EC:1.11.1.9 - FACTA Search

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Query: EC:1.11.1.9 (glutathione peroxidase)
22,002 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of selenium and vitamin E on blood selenium levels and tissue glutathione peroxidase activities were determined in sheep fed purified and hay diets. A significant increase of blood levels of this element and tissue glutathione peroxidase activities was found in sheep given selenium as compared to those not receiving this element. Of the tissues examined, the highest glutathione peroxidase activity was found in the heart. Vitamin E had no influence on either the blood selenium levels or upon the tissue glutathione peroxidase activity. With hydrogen peroxide as the substrate, tissue glutathione peroxidase activity was not correlated with the incidence of white muscle disease. Evidence is presented to suggest that 0.1 ppm dietary selenium is not sufficient under some conditions to meet the physiological requirements for this element.
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PMID:Effects of selenium and vitamin E on blood selenium levels, tissue glutathione peroxidase activities and white muscle disease in sheep fed purified or hay diets. 87 73

The early interest in selenium related primarily to its toxicity, but since 1957 the element has been recognized as a dietary essential. The dietary requirement for selenium by most species is about .1 ppm. Deficiencies of selenium in cattle and sheep have been confirmed under natural grazing conditions in many countries of the world. Overt signs of inadequacy such as white muscle disease (nutritional muscular dystrophy) occur primarily in young calves or lambs born to selenium deficient dams. Infertility has increased in ewes grazing pastures low in selenium. In general, signs of deficiency have not occurred in older animals such as finishing beef cattle and lactating dairy cows. Subclinical deficiencies of selenium are not determined easily, however, and thus an inadequacy of the element may be limiting maximum animal performance under certain circumstances of drylot feeding. The current nutritional status of ruminant animals in many geographical areas and involving various feeding programs with this element has not been established. The recent widespread deficiency problems with nonruminants suggest that such an assessment should be made. Concentration of selenium in tissue, particularly in the liver, has been used in establishing selenium status of the animal. With lambs glutathione peroxidase activity in certain tissues may be a more accurate indicator of selenium adequacy than is selenium content of the tissue. Supplemental sodium selenite and sodium selenate by either oral administration or parenteral injection have prevented clinical signs of selenium deficiency and animal losses in both ruminant and nonruminant animals. Heavy pellets containing elemental selenium for placement in the rumen have proved effective. In general, organic forms of selenium are absorbed more readily by animals than are inorganic compounds. The dietary requirements for selenium and its metabolism are influenced by many nutrient interrelationships, including its interactions with sulfur, lipids, vitamin E, proteins, amino acids, and several microelements. The Food and Drug Administration gave approval in 1974 for the oral administration of supplemental selenium as either sodium selenite or sodium selenate to certain classes of swine and poultry. Similar approval in the United States for ruminants will require additional information, particularly with regard to the influence of dietary intake on concentrations of selenium in tissue and milk in beef and dairy animals.
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PMID:Selenium in ruminant nutrition: a review. 110 75

A comparison of the uptake of selenium (Se) 75 selenite, Se 75 selen omethionine and Se 75 methionine by tissues of ewes and lambs is presented. Included in the study were 3 lactating ewes with lambs at foot and 3 lambs which had been weaned on to fodder low in selenium and were recovering from white muscle disease with Se therapy. Isotope entry into milk was rapid and was greater when Se 75 was administered as selenoamino acid than as selenite. Alkaline dialysis demonstrated that greater amounts of activity derived from selenite were bound to plasma proteins than to the protein of milk, particularly in samples taken some hours after administration. Small amounts of Se 75 selenomethionine were incorporated as selenoamino acids into the proteins of liver, kidney, pancreas, milk and plasma. Selenomethionine and selenocystine were identified chromatographically in enzyme digests of defatted liver and kidney of the ewes. Some differences were seen in the distribution of labelled compounds in organs from the ewes and lambs. Recent findings of an association between selenium and glutathione peroxidase are discussed in relation to the incorporation of selenium into protein.
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PMID:A comparison of the uptake of [75Se]selenite, [75Se]selenomethionine and [35S]methionine by tissues of ewes and lambs. 118 Jul 67

For the investigation of the cause of white muscle disease (WMD), tocopherol (Toc) and selenium (Se) levels and blood glutathione peroxidase (GSH-Px) activities were examined using lambs with WMD and their ewes. Serum Se levels of 4 lambs with WMD were low under 30 ppb, lambs showing very low levels below 15 ppb. The serum Se level was correlated with blood GSH-Px activity showing remarkably low activities in the lambs with WMD. Se contents in the organs of lambs with WMD were lower than those of control lambs, and particularly liver Se contents were deficient levels below 50 ppb. Serum Toc levels were normal, but alpha-Toc contents in organs showed very low levels, especially in the liver. The serum Toc and Se levels and blood GSH-Px activities of their ewes and other sheep kept in the same farm revealed similar results to those of lambs with WMD. Feedstuffs supplied on the farm showed the deficient level of the Se content below 50 ppb and a very low level of alpha-Toc. It was concluded that WMD of lambs in Hokkaido was nutritional muscular dystrophy resulted from deficiencies of Toc and Se to their ewes.
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PMID:Studies on serum tocopherol and selenium levels and blood glutathione peroxidase activities in lambs with white muscle disease. 239 72

