Influence of Methionine and Vitamin E on Fluoride Concentration in Bones and Teeth of Rats Exposed to Sodium Fluoride in Drinking Water

Increased exposure to fluorine-containing compounds leads to accumulation of fluorides in hard tissues of bones and teeth, which may result in numerous skeletal and dental disorders. This study evaluates the influence of methionine and vitamin E on fluoride concentration in bones and teeth of rats subjected to long-term exposure to sodium fluoride in drinking water. The study was conducted in 30 3-month-old female Wistar FL rats. The animals were divided into five groups, six rats per group. The control group consisted of rats receiving only distilled water as drinking water. All other groups received NaF in the amount of 10 mg/kg of body mass/day in their drinking water. In addition, respective animal groups received: NaF + Met group—10 mg of methionine/kg of body mass/day, NaF + Met + E group—10 mg of methionine/kg of body mass/day and 3 mg of vitamin E (tocopheroli acetas)/rat/day and NaF + E group—3 mg of vitamin E/rat/day. Femoral bones and incisor teeth were collected for the study, and the fluoride concentration was determined using a fluoride ion-selective electrode. Fluoride concentration in both bones and teeth was found to be higher in the NaF and NaF + Met groups compared to the control group. In groups NaF + Met + E and NaF + E, the study material contained much lower fluoride concentration compared to the NaF group, while the effect was more prominent in the NaF + E group. The results of the studies indicate that methionine and vitamin E have opposite effects on accumulation of fluorides in hard tissue in rats. By stimulating fluoride accumulation, methionine reduces the adverse effect of fluorides on soft tissue, while vitamin E, which prevents excessive accumulation of fluorides in bones and teeth, protects these tissues from fluorosis. Therefore, it seems that combined application of both compounds would be optimal for the prevention of the adverse effects of chronic fluoride intoxication.     

Influence of Methionine upon the Activity of Antioxidative Enzymes in The Kidney of Rats Exposed to Sodium Fluoride

The intensified or uncontrolled formation of reactive oxygen species leads to disturbances of numerous biochemical processes. Among the factors inducing intensified free radical processes, fluoride ions are listed, among others. One of the organs most exposed to the toxic activity of fluorides is the kidney. In the study presented here, the influence of fluorine upon the activity of selected antioxidant enzymes in rat kidney has been examined, as well as antioxidant properties of methionine during intoxication with sodium fluoride. The experiment was carried out on Wistar FL rats (adult females) that for 35 days were administered water, NaF, NaF with methionine (doses: 10 mg NaF/kg bw/day, 10 mg Met/kg bw/day) . The influence of administered NaF and Met upon the antioxidative system in kidney was examined by analyzing the activity of the most important antioxidative enzymes (SOD, CAT, GPX, GR, GST). The studies carried out confirmed the disadvantageous effect of NaF upon the antioxidative system in rats (decrease in activity of antioxidative enzymes). Methionine increased the activity of antioxidative enzymes, most efficiently that of GPX, GR, and GST.     

Influence of Fluoride on Rat Kidney Antioxidant System: Effects of Methionine and Vitamin E

The aim of the study has been to determine and compare the influence upon the kidney antioxidative system, exercised by administration of vitamin E, and vitamin E in combination with methionine, under conditions of oxidative stress induced by sodium fluoride. The experiment was carried out on Wistar FL rats (adult males) that, for 35 days, were administered water, NaF, NaF with vitamin E, or vitamin E with methionine (doses: 10 mg NaF/kg of body mass/24 h, 3 mg vitamin E per 10 μl per rat for 24 h, 2 mg methionine per rat for 24 h). The influence of administered sodium fluoride and antioxidants upon the antioxidative system in kidney was examined by analyzing the concentration of malondialdehyde (MDA) and the activity of the most important antioxidative enzymes (SOD, total and both its isoenzymes, GPX, GST, GR, and CAT). The studies carried out confirmed the disadvantageous effect of the administered dose of NaF upon the antixodiative system in rats (increase in the concentration MDA, decrease activity of all antioxidative enzymes). The administration of vitamin E increased the activity of studied enzymes with the exception of glutathione reductase GR; it also reduced the procesess of lipid peroxidation. It has been found that combined doses of vitamin E and methionine were most effective in inhibiting lipid peroxidation processes. The results confirmed the antioxidative properties of methionine.     

Combined Effects of Fluoride and Cadmium on Liver and Kidney Function in Male Rats

Although cadmium (Cd) and fluoride may both have adverse effects on bone, most studies focus on a single agent. In this study, we investigated the effects of cadmium and fluoride on bone at a relative low level. Sprague–Dawley male rats were assigned randomly into four groups which were given sodium chloride, cadmium (50mg/L), and fluoride (20mg/L) alone, or in combination via drinking water. At the 12th week, urine, blood, and bone tissues were collected for biomarker assay, biomechanical assay, and histological assay. Cadmium had significantly adverse effects on bone mineral density, bone biomechanical property, and bone microstructure. Fluoride slightly increased vertebral bone mineral density but negatively affected bone biomechanical property and bone microstructure. Fluoride could reverse the decrease of vertebral bone mineral density caused by cadmium but could not improve the damage of bone biomechanical property and microstructure caused by cadmium. Tartrate-resistant acid phosphatase 5b levels in rats treated with cadmium and fluoride or in combination were 1–2.5 folds higher than the control. Our data suggest that low level of fluoride could reverse the decrease of vertebral bone mineral density caused by cadmium exposure but has no influence on appendicular skeleton damage caused by cadmium.     

Combined Influence of Intermittent Exercise and Temperature Stress on the Modulation of Fluoride Toxicity

Regardless of the circumstantial evidences on the involvement of fluoride on the etiology and pathogenesis of fluorosis, several lines of evidences strongly indicate the influence of modulator factors such as duration of fluoride exposure, age, temperature, and physical activity. This study has been designed to investigate the combined influence of intermittent exercise and temperature stress on the modulation of fluoride toxicity. Three-month-old Wistar male rats were exposed to high sodium fluoride (600 ppm) through drinking water for 1 month and the rats were then subjected to swimming exercise at different temperatures (20°C, 25°C, 30°C, and 35°C). Oxidative stress indices analyzed showed fluoride-induced oxidative stress in biological tissues studied like brain, heart, liver, and kidney. Exercise regimen coupled with different temperatures were found to be effective in bringing the oxidative stress indices to near normal level indicating decreased free radical production which may be a compensatory mechanism to counteract against the detrimental effects of fluoride. Further, the deleterious effects of fluoride significantly reduced at 25°C and 30°C demonstrating that the thermoneutral temperatures were effective in reducing the toxicity level.     

Increased Hepatic Lipid Peroxidation with Methionine Toxicity in the Rat

Consumption of excess methionine by rats is known to cause membrane damage, liver enlargement and accumulation of iron in the spleen. In this study two groups (n = 5) of male, Wistar rats were pair-fed either a methionine supplemented (20.0 g/kg) or control (2.0 g/kg) diet for 7 weeks. Hepatic and erythrocyte copper-zinc superoxide dismutase activities were significantly reduced (P < 0.05 and P < 0.001 respectively) by methionine supplementation while the activities of catalase (P < 0.01 and 0.05) and glutathione peroxidase (P < 0.05) were significantly increased. Methionine supplementation also increased hepatic lipid peroxidation (P < 0.01), as measured by the level of thiobarbituric acid reactive substances, and iron (P < 0.001) concentrations. These changes are indicative of increased oxidative stress resulting from methionine toxicity.     

Methionine Requirements of Rats in Various Body Weights

A niaD gene encoding nitrate reductase was isolated from Aspergillus oryzae KBN616 and sequenced. The structural gene comprises 2973 bp and 868 amino acids, which showed a high degree of similarity to nitrate reductases from other filamentous fungi. The coding sequence is interrupted by six introns varying in size from 48 to 98 bp. The intron positions are all conserved among the niaD genes from A. oryzae, Aspergillus nidulans, and Aspergillus niger. A homologous transformation system was developed for an industrial shoyu koji mold, A. oryzae KBN616, based on the nitrate reductase (niaD) of the nitrate assimilation pathway.     

