Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.3.5.1 (succinate dehydrogenase)
 8,177 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mercury-induced renal tubular lesions in the rat present histochemically with a decrease of succinate dehydrogenase (SDH), malate dehydrogenase (MDH), glucose-6-phosphate dehydrogenase (G-6-PD), and unspecific esterase (UE), but with an increase of lactate dehydrogenase (LDH), indicating a drop of energy supply as well as a switch from oxidative to glycolytic energy production. L-thyroxine has the same effect on SDH, G-6-PD, and LDH, but an inverse effect on MDH and UE, pointing to stimulation of gluconeogenesis. However, administration of L-thyroxine to animals which have been submitted to sublimate intoxication even further decreases the MDH and UE activity while raising or partly restoring the activity of LDH, SDH, and G-6-PD. This observation is interpreted as an attempt of the damaged epithelial cell, as the gluconeogenesis ceases, to gain relatively more energy supply for the benefit of the vitally indispensable tubular Na+ reabsorption.
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PMID:Influence of L-thyroxine upon enzymatic activity in the renal tubular epithelium of the rat under normal conditions and mercury-induced lesions. II. Histochemical studies of lactate dehydrogenase, succinate dehydrogenase, malate dehydrogenase, unspecific esterase, and glucose-6-phosphate dehydrogenase. 40 41

Alterations in the levels of selected enzymes have been studied in the liver, kidney and brain of mouse following mercuric chloride (1 mg/Kg body wt./d) administration for 10, 20 and 30 d. The activity of acid phosphatase increased in all the tissues, the highest increase was recorded in the kidneys which showed as much as 4.5 fold elevation following mercuric chloride administration for 30 d. Although the alkaline phosphatase activity in the liver and the brain increased following HgCl2 administration, the kidneys experienced a tremendous decline in this enzyme following the same treatment. Mercury-induced changes in ATPase were complex inasmuch as the nature and magnitude of these changes varied with the tissue as well as the duration of the treatment. Whereas the liver ATPase declined after all the treatment intervals, this enzyme increased in the kidney and brain following administration of HgCl2 for 10 d. However, both the kidneys and brain registered a substantial fall in ATPase activity when HgCl2 administration was continued for 30 d. The levels of both glucose-6-phosphatase and succinic dehydrogenase decreased in all the tissues following HgCl2 administration. Invariably, the magnitude of decrease was the highest after 30 d treatment with HgCl2.
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PMID:Enzyme changes in the brain, liver and kidney following repeated administration of mercuric chloride. 302 11

The freshwater murrel, Channa punctatus, was exposed to a sublethal concentration of mercuric chloride (3 micrograms/liter) for 120 days and the following effects were examined: changes in the levels of glucose and lactic acid in blood and of glycogen and lactic acid in liver and muscles; rate of absorption of glucose from the intestine; and changes in the activities of glucose-6-phosphatase (G-6-Pase), hexokinase, lactate dehydrogenase (LDH), pyruvate dehydrogenase (PDH), succinate dehydrogenase (SDH), malate dehydrogenase (MDH), glutamate dehydrogenase (GDH), L-amino acid oxidase (AO), and xanthine oxidase (XO) in brain, gills, intestine, kidney, liver, and muscles. Mercury-treated fish were hypoglycemic and hypolactemic. The glycogen content of liver and muscles remained unaltered but the muscle lactic acid level decreased significantly. The rate of intestinal absorption of glucose was reduced significantly by exposure to mercury. G-6-Pase activity was decreased in all the tissues. Hexokinase activity also decreased in mercury-exposed fish but it was significant only in intestine, kidney, and liver. The activities of LDH, PDH, SDH, and MDH also were decreased significantly except LDH in brain and MDH in kidney where an insignificant decrease and an insignificant increase, respectively, were recorded. GDH and AO activities were elevated in most of the tissues except GDH in gills, and AO in gills and muscles where a decrease was observed. XO activity in brain, gills, and kidneys was significantly elevated, but no marked alteration was noted in other tissues.
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PMID:Effect of mercuric chloride on some biochemical and physiological parameters of the freshwater murrel, Channa punctatus. 608 7

We studied the hepatotoxic effect of heavy metals (cadmium, mercury, copper) on Mg2+ -ATPase, NADH diaphorase, succinic dehydrogenase and acid phosphatase of yellow-legged gull liver, using enzyme histochemical methods. The lysosomal enzyme activity of acid phosphatase was increased in all cases. However, the other enzyme activities appeared to be insensitive to the different metallic pollutants and to their respective levels, in contrast with literature experimental data showing plasma membrane and mitochondrial alterations. This controversy could be explained by the differences in dietary conditions and metal overloads. The molecular basis of the toxicities of metallic pollutants is discussed.
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PMID:Hepatotoxic effect of metallic pollutants on enzyme histochemical activities of yellow-legged gull Larus cachinnans michahellis liver. 1107 48

