Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.6.1.2 (alanine aminotransferase)
 26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intracerebroventricular (ICV) Injection of aluminum tartrate (ALT 205.7 mcg) in the rat induces a progressive encephalopathy characterized by neurobehavioral derangements, by the slowing of the background rhythm of the quantitative electroencephalogram and by learning and memory deficits. The condition, lethal within about 35 days, is associated with a reduced ability of cerebral synaptosomes to incorporate radiolabeled 2-Deoxy-D-glucose (2DG) in vitro. The present study surveyed and compared the in vivo regional cerebral glucose uptake (rCGlu) capacity of rats injected with ALT 7 or 14 days previously either by the ICV or intraperitoneal (120 mg/Kg) routes. ICV injection produces transient rCGlu depression in caudate-putamen, geniculate bodies and periaquaeductal gray, resolving by day 14. Thalamic nuclei exhibit depressed rCGlu by the 7th day undergoing further depression by day 14. The rCGlu of occipitoparietal cortices, normal at day 7, was increased by day 14. In contrast, peripheral aluminum administration produced transient rCGlu depression in olfactory bulbs, frontal and occipitoparietal cortices, nucleus accumbens and cerebellum, and transiently increased rCGlu in the geniculate nuclei. These effects, present by day 7, had resolved by day 14 when rCGlu had increased in the previously normal pontine nuclei and decreased in the previously normal hippocampus. Neither treatment changed rCGlu in the septal nuclei, globus pallidus, amygdala, olfactory cortex, substantia nigra, superior or inferior colliculi or the medullary nuclei. The pattern of anomalies in cerebral 2DG incorporation most probably indexes the deranged glucoregulatory and metabolic demands of these brain areas in the aluminum intoxicated state.
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PMID:Comparison of the effects of central and peripheral aluminum administration on regional 2-deoxy-D-glucose incorporation in the rat brain. 260 61

Aluminium (Al) chloride (10-200 microM) increased the Al content in hepatocytes isolated from fed male rats in a time- and concentration-dependent manner. After 60 min of incubation with 100 microM Al about 45% of cellular Al was found each in the mitochondrial and the postmitochondrial fraction of hepatocytes, whereas about 5% of Al sedimented with nuclei and cell debris. Concomitantly, the leakage of lactate dehydrogenase (LDH), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) increased in the presence of Al time- and concentration-dependently, but only to a moderate extent. Aluminium (10-200 microM) also accelerated the formation of lactate by hepatocytes. No significant differences were found in Al uptake and distribution and its effect on LDH leakage and lactate formation when the metal ion was given as AlCl3, Al(NO3)3 or Al(lactate)3. Al concentrations (AlCl3) exceeding 250 microM severely disturbed the determination of LDH, AST and lactate in a cell free system. The data suggest only a moderate toxicity of Al compounds to isolated hepatocytes, when given in amounts approximating (patho)physiological conditions.
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PMID:Uptake and distribution of aluminium in rat hepatocytes and its effect on enzyme leakage and lactate formation. 356 54

In the first test, aluminum nitrilotriacetate (Al-NTA), aluminum chloride, aluminum potassium sulfate, or saline was injected ip, employing male Wistar rats. Each group consisted of ten rats. Al was given in a dose of 5 mg Al/kg body wt/day, for 14 days. Only those rats given Al-NTA showed morphological damage of the liver and kidney. Damages included diffuse midzonal coagulation necrosis of hepatocytes and acute proximal tubular necrosis of the kidney at Day 4. Seven of ten rats given Al-NTA died within 5 days. The second test was performed in metabolic cages. Al-NTA, in a dose of 1.5 to 2.0 mg Al/kg body wt/day, and NTA, of an equivalent dose, were injected ip for 54 days. Midzonal coagulation necrosis and some regenerative changes were observed in the hepatic parenchyma at Day 8. At the end of the study, complete regeneration occurred in the liver. Biochemical tests at Days 6, 13, and 28 showed high amounts of GOT, GPT, LDH, gamma-GTP, and ALP. Necrosis of proximal tubular cells of the kidney and some regeneration was noted at Day 8. Metabolic acidosis was demonstrated at Days 6, 13, and 28. Moreover, from Day 38 on, atrophy of the nerve cells of the cerebrum and demyelination of the brain stem were observed. Control rats given NTA did not exhibit any organ damage. It is concluded that a relatively small dose of Al can produce toxicosis when given with certain metal chelators.
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PMID:Liver, kidney, and central nervous system toxicity of aluminum given intraperitoneally to rats: a multiple-dose subchronic study using aluminum nitrilotriacetate. 643 9

