Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0042875 (vitamin E deficiency)
916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Concentrations of alpha-tocopherol (alpha-T) in plasma, cerebrum, cerebellum, midbrain and brain stem and activity of selenium (Se)-dependent glutathione peroxidase (GSH-Px) in plasma were measured in 1- and 15-month-old male F344 rats fed diets containing vitamin E (E, IU/kg) and Se (ppm) in the following combinations: 30 E, 0.1 Se (control diet, minimum requirements); 200 E, 0.2 Se; 0.0 E, 0.2 Se; 200 E, 0.0 Se; 0.0 E, 0.0 Se for 8 or 20 weeks. alpha-T and GSH-Px levels in plasma were reflective of dietary treatment in young rats in which an interaction of the two nutrients was noted. A longer period of dietary vitamin E deficiency was necessary to deplete plasma alpha-T and depress GSH-Px activity significantly in the old rats. Among the brain regions of all ages, cerebrum and midbrain had the highest concentrations of alpha-T while cerebellum showed the lowest. However, cerebellum of young rats and cerebellum and brain stem of old rats had a greater alpha-T accumulation with doubly supplemented diets, whereas only cerebellum of young and old rats showed a marked increase of alpha-T with vitamin E supplementation. In old rats, vitamin E deficiency resulted in greater depletion of alpha-T in cerebellum and brain stem than cerebrum and midbrain regions. Se deficiency in brain stem of young and old rats significantly decreased alpha-T accumulation by vitamin E supplementation. Se supplementation marginally alleviates vitamin E depletion in brain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of dietary vitamin E, selenium and age on regional distribution of alpha-tocopherol in the rat brain. 382 94

Feeding a basal diet free of vitamins E and C to weanling male rats for 8 months resulted in biochemical changes characteristic of vitamin E deficiency. These included increased liver thiobarbituric acid values; decreased blood GSH levels, plasma vitamin E levels, and glutathione peroxidase activities; and increased activities of plasma pyruvate kinase, glutamic-oxaloacetic transaminase, creatine kinase, lactic dehydrogenase, and malic dehydrogenase. Tube-feeding vitamin C for 21 days resulted in partial reversal effects on the above parameters except activities of glutathione peroxidase, lactic dehydrogenase, and malic dehydrogenase. The results suggest that vitamin C may spare in part the metabolism of vitamin E through its antioxidant property.
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PMID:Vitamin C partially reversed some biochemical changes produced by vitamin E deficiency. 382 80

Preliminary experiments confirmed the work of others showing that the total glutathione peroxidase (GSH-px) activity of rat liver supernatant fraction may be resolved into two peaks of activity (peaks I and II) by gel filtration, and that peak I is the selenium-containing enzyme and peak II is another peroxidase indistinguishable from glutathione S-transferase (GST). In selenium and vitamin E deficiency, the total activity of the GSH-px became very low, and the total activity of GST with 1-chloro-2,4-dinitrobenzene (CDNB) as substrate was enhanced. Study of the time course of these changes as deficiency progressed indicated that the stimulus for the rise in GST (CDNB) activity was the fall in GSH-px activity which preceded it. The peroxidase activity of GST was found to reside only in the GST AA, B and B2 forms of the enzyme, which were shown to be respectively a homodimer of the Yc subunit, a homodimer of the Ya subunit and a heterodimer of the YaYc subunit. As vitamin E and selenium deficiency progressed, the B2 and AA forms of the enzyme showed enhanced activity, which was interpreted as implying that the Yc subunit of the enzyme becomes enriched as a consequence of the withdrawal of selenium from the animal's diet. Densitometric measurements of the Yc and Ya subunits confirmed that the amount of the Yc subunit was nearly doubled in selenium deficiency, relative to the Ya subunit.
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PMID:The glutathione S-transferases in selenium and vitamin E deficiency. 400 1

Glutathione peroxidase (EC 1.11.1.9.) (GSHPx) and P-450 activity were measured in hepatic mitochondrial and microsomal fractions from rats deficient in vitamin E and/or essential fatty acids (EFA). The data were compared to corresponding normal values. GSHPx was significantly decreased in the mitochondrial matrix from animals in all 3 deficiency states. In vitamin E deficiency, a non-significant decreased GSHPx activity was found in mitochondrial membranes. Opposite to these findings, GSHPx was significantly increased in mitochondrial membranes of EFA-deficient animals. In combined EFA and vitamin E deficiency, the mitochondrial membrane GSHPx activity was only insignificantly increased. The P-450 complex activity was not detectable in the mitochondrial matrix. In mitochondrial membranes and microsomes, the P-450 complex activity changed parallel to the GSHPx activity.
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PMID:Subcellular distribution of the cytochrome P-450 complex and glutathione peroxidase activity in vitamin E and essential fatty acid deficiency. 645 38

Effects of a short-term vitamin E deficiency on some lipid peroxidative properties were investigated in mouse cardiac and skeletal muscles. The concentration of vitamin E decreased 35.8% in 5 weeks and 61.2% in 12 weeks in skeletal muscle. The corresponding decrease in cardiac muscle was 65.7% in 12 weeks. Simultaneously the susceptibility of muscle homogenates to in vitro lipid peroxidation increased with 48.6% (5 weeks) and 44.5% (12 weeks) in skeletal muscle and with 101.8% (12 weeks) in cardiac muscle. Highly significant negative correlations were observed between the concentration of vitamin E and in vitro lipid peroxidation in cardiac and skeletal muscles. Also the sensitivity to Fe2+-induced peroxidation was increased in skeletal muscle after the deficiency of 5 weeks. The total contents of peroxidizable lipids (Fe2+-induction) were significantly (approx. 20%) decreased after 12 weeks in cardiac and skeletal muscles. The concentration of lipofuscin was unaffected in both muscles of vitamin E-deficient mice. Vitamin E deficiency (5 weeks) decreased the activity of selenium-dependent glutathione peroxidase in skeletal muscle but did not affect the activities of catalase and beta-glucuronidase and the concentrations of protein, reduced glutathione and total sulfhydryl groups. These results show that a short-term vitamin E deficiency affects the peroxidative properties of cardiac and skeletal muscles and may thus expose the muscles to peroxidation injuries.
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PMID:Vitamin E deficiency and the susceptibility to lipid peroxidation of mouse cardiac and skeletal muscles. 652 97

Glutathione peroxidase activity in platelets increased stepwise in selenium-depleted rats that were repleted with graded levels of dietary sodium selenite. In a 3-phase depletion/repletion/depletion feeding study, glutathione peroxidase activity was similar in platelets and liver, which apparently contains the largest labile pool of selenium in the body. The activity of glutathione S-transferase (selenium-independent glutathione peroxidase) in platelets was low and was not affected by selenium deficiency, even though hepatic transferase was markedly elevated in selenium-deficient rats. Vitamin E deficiency did not affect activities of glutathione peroxidase or glutathione S-transferase in platelets or liver. Determination of glutathione peroxidase activity in platelets apparently is a promising technique for assessing selenium status and, possibly, for measuring selenium bioavailability.
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PMID:Platelet glutathione peroxidase activity as an index of selenium status in rats. 682 91

The effects of parenteral vitamin E treatment on aspects of the pulmonary biochemical and morphologic response to 100% oxygen were studied in newborn rabbits manifesting chemical evidence of vitamin E deficiency. Pups treated with 2 mg/100 g body weight increased serum vitamin E levels from 0.39 to 2.17 mg/dl by 72 hr and lung tissue vitamin E content from 3.52 to 17 mg/mg wet weight of lung. In vitro lipid peroxidation in lung homoginates of animals in 100% oxygen for 72 hr was inhibited by approximately 80% in animals receiving 100% oxygen plus vitamin E. Hyperoxia-induced increases in the pulmonary antioxidant enzymes, superoxide dismutase, glutathione peroxidase, and glutathione reductase were diminished by vitamin E administration. Lungs from vitamin E-treated animals did not show the early lung epithelial injury seen in animals exposed to 100% oxygen but not treated with vitamin E. Mophometric analysis of lungs of animals in room air for 72 hr showed 81.6% of lung to be normal as compared with 43.3% normal lung in the group maintained in 100% oxygen for 72 hr. In the group treated with oxygen plus vitamin E, the lungs were similar to room air controls (82.6% normal). This study thus provides further evidence for a direct antioxident affect of vitamin E in lung.
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PMID:Vitamin E affects lung biochemical and morphologic response to hyperoxia in the newborn rabbit. 722 Jan 49

1. Glutatione peroxidase activity (EC 1.11.1.9) and erythrocyte stability were measured in Friesian bull calves which were given for 36 weeks semi-purified diets either adequate or low in selenium or vitamin E or both. 2. Dietary Se or vitamin E content had no effect on growth rate and haematlogical values. None of the calves exhibited clinical deficiency symptoms and serum aspartate amino transferase (EC 2.6.1.1) and creatine phosphokinase (EC 2.7.3.2) activities remained normal. Heart and skeletal muscles of all calves appeared macroscopically and microscopically normal ato autopsy. 3. Glutathione peroxidase activity in plasma, blood and other tissues, except the testis, was significantly lower in calves receiving low dietary Se but was independent of dietary vitamin E content. 4. Plasma vitamin E levels decreased rapidly and to very low levels in calves given low vitamin E diets irrespective of the Se content of the diet. 5. A low dietary vitamin E intake increased the susceptibility of erythrocytes to auto- and peroxidative haemolysis whereas a low Se intake in the presence of adequate vitamin E did not. However, erythrocytes from calves receiving low Se and low vitamin E were more susceptible to peroxidative haemolysis than erythrocytes from calves receiving low vitamin E and adequate Se. The effect of dietary vitamin E content on osmotic haemolysis induced by hypotonic saline was variable. 6. The results suggest that measurement of blood glutathione peroxidase activity and the susceptibility of erythrocytes to auto- or peroxidative haemolysis could be used for the differential diagnosis of subclinical Se and vitamin E deficiency in ruminants.
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PMID:Glutathione peroxidase activity and erythrocyte stability in calves differing in selenium and vitamin E status. 728

A survey of selenium and vitamin E concentrations in horses was conducted at four breeding farms in New York. There were no significant changes in mean blood selenium concentrations in horses at the three sampling dates whereas vitamin E concentrations underwent seasonal fluctuations. The mean blood selenium concentration in this survey for horses fed local feed was 7.7 microgram/dl. Horses fed commercial feed had a mean blood selenium concentration of 15.6 microgram/dl. A 0.94 correlation coefficient was found between blood glutatione peroxidase activity and blood selenium concentrations in horses. The effect of oral and parenteral selenium administration on blood selenium concentrations and blood glutathione peroxidase activity was also investigated. Oral supplementation of 1 mg selenium per day increased blood selenium concentrations above levels associated with myodegeneration in horses and foals. Parenteral supplementation trials with mares at late gestation indicate that only limited amounts of selenium cross the placental barrier. Parenteral supplementation of mares during gestation and lactation or supplementation of foals beginning at birth will increase blood selenium levels in foals above that associated with selenium/vitamin E deficiency.
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PMID:Selenium and vitamin E in horses. 742 74

The effects of oxygen inhalation for 48 h on the antioxidant capacity of lungs, livers, and brains in normal and vitamin E-deficient rats at various ages were examined. The activity levels of catalase, glutathione peroxidase, and superoxide dismutase, and the level of vitamin E in tissue homogenates were assayed as the indices of antioxidant capacity. Oxygen inhalation mostly decreased antioxidant enzyme activity in lungs. In particular, the catalase activity was much decreased. The glutathione peroxidase activity tended to be decreased. The superoxide dismutase activity was decreased in 32-month-old rats. Vitamin E deficiency did not augment oxidative damage due to oxygen inhalation. There appears to be no age effect on the oxygen-induced decrease in the antioxidant enzyme activities of lungs, except the superoxide dismutase activity in very old rats. Oxygen inhalation had some effects on the antioxidant capacity of livers and brains. For example, oxygen inhalation decreased the vitamin E concentration of livers in 32-month-old, normal rats. These results suggest that the antioxidant capacity of lungs is directly damaged by oxygen inhalation and that the antioxidant capacity of livers and brains is indirectly affected through lung damage. Antioxidant capacity may be maintained without large variation during young and middle ages, but its redundancy for emergency use may be diminished in old age.
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PMID:Effects of oxygen inhalation on the antioxidant capacity of lungs, livers, and brains in normal and vitamin E-deficient rats at various ages. 761 20


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