Mercury intoxication has been associated with male reproductive toxicity in experimental animals and mercury may have the potential to produce adverse effects on fertility in men. Vitamin E may protect against toxic effects of mercury in the liver and other tissues. To investigate the protective role of vitamin E against mercuric chloride toxicity for the testis, epididymis, and vas deferens of adult male mice, animals were treated with either mercuric chloride 1.25 mg/kg/day, vitamin E 2 mg/kg/kg, or a combination of the two treatments. Control animals were treated with water. Treatments were administered by daily gavage for 45 days. An additional group of animals treated with mercuric chloride were permitted to recover for 45 days after mercuric chloride treatments. Parameters studied included serum testosterone, epididymal sperm count, motility, and morphology, epididymal and vas deferens adenosine triphosphatase (ATPase), phosphorylase, sialic acid, glycogen and protein, testicular succinate dehydrogenase (SDH), phosphatases, cholesterol, ascorbic acid, and glutathione. Fertility was evaluated by sperm positive vaginal smears after overnight cohabitation with a female. Mercuric chloride produced a reduction in epididymal sperm count, sperm motility, and sperm viability, and there were no sperm-positive smears in this group. Biochemical tests from the male reproductive organs were also altered by mercuric chloride treatment. Coadministration of vitamin E with mercuric chloride prevented the changes in sperm and biochemical parameters and was associated with control rates of sperm positive smears after cohabitation. Animals given vitamin E with mercuric chloride also had lower concentrations of mercury in the testis, epididimyis, and vas deferens. Permitting animals to recover for 45 days after mercuric chloride treatment resulted in partial recovery of sperm and biochemical parameters. Vitamin E cotreatment has a protective role against mercury-induced male reproductive toxicity.
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PMID:Protective effect of vitamin E against mercuric chloride reproductive toxicity in male mice. 1173 24

Light-harvesting complex II (LHCII) prepared from isolated thylakoids of either broken or intact chloroplasts by three independent methods, exhibits proteolytic activity against LHCII. This activity is readily detectable upon incubation of these preparations at 37 degrees C (without addition of any chemicals or prior pre-treatment), and can be monitored either by the LHCII immunostain reduction on Western blots or by the Coomassie blue stain reduction in substrate-containing "activity gels". Upon SDS-sucrose density gradient ultracentrifugation of SDS-solubilized thylakoids, a method which succeeds in the separation of the pigment-protein complexes in their trimeric and monomeric forms, the protease activity copurifies with the LHCII trimer, its monomer exhibiting no activity. This LHCII trimer, apart from being "self-digested", also degrades the Photosystem II (PSII) core proteins (D1, D2) when added to an isolated PSII core protein preparation containing the D1/D2 heterodimer. Under our experimental conditions, 50% of LHCII or the D1, D2 proteins are degraded by the LHCII-protease complex within 30 min at 37 degrees C and specific degradation products are observed. The protease is light-inducible during chloroplast biogenesis, stable in low concentrations of SDS, activated by Mg(2+), and inhibited by Zn(2+), Cd(2+), EDTA and p-hydroxy-mercury benzoate (pOHMB), suggesting that it may belong to the cysteine family of proteases. Upon electrophoresis of the LHCII trimer on substrate-containing "activity gels" or normal Laemmli gels, the protease is released from the complex and runs in the upper part of the gel, above the LHCII trimer. A polypeptide of 140 kDa that exhibits proteolytic activity against LHCII, D1 and D2 has been identified as the protease. We believe that this membrane-bound protease is closely associated to the LHCII complex in vivo, as an LHCII-protease complex, its function being the regulation of the PSII unit assembly and/or adaptation.
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PMID:Proteolytic activity against the light-harvesting complex and the D1/D2 core proteins of Photosystem II in close association to the light-harvesting complex II trimer. 1235 Dec 18

Mercury is a major issue in environmental health, as it can be biotransformed to methylmercury, accumulate into aquatic organisms, and enter the food chain. Therefore, we searched for molecular markers for methylmercury exposure comparing, by differential display, exposed Xenopus embryos to controls. We found two genes whose expression is completely inhibited by CH3HgCl, and we propose them as biomarkers of exposure. The first transcript appears to be a novel gene, with a short region similar to the human iron-sulfur subunit of succinate dehydrogenase. The second gene presents a high similarity with the human homeodomain-interacting protein kinase 3 (HIPK3), a protein that is known to be involved in the apoptotic signaling pathway. These molecular biomarkers could be used to detect very early effects of the metal; furthermore, they could be useful in understanding the molecular mechanisms of mercury toxicity.
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PMID:Gene expression in Xenopus embryos after methylmercury exposure: a search for molecular biomarkers. 1246 72

The epidermis of vertebrates is the body's principal barrier against environment and its possible contaminants. The presence of keratins, as well as specific detoxifying molecules or enzyme activities, in the various epidermis layers is believed to be involved in providing protection from harmful environmental influences. Anuran integument is poorly hornified and thus permeable to some endogenous and exogenous compounds and thus serves as a good bioindicator of overall environmental conditions. In the present investigation, we studied the epidermis of Rana kl. esculenta adult specimens collected at two different rice fields, relatively unpolluted and heavily polluted, respectively. Environmental pollution was assayed by chemical analysis performed on both sediments and animals. We evaluated the structural aspects of the epidermis at both light and electron microscopy levels and the pattern of keratinization by immunohistochemistry. Furthermore, we studied the activities of some enzymes (acid and alkaline phosphatase, nitric oxide synthase-related nicotinamide adenine dinucleotide phosphate dehydrogenase, glucose-6-phosphate dehydrogenase, catalase, nonspecific esterases, and succinic dehydrogenase) involved mainly in membrane transport, xenobiotics, and oxidative metabolism. Compared with controls, in polluted animals we found the following results: (1) an increase in pollutant levels (i.e., cadmium, mercury, and lead); (2) less keratinized superficial cells in the epidermis; and (3) changes in most enzyme activities in keratinocytes and mitochondria-rich cells (particularly glucose-6-phosphate dehydrogenase and esterases, both important to counteract oxidative and toxic stress). Taken as a whole, the present data indicate the morphofunctional plasticity of the frog epidermis in response to environmental contamination.
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PMID:Morphofunctional evidence of changes in principal and mitochondria-rich cells in the epidermis of the frog Rana kl. esculenta living in a polluted habitat. 1699 33

Present study investigated the protective role of melatonin (MLT, 5mg/kg body wt., ip) against the long term effects of mercuric chloride (MC; 2 and 4 mg/kg body wt., po) in the thyroid gland of the rats through certain antioxidative indices like superoxide dismutase (SOD), glutathione peroxidase (GPx), glutathione reductase (GR), glutathione (GSH), catalase (CAT) and lipid peroxidation (LPO), other biochemical parameters such as succinate dehydrogenase (SDH), adenosine triphosphatase (ATPase), acid phosphatase (ACPase) and alkaline phosphatase (ALPase) were also measured. Antioxidative enzymes and other parameters showed a significant reduction while LPO and mercury levels increased significantly in a dose dependent manner in MC treated animals as compared to control groups. Co-treatment with MLT revealed no significant effect on antioxidative and metabolic indices in the thyroid gland of rats. The results of present study thus strongly suggest that mercury affected antioxidant defense system and other metabolic enzymes of thyroid. Co-administration of melatonin exerted a protective effect against mercury induced endocrine toxicity.
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PMID:Protective role of melatonin against the mercury induced oxidative stress in the rat thyroid. 1957 59

The effect of melatonin on the neurotoxicity induced by mercuric chloride was studied. Adult rats were fed orally with two different doses of mercuric chloride (2 mg; 4 mg/kg body weight) to evaluate brain toxicity with respect to cerebral hemisphere, cerebellum, and medulla oblongata regions for 60 days with or without supplementation with melatonin (5 mg/kg body weight) intraperitoneally. The results suggest that the graded doses of mercury elicit the depletion of enzymatic activities, such as adenosine triphosphatase, succinate dehydrogenase, phosphorylase, alkaline phosphatase, acid phosphatase, altered glycogen, total protein, and lipid peroxidation levels in the cerebral hemisphere, cerebellum, and medulla oblongata of the brain, thereby affecting their respective functions. Blood glucose and mercury levels increased, followed by a reduction in body and organ weights. All these effects seemed to be severe in the cerebral hemisphere of the brain. Further affected indices were, to some extent, maintained in the brain of animals cotreated with melatonin, showing its protective role against mercury-exerted neurotoxicity.
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PMID:Melatonin protection on mercury-exerted brain toxicity in the rat. 2030 47


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