Aluminium (Al) exposure can result in Al accumulation in the liver and this metal can be toxic to the hepatic tissue at high concentrations. In the present study the model of the isolated perfused rat liver was used to investigate the hepatic handling of Al. Livers from male Wistar rats were perfused in a recirculating system for 240 min. The liver function remained unchanged at perfusate concentrations of Al ranging from 4.9 to 1530.0 micrograms/l. At higher Al levels of 6535.3-16694.9 micrograms/l signs of toxicity towards isolated perfused livers were observed as indicated by an increased release of the enzymes AST and ALT into the perfusate, a pronounced reduction of bile flow rate and a 50% suppression of oxygen consumption. The hepatic Al clearance was low and decreased with increasing concentrations of Al in the perfusate from 4.3 +/- 0.6 microliters/min per g liver at a nominal Al concentration of 9.1 micrograms/l in control perfusate to 0.04 +/- 0.02 microliter/min per g liver at the highest concentration group. There was almost a linear dose dependent retention of Al in the liver with 4.9-635.7 micrograms Al/l perfusate while at higher concentrations Al levels in this organ increased disproportionally. It is concluded that by using the isolated perfused rat changes of liver functions occur only at very high Al concentrations in the perfusate and that only negligible amounts of Al are eliminated by the liver.
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PMID:Hepatic clearance and retention of aluminium: studies in the isolated perfused rat liver. 900 95

The cryopreservation of human liver slices is a promising way to enhance the ability to test the metabolism of drug candidates. This study demonstrates the use of a novel technique for the cryopreservation of both rat and human liver slices. In this technique the slices are treated with Me2SO and sandwiched between aluminum plates separated by a thin gasket. The device is then submerged in liquid nitrogen to freeze the slices, which can then be stored until use. To thaw the slices, the apparatus is submerged in a water bath at 37 degrees C. Slices frozen and thawed in this manner were compared to those frozen in conventional cryovials. The viability of the slices was determined by incubating them in 12-well plates and measuring urea synthesis, ethoxycoumarin metabolism, and cytosolic enzyme leakage (LDH and ALT). The viability of rat slices frozen between plates approached that of fresh slices and was consistently higher than slices frozen in cryovials. Slices from two human samples gave similar results. The technique was found to work over a wide range of Me2SO concentrations (4.5 to 22% was tested) with an optimal concentration between 10 and 15%.
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PMID:Cryopreservation of rat and human liver slices by rapid freezing. 1019 Oct 38

This work aimed to study the relationship between the accumulation of cadmium (Cd) or aluminum (Al) in certain tissues and the levels of lipid peroxides as well as tissue antioxidants. To carry out such investigations, CdCl2 was given to rats in two dose levels; 0.5 or 2.0 mg/kg i.p for 1 day or daily repeated doses for 2 weeks. Al was given as AlCl3 either in a single dose of 100 mg/kg or daily repeated doses of 20 mg/kg for 2 and 4 weeks. The measured parameters were tissue malondialdehyde (MDA, index of lipid peroxidation) and reduced glutathione (GSH) levels as well as the activities of glutathione peroxidase (GSH-PX), glutathione reductase (GSSG-R), and glucose-6-phosphate dehydrogenase (G-6-PDH) enzymes. Liver and kidney functions were assessed by measuring serum alanine aminotransferase (ALT) and alkaline phosphatase (ALP) activities as well as serum urea and creatinine concentrations. Cd and Al concentrations in the studied tissues were also measured. Results indicated that tissue Cd was significantly increased after administration of either Cd doses. After a single dose of 0.5 or 2.0 mg/kg CdCl2, the increase in tissue Cd levels were accompanied by an increase in MDA and a decrease in GSH levels. On the other hand, after repeated administration of Cd, tissue Cd accumulation was accompanied by increased hepatic and renal GSH levels with decrease in MDA content and a decrease in GSH-PX activity in liver. Liver function was affected at all dose regimens, whereas kidney function was affected only after 2 weeks administration of the higher dose. In Al treated rats, Al concentration was shown to be increased in liver much more than in brain. This was accompanied by a slight decrease in hepatic GSH level after 2 weeks and a decrease in GSH-PX activity after 4 weeks. Liver function was affected only after repeated injection of Al for 2 or 4 weeks. In general, Al administration exhibited safer pattern than Cd.
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PMID:Effect of cadmium and aluminum intake on the antioxidant status and lipid peroxidation in rat tissues. 1167 49

For a long time, aluminium (Al) has been considered an indifferent element from a toxicological point of view. In recent years, however, Al has been implicated in the pathogenesis of several clinical disorders, such as dialysis dementia, the fulminant neurological disorder that can develop in patients on renal dialysis. Therefore, the present experiment was carried out to determine the effectiveness of l-ascorbic acid (AA) in alleviating the toxicity of aluminium chloride (AlCl3) on certain hemato-biochemical parameters, lipid peroxidation and enzyme activities of male New Zealand white rabbits. Six rabbits per group were assigned to 1 of 4 treatment groups: 0mg AA and 0mg AlCl3/kg body weight (BW) (control); 40 mg AA/kg BW; 34 mg AlCl3/kg BW (1/25 LD50); 34 mg AlCl3 plus 40 mg AA/kg BW. Rabbits were orally administered their respective doses every other day for 16 weeks. Evaluations were made for lipid peroxidation, enzyme activities and hemato-biochemical parameters. Results obtained showed that AlCl3 significantly (P<0.05) induced free radicals and decreased the activity of glutathione S-transferase (GST) and the levels of sulfhydryl groups (SH groups) in rabbit plasma, liver, brain, testes and kidney. Aspartate aminotransferase (AST), alanine aminotransferase (ALT), alkaline phosphatase (AlP), acid phosphatase (AcP), and phosphorylase activities were significantly decreased in liver and testes due to AlCl3 administration. While, plasma, liver, testes and brain lactate dehydrogenase (LDH) activities were significantly increased. Contrariwise, the activity of acetylcholinesterase (AChE) was significantly decreased in brain and plasma. Aluminium treatment caused a significant decrease in plasma total lipids (TL), blood haemoglobin (Hb), total erythrocytic count (TEC) and packed cell volume (PCV), and increased total leukocyte count (TLC) and the concentrations of glucose, urea, creatinine, bilirubin and cholesterol. Ascorbic acid alone significantly decreased the levels of free radicals, TL, cholesterol, glucose and creatinine, and increased the activity of GST, SH groups, Hb, TEC and PCV. While, the rest of the tested parameters were not affected. Also, the present study showed that ascorbic acid can be effective in the protection of aluminium-induced toxicity.
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PMID:Aluminium-induced changes in hemato-biochemical parameters, lipid peroxidation and enzyme activities of male rabbits: protective role of ascorbic acid. 1512 98

Aluminium has the potential to be neurotoxic in humans and animals, and is present in many manufactured foods and medicines and is also added to drinking water for purification purposes. Therefore, the present study was carried out to investigate (1) the alterations in biochemical parameters, free radicals and enzyme activities induced by aluminium chloride (AlCl3) in plasma and different tissues of male rats, and (2) the role of vitamin E (VE) and selenium in alleviating the negative effects of aluminium. VE plays an important role as an antioxidant and is consequently expected to protect tissues from damage caused by reactive oxygen metabolites. Selenium is also generally recognized to be a trace mineral of great importance for human health, protecting the cells from the harmful effects of free radicals. Seven rats per group were assigned to one of six treatment groups: 0 mg VE, 0 mg Se and 0 mg AlCl3/kg body weight (BW) (control); 100 mg VE/kg BW; 200 microg Se kg BW; 34 mg AlCl3/kg BW (1/25 LD50); 34 mg AlCl3 plus 100 mg VE/kg BW; 34 mg AlCl3 plus 200 microg Se/kg BW. Rats were orally administered their respective doses every other day for 30 days. Evaluations were made for lipid peroxidation, enzyme activities and biochemical parameters. Results obtained showed that AlCl3 significantly (p<0.05) induced free radicals (thiobarbituric acid-reactive substances) and decreased the activity of glutathione S-transferase (GST) and the levels of sulphydryl groups (SH groups) in rat plasma, liver, brain, testes and kidney. Aspartate aminotransferase, alanine aminotransferase, alkaline phosphatase, acid phosphatase, and phosphorylase activities were significantly decreased in liver and testes due to AlCl3 administration, while the activities of these enzymes were significantly increased in plasma. In addition, plasma, liver, testes and brain lactate dehydrogenase activities were significantly increased. On the contrary, the activity of acetylcholinesterase was significantly decreased in brain and plasma. Al treatment caused a significant decrease in plasma total protein (TP), albumin and total lipids (TL), and increased the concentrations of glucose, urea, creatinine, bilirubin and cholesterol. VE or Se alone significantly decreased the levels of free radicals, TL, cholesterol, urea and bilirubin, and increased the activity of GST, and SH groups, TP and albumin, while the rest of the tested parameters were not affected. VE or Se in combination with Al partially or totally alleviated its toxic effects on the studied parameters. In conclusion, VE and Se have beneficial effects and could be able to antagonize Al toxicity.
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PMID:Antioxidant effect of vitamin E and selenium on lipid peroxidation, enzyme activities and biochemical parameters in rats exposed to aluminium. 1548 71

The relation between floc structure and membrane permeability was studied in a coagulation-MF hybrid process. The floc structure changed with operating parameters in the coagulation process and was quantified with fractal dimension (dF). The concentration ratio between suspended colloids and injected coagulant had an essential effect on dF of coagulated flocs. Larger flocs with low fractal dimension were produced for ALT (aluminum ion concentration dosed/suspended particle concentration) between 0.4 and 0.8. Flocs maintained stable characteristics at the coagulation period of over 20 minutes. Membrane permeability was improved with coagulated flocs of lower fractal dimension, which tend to have higher porosity and aggregate relatively loosely. These more porous flocs reduce specific resistance of coagulated flocs. The relation between membrane filterability and fractal dimension of flocs was explored in a submerged MF hybrid system as well as in a batch unstirred cell filtration.
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PMID:Influence of floc structure on membrane permeability in the coagulation-MF process. 1600 72

Aluminium (Al) has been proposed as an environmental factor that may contribute to some diseases, affect several enzymes and other biomolecules and induced free radical-mediated cytotoxicity. Also, Al induced reproductive toxicity and exerted a significant adverse effect on the steroidogenesis. The antioxidant ascorbic acid (AA) plays an important role in various physiological processes in the body including detoxification of different toxic materials. Therefore, the present investigation aimed to elucidate possible protective effects of AA in alleviating the toxicity of aluminium chloride (AlCl3) on reproductive performance, lipid peroxidation and enzyme activities in seminal plasma of male New Zealand white rabbits. Six rabbits per group were assigned to one of four treatment groups: 0 mg AA and 0 mg AlCl3 /kg body weight (BW) (control); 40 mg AA/kg BW; 34 mg AlCl3 /kg BW; 34 mg AlCl3 plus 40 mg AA/kg BW. Rabbits were orally administered their respective doses every other day for 16 weeks. Results obtained showed that AlCl3 significantly (P<0.05) decreased libido (by increasing the reaction time), ejaculate volume, sperm concentration, total sperm output, sperm motility (%), total motile sperm per ejaculate (TMS), packed sperm volume (PSV), total functional sperm fraction (TFSF), normal and live sperm and semen initial fructose. While initial hydrogen ion concentration (pH) and dead and abnormal sperm were increased (P<0.05). Live body weight (LBW), feed intake (FI) and relative weights of testes (RTW) and epididymis (REW) were significantly (P<0.05) decreased. Concentrations of thiobarbituric acid-reactive substances (TBARS) were significantly (P<0.05) increased in seminal plasma of rabbits treated with AlCl3 compared with control. While, activities of glutathione S-transferase (GST), aspartate aminotransferase (AST), alanine aminotransferase (ALT) and acid phosphatase (AcP) were significantly (P<0.05) decreased. Ascorbic acid alone significantly increased LBW, FI, RTW, REW, semen characteristics and seminal plasma enzymes, and decreased the levels of free radicals. Also, the present study showed that ascorbic acid might be effective in the protection of aluminium-induced reproductive toxicity. It was suggested that AlCl3 exerted a significant adverse effect on reproductive performance of male rabbits. Furthermore, AA could be able to antagonize the toxic effects of AlCl3 and improved semen quality of male rabbit.
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PMID:Aluminium-induced deterioration in reproductive performance and seminal plasma biochemistry of male rabbits: protective role of ascorbic acid. 1609 53


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