For the purpose of clarifying the cause of white muscle disease (WMD) in calves, tocopherol and selenium levels and blood glutathione peroxidase (GSH-Px) activity were measured on 10 calves with WMD and nine of their dams. The main clinical symptoms of the 10 calves with WMD were motor disturbances including recumbency and stiffness. Serum enzyme activities (GOT, GPT, CPK, LDH) in calves with WMD increased markedly, and this increase was also observed in some of their dams. Serum tocopherol levels of calves with WMD were low, 70% of which showing deficient levels of less than 70 micrograms/100 ml. Serum selenium levels of all the calves were lower than 35 ppb, indicating a deficiency, and were accompanied by low blood GSH-Px activity. alpha-Tocopherol and selenium concentrations in organs were very low. Dams of calves with WMD showed low serum tocopherol levels, 22% of which indicating deficient levels below 150 micrograms/100 ml. Serum selenium levels in dams showed a marked decrease to under 20 ppb, and also low blood GSH-Px activity. Feedstuffs supplied in the farms to affected calves indicated very low alpha-tocopherol contents (below 3 mg/100g DM) and low selenium concentrations below 50 ppb in DM. It was concluded that WMD in calves was attributable to nutritional muscular dystrophy caused by deficiencies in tocopherol and selenium in feedstuffs supplied to their dams.
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PMID:Studies on serum tocopherol, selenium levels and blood glutathione peroxidase activities in calves with white muscle disease. 258 29

Weaned merino lambs, grazing pastures low in selenium, were used to investigate the effect of selenium status on immunity to trichostrongylids. Six weeks following selenium supplementation to 14 of the 27 sheep using intraruminal selenium pellets, 5000 Ostertagia circumcincta and 5000 Trichostrongylus colubriformis larvae were administered orally to all sheep. At four weeks after infection, the mean total worm burden in the selenium supplemented sheep (5537 +/- 343, n = 14) was not significantly different (P greater than 0.05) from that in the unsupplemented sheep (5614 +/- 374, n = 12) and faecal worm egg concentrations were also similar in the two treatment groups. At this time, mean red cell glutathione peroxidase activities in the supplemented and unsupplemented groups were 430 and 11 U g-1 haemoglobin, respectively, and clinical white muscle disease had been observed in the latter group. These results suggest that increasing selenium status of selenium deficient sheep by the use of intraruminal selenium supplementation, has a negligible effect on resistance to an artificial challenge infection of O circumcincta and T colubriformis.
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PMID:Influence of selenium status in merino weaners on resistance to trichostrongylid infection. 259 90

In order to clarify the cause of white muscle disease (W.M.D.) in foals, tocopherol and selenium concentrations in serum and glutathione peroxidase activities in blood were measured. Examination was made on the samples from horses affected with W.M.D., the foal kept with them in the same stable, the foals kept in the stables without affected foals, and respective mares. The heavy-breed horses in Fukuoka prefecture and Tokachi district were also examined for comparison. Serum tocopherol levels of these foals were normal because after intake of colostrum. Mares of affected foals showed lower tocopherol levels than other examined mares (p less than 0.01). Serum selenium levels of all foals were below 65 ppb, showing deficient levels. The mares of affected foals had lower selenium levels than other mares (p less than 0.01). There was a good correlation between serum selenium concentration and blood glutathione peroxidase activity (r = 0.81). Selenium levels in the liver of affected foals were lower than the foals which succumbed with other diseases. Diet supplied in the stables with affected foals showed low alpha-tocopherol and selenium contents. These findings suggest that W.M.D. in foals is attributed to nutritional muscular dystrophy caused by tocopherol and selenium deficiency of their mares in late gestation period.
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PMID:Studies on serum selenium and tocopherol in white muscle disease of foal. 292 38

Lymphocytes from healthy lambs produced vigorous but variable responses to phytolectins when tested in whole blood culture. Differences between groups with low glutathione peroxidase (GSHPx) activities and groups supplemented with selenium were not significant. However, animals with low GSHPx activities and white muscle disease reacted feebly to mitogen. No correlation was found between levels of GSHPx activity and the numbers of leucocytes in the circulation.
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PMID:Impaired mitogen responses in lambs with white muscle disease. 652 32

The selenium nutrition of sheep throughout Victoria was assessed by a survey of the blood glutathione peroxidase activity in 708 flocks. It was shown that the blood glutathione peroxidase activity in sheep had a seasonal variation with lowest levels in the spring. The enzyme activity was correlated with the blