoacetonitrile (DBAN), is a direct-acting genotoxic agent that has been detected in drinking water. In a time course study, male Sprague-Dawley rats were treated with DBAN (75 mg/kg PO), and killed at 0.5, 1, 2, and 4 hr after treatment. In a dose response study, animals were treated orally with various doses of DBAN (25, 50, 75, and 100 mg/kg) and killed at one-half hour after treatment. Control animals received 1 ml/kg PO of the vehicle dimethyl sulfoxide (DMSO). In both experiments blood and organs were collected and stored at -80 degrees C until the time of analysis. At 0.5 hr after treatment, a single oral dose of DBAN caused a significant decrease of glutathione (GSH) concentrations in liver (54% of control) and stomach (6% of control). Hepatic GSH depletion was maximal at 0.5 hr and rebound to the control levels by 4 hr. In contrast, gastric GSH concentrations remained low at all time points. DBAN caused an insignificant change in both kidney and blood GSH levels. DBAN significantly inhibited glutathione-S-transferase (GST) activity in liver and stomach. Hepatic GST inhibition was maximal (34% of control) at 2 hr and minimal (80% of control) at 4 hr. Meanwhile, in the stomach GST activity was inhibited at 1 hr (60% of control) and remained low at all times after treatment. Both GSH depletion and GST inhibition were dose-dependent. This study indicates that GSH and GST play an important role in the metabolism and detoxification of DBAN in rats. The prolonged depletion of GSH and inhibition of GST in the gastrointestinal (GI) tissues suggest that the GI tract is a major target for DBAN toxicity.     

No effect of chronic ethanol administration on the activity of alcohol dehydrogenase and aldehyde dehydrogenases in the near-term pregnant guinea pig

The objective of this study was to determine the effect of chronic maternal administration of moderate-dose ethanol on alcohol dehydrogenase, low Km aldehyde dehydrogenase, and high Km aldehyde dehydrogenase activities in the guinea pig at near-term pregnancy. The activity of each enzyme in the maternal liver, fetal liver, and placenta of the guinea pig at 59 days of gestation (term, 66 days) was determined spectrophotometrically following chronic daily oral administration of two doses of 1 g ethanol/kg maternal body weight or isocaloric sucrose solution. There was no experimental evidence of ethanol-induced malnutrition in the mother or growth retardation in the fetus. There was a statistically significant increase (65%) in the microsomal cytochrome P-450 content of the maternal liver for the ethanol treatment compared with the sucrose treatment. The alcohol dehydrogenase, low Km aldehyde dehydrogenase, and high Km aldehyde dehydrogenase activities in the maternal liver, fetal liver, and placenta were not statistically different for the ethanol-treated compared with the sucrose-treated animals. This also was the case for the maternal blood and fetal blood ethanol and acetaldehyde concentrations, determined at 2h after maternal administration of 1 g ethanol/kg maternal body weight. These data demonstrate that the ethanol- and acetaldehyde-oxidizing enzyme activities in the maternal-placental-fetal unit of the guinea pig at near-term pregnancy were not changed by chronic administration of moderate-dose ethanol.     

Relationships between alterations in glutathione metabolism and the disposition of inorganic mercury in rats: effects of biliary ligation and chemically induced modulation of glutathione status

Influences of biliary ligation and systemic depletion of glutathione (GSH) or modulation of GSH status on the disposition of a low, non-nephrotoxic i.v. dose of inorganic mercury were evaluated in rats in the present study. Renal and hepatic disposition, and the urinary and fecal excretion, of inorganic mercury were assessed 24 h after the injection of a 0.5-micromol/kg dose of mercuric chloride in control rats and rats pretreated with acivicin (two 10-mg/kg i.p. doses in 2 ml/kg normal saline, 90 min apart, 60 min before mercuric chloride), buthionine sulfoximine (BSO; 2 mmol/kg i.v. in 4 ml/kg normal saline, 2 h before mercuric chloride) or diethylmaleate (DEM; 3.37 mmol/kg i.p. in 2 ml/kg corn oil, 2 h before mercuric chloride) that either underwent or did not undergo acute biliary ligation prior to the injection of mercury. Among the groups that did not undergo biliary ligation, the pretreatments used to alter GSH status systemically had varying effects on the disposition of inorganic mercury in the kidneys, liver, and blood. Biliary ligation caused the net renal accumulation of mercury to decrease under all pretreatment conditions. By contrast, biliary ligation caused significant increases in the hepatic burden of mercury in all pretreatment groups except in theacivicin-pretreated group. Blood levels of mercury also increased as a result of biliary ligation, regardless of the type of pretreatment used. The present findings indicate that biliary ligation combined with methods used to modulate GSH status systemically have additive effects with respect to causing reductions in the net renal accumulation of mercury. Additionally, the findings indicate that at least some fraction of the renal accumulation of inorganic mercury is linked mechanistically to the hepato-biliary system.     

Sulfurtransferases and the content of cysteine, glutathione and sulfane sulfur in tissues of the frog Rana temporaria

L-cysteine desulfuration was examined in tissues of Rana temporaria, in October and January. The activities of 3-mercaptopyruvate sulfurtransferase (MPST), cystathionine gamma-lyase (CST) and rhodanese were primarily concentrated in frog liver and kidney. The values of CST and rhodanese activity, as well as sulfane sulfur compounds levels fell in the range characteristic of rat. For each of the investigated tissues changes noted in the enzymatic activities and in the level of glutathione (GSH), protein-bound cysteine (PbCys) and sulfane sulfur compounds were dependent on the month in which the determination was performed, and on the character of the tissue. In such tissues as the liver or gonads, high GSH levels and high activities of MPST (in the liver) or MPST and rhodanese (in the gonads) seemed to accompany protein biosynthesis during hibernation. PbCys, the level of which was consequently diminished in all tissues in January, compensated the absence of exogenous cysteine. A significantly reduced GSH level in the brain in January seemed to be correlated with decreased requirements of the tissue for this important natural antioxidant at diminished thyroid hormones levels in the serum and minimal oxygen consumption during the hibernation. In the kidney, the possible participation of sulfane sulfur compounds in detoxification processes requires elucidation, similarly as in protection against cellular oxidative stress at extremely low levels of GSH.     

Blood Glutathione as an Index of Radiation-Induced Oxidative Stress in Mice and Humans

The effect of x-rays on GSH and GSSG levels in blood was studied in mice and humans. An HPLC method that we recently developed was applied to accurately determine GSSG levels in blood. The glutathione redox status (GSH/GSSG) decreases after irradiation. This effect is mainly due to an increase in GSSG levels. Mice received single fraction radiotherapy, at total doses of 1.0 to 7.0 Gy. Changes in GSSG in mouse blood can be detected 10 min after irradiation and last for 6 h within a range of 2.0–7.0 Gy. The highest levels of GSSG (20.1 ± 2.9 ), a 4.7-fold increase as compared with controls) in mouse blood are found 2 h after radiation exposure (5 Gy). Breast and lung cancer patients received fractionated radiotherapy at total doses of 50.0 or 60.0 Gy, respectively. GSH/GSSG also decreases in humans in a dose–response fashion. Two reasons may explain the radiation-induced increase in blood GSSG: (a) the reaction of GSH with radiation-induced free radicals resulting in the formation of thyl radicals that react to produce GSSG; and (b) an increase of GSSG release from different organs (e.g., the liver) into the blood. Our results indicate that the glutathione redox ratio in blood can be used as an index of radiation-induced oxidative stress. © 1997 Elsevier Science Inc.