Long Term Influence of Carbon Nanoparticles on Health and Liver Status in Rats

Due to their excellent biocompatibility, carbon nanoparticles have been widely investigated for prospective biomedical applications. However, their impact on an organism with prolonged exposure is still not well understood. Here, we performed an experiment investigating diamond, graphene oxide and graphite nanoparticles, which were repeatedly administrated intraperitoneally into Wistar rats for four weeks. Some of the animals was sacrificed after the last injection, whereas the rest were sacrificed twelve weeks after the last exposure. We evaluated blood morphology and biochemistry, as well as the redox and inflammatory state of the liver. The results show the retention of nanoparticles within the peritoneal cavity in the form of prominent aggregates in proximity to the injection site, as well as the presence of some nanoparticles in the mesentery. Small aggregates were also visible in the liver serosa, suggesting possible transportation to the liver. However, none of the tested nanoparticles affected the health of animals. This lack of toxic effect may suggest the potential applicability of nanoparticles as drug carriers for local therapies, ensuring accumulation and slow release of drugs into a targeted tissue without harmful systemic side effects.     

Influence of Methionine sulfoximine on the photosynthesis of isolated chloroplasts

Methionine sulfoximine provided at a concentration which inhibits photosynthesis in intact leaves (10 mM) had no significant influence on the rate of photosynthesis of isolated pea leaf chloroplasts. In contrast, ammonium, 3-(3,4-dichlorophenyl)-1,1-dimethylurea, and D,L-glyceraldehyde all strongly inhibited the photosynthesis of isolated chloroplasts. We conclude that low concentrations of methionine sulfoximine (up to 10 mM) have no direct effect on the photosynthetic process.     

Effects of Dietary Methionine and Cystine on Endogenous Hypercholesterolemia in Hypothyroid Rats

The effects on cholesterolemia of dietary additions (1.2%) of methionine and cystine to a 20% casein diet were studied in both euthyroid and thiouracil-induced hypothyroid rats. The hypothyroid rats lapsed into endogenous hypercholesterolemia, which was due to an increase in the very-low-density lipoprotein plus low-density lipoprotein-cholesterol [(VLDL+LDL)-Ch] concentration with no change in the high-density lipoprotein-cholesterol (HDL-Ch) concentration. These lipoprotein changes in hypothyroid rats resulted in a marked (5-fold) increase in the atherogenic index [AI, (VLDL-LDL)-Ch/HDL-Ch] when compared to that of elutyroid rats. Methionine reduced the hypercholesterolemia in the hypothyroid state by suppressing the elevation in (VLDL + LDL)-Ch with no significant reduction in HDL-Ch, resulting in a notable fall of AI, while methionine showed no significant effect on cholesterolemia and AI in the euthyroid state. Cystine induced hypercholesterolemia due to a significant elevation of HDL-Ch in the euthyroid state, but the amino acid showed no significant effect on cholesterolemia and hence AI in the hypothyroid state. These results suggest that methionine overcomes changes in the parameters involved in Ch biodynamics that cause hypercholesterolemia in the hypothyroid state, whereas cystine counterbalances the parameter changes and results in diminution of its hypercholesterolemic effect in the hypothyroid state.     

The Influence of Methionine, Selenomethionine, and Vitamin E on Liver Metabolic Pathways and Steatosis in High-Cholesterol Fed Rabbits

Significant disorders of liver metabolic pathways enzymes after high-cholesterol diet could give information on liver steatosis development. This process could probably also be inhibited by some compounds, as examined in rabbits. Forty-two male rabbits were served a high-cholesterol diet (2 g%) (0.67 g/kg b.m./24 h) with addition of d,l-methionine (70 mg/kg b.m./24 h) or seleno-d,l-methionine (12.5 μg/kg b.m./24 h) or α-tocopherol (10 mg/kg b.m./24 h) for 3 months to compare the protection effect of used compounds on liver metabolism and steatosis. At the beginning and every month, blood was taken. After the experiment was completed, livers were dissected for histological examinations. The concentration of total cholesterol (t-CH), triacylglycerol (TG), and the activities of aldolase (ALD), sorbitol dehydrogenase (SDH), glutamate dehydrogenase (GLDH), lactate dehydrogenase (LDH), aspartate aminotransferase (AST), and alanine aminotransferase (ALT) were determined. Plasma t-CH and TG concentrations were significantly higher in all experimental groups vs control group. Blood serum AST and ALT activities did not undergo change but there were observed not significant increase in the CH group vs control group. Activities of SDH, GLDH, and LDH increased in blood serum and decreased in the liver in all experimental groups. Activities of LDH and SDH increased in the liver in the CH+Met group vs CH group. ALD activity decreased in the liver only in the CH and CH+Se groups. This data support a lipotoxic model of cholesterol-mediated hepatic steatosis. Prolonged administration of high-cholesterol diet not only disturbs the structure of cell membranes, which is expressed by decreased activity of enzymes in the liver and the migration of those enzymes to plasma but as well leads to steatosis of the liver, which has been confirmed by histological examinations. The applied compounds appear to have a varying influence upon the activity of enzymes determined in serum and liver. Obtained results showed a beneficial influence of methionine and vitamin E supplementation on liver steatosis development.     

The Effect of Cisplatin Toxicity and Capsaicin on Electron Transport Chain in Liver and Kidney of Sprague Dawley Rats

Cisplatin accumulates in mitochondria, which is a potent and widely used chemotherapeutic agent. In order to clarify the potential effect of cisplatin on electron transport chain (ETC), the variation of succinate dehydrogenase (SDH) and cytochrome c oxidase (COX) enzyme activities, nucleotide levels, as well as catalase (CAT) enzyme and membrane lipid peroxidation (LPO) level with respect to liver and kidney of cisplatin-exposed rats were studied. We found that cisplatin caused significant impairment in the SDH, COX, and CAT activities, and nucleotide levels associated with membrane LPO in isolated mitochondria. It was determined whether capsaicin, as an antioxidant, has a possible protective role on all investigated parameters of liver and kidney induced by cisplatin. The results of capsaicin + cisplatin suggest that capsaicin have antioxidant capacity to scavenge ROS to prevent membrane damage.     

Effects of Estrogen Coadministration on Epoxiconazole Toxicity in Rats

Epoxiconazole (EPX; CAS‐No. 133855‐98‐8) is a triazole class–active substance of plant protection products. At a dose level of 50 mg/kg bw/day, it causes a significantly increased incidence of late fetal mortality when administered to pregnant rats throughout gestation (gestation day [GD] 7–18 or 21), as reported previously (Taxvig et al., 2007, 2008) and confirmed in these studies. Late fetal resorptions occurred in the presence of significant maternal toxicity such as clear reduction of corrected body weight gain, signs of anemia, and, critically, a marked reduction of maternal estradiol plasma levels. Furthermore, estradiol supplementation at dose levels of 0.5 or 1.0 μg/animal/day of estradiol cyclopentylpropionate abolished the EPX‐mediated late fetal resorptions. No increased incidences of external malformations were found in rats cotreated with 50 mg/kg bw/day EPX and estradiol cyclopentylpropionate, indicating that the occurrence of malformations was not masked by fetal mortality under the study conditions. Overall, the study data indicate that fetal mortality observed in rat studies with EPX is not the result of direct fetal toxicity but occurs indirectly via depletion of maternal estradiol levels. The clarification of the human relevance of the estrogen‐related mechanism behind EPX‐mediated late fetal resorptions in rats warrants further studies. In particular, this should involve investigation of the placenta (Rey Moreno et al., 2013), since it is the materno‐fetal interface and crucial for fetal maintenance. The human relevance is best addressed in a species which is closer to humans with reference to placentation and hormonal regulation of pregnancy, such as the guinea pig (Schneider et al., 2013). Birth Defects Res (Part B) 98:247–259, 2013. © 2013 Wiley Periodicals, Inc.     

Fluoride Toxicity and Status of Serum Thyroid Hormones, Brain Histopathology, and Learning Memory in Rats: A Multigenerational Assessment

High-fluoride (100 and 200?ppm) water was administered to rats orally to study the fluoride-induced changes on the thyroid hormone status, the histopathology of discrete brain regions, the acetylcholine esterase activity, and the learning and memory abilities in multigeneration rats. Significant decrease in the serum-free thyroxine (FT4) and free triiodothyronine (FT3) levels and decrease in acetylcholine esterase activity in fluoride-treated group were observed. Presence of eosinophilic Purkinje cells, degenerating neurons, decreased granular cells, and vacuolations were noted in discrete brain regions of the fluoride-treated group. In the T-maze experiments, the fluoride-treated group showed poor acquisition and retention and higher latency when compared with the control. The alterations were more profound in the third generation when compared with the first- and second-generation fluoride-treated group. Changes in the thyroid hormone levels in the present study might have imbalanced the oxidant/antioxidant system, which further led to a reduction in learning memory ability. Hence, presence of generational or cumulative effects of fluoride on the development of the offspring when it is ingested continuously through multiple generations is evident from the present study.     

Sodium Fluoride and Fluoride Contaminated Ground Water Induced Altered Reproductive Performances in Male Rats

Biological Trace Element Research - Present study was undertaken to investigate the toxic effect of sodium fluoride (NaF)– and fluoride (F)-contaminated ground water on reproductive...     

Effects of Arginine and Methionine on the Growth Depression of Rats Fed Diets High in Glycine

In order to determine if the growth retardation by dietary exceess glycine could be prevented by the addition of arginine and/or methionine, weanling rats were fed a 25% casein diet (standard) or a 10% casein diet (low protein diet) with a supplement of several combinations of glycine, arginine, or methionine.

The changes in body weight, urinary creatinine, and kidney transamidinase activity were determined. The growth depression effect by excess glycine was prevented considerably in animals receiving standard diet and completely in animals receiving low protein diet by the addition of arginine and methionine to the high glycine diets.

The total urinary creatinine was increased by the supplement of both glycine and arginine, while the growth rate was not invariably raised and kidney transamidinase activity had a tendency to decrease.     

Orthotopic Liver Transplantation in Rats

Clinical progress in the field of liver transplantation has been largely supported by animal models^1,2. Since the publication of the first orthotopic rat liver transplantation in 1979 by Kamada et al.³, this model has remained the gold standard despite various proposed alternative techniques⁴. Nevertheless, its broader use is limited by its steep learning curve⁵.In this video paper, we show a simple and easy-to-establish revision of Kamada''s two-cuff technique. The suprahepatic vena cava anastomosis is performed manually with a running suture, and the vena porta and infrahepatic vena cava anastomoses are performed utilizing a quick-linker cuff system⁶. Manufacturing the quick-linker kit is shown in a separate video paper.     

Influence of the Dietary Protein Deficiency on the Activities of Ribosomes and Polysome Patterns in Muscle and Liver of Rats

A group of rats weighing about 120 g were killed at the beginning of the experiment and after 10 days on the 20% casein diet (C-0 and C-10 groups), and another group of rats were killed after 1, 2 and 10 days on the protein-free diet (PF-1, PF-2 and PF-10 groups). From muscle and the liver of each group ribosomes were prepared, and the protein synthesis activity and the polysome patterns were investigated. The activity of polysome fractionated into each size was also measured.

Muscle ribosome activity in PF-1, PF-2 and PF-10 groups decreased to about 60%, 40% and 40% of that in C groups, respectively, and this decrease was due to a fall in activity of polysome itself rather than disaggregation of polysome. Liver ribosome activity in PF-1, PF-2 and PF-10 groups were reduced to about 95%, 90% and 65% of that in C groups, respectively. These alterations in PF-1 and PF-2 groups seemed to be in part related to changes in polysome pattern, whereas ribosome activity in PF-10 group was reduced without changes in polysome pattern.     

Protective Effect of Selenium on Nicotine-Induced Testicular Toxicity in Rats

Effect of exogenous selenium at a dose of 10 mug/kg body weight on the testicular toxicity induced by nicotine in rats was investigated. Male albino rats were maintained for 60 days as follows: (1) control group (normal diet), (2) nicotine group (0.6 mg /kg body weight), (3) selenium (10 microg/kg body weight), and (4) nicotine (0.6 mg/kg body weight) + selenium (10 microg/ kg body weight). Administration of nicotine caused reduction in sperm count and sperm motility. Activity of HMG CoA reductase and concentration of cholesterol were increased in the testes of the nicotine administered group. Activities of testicular enzymes 3beta hydroxysteroid dehyrogenase (3 betaHSD), 17beta hydroxysteroid dehyrogenase (17 betaHSD) were decreased. Levels of testosterone in the serum were also reduced. However, the extent of these alterations was lesser in the group administered with nicotine along with selenium. Analysis of plasma revealed reduced quantity of cotinine in the group co-administered with nicotine along with selenium in comparison with the nicotine group. Nondetectable levels of nicotine were present in the co-administered group. This indicates altered metabolism of nicotine when administered along with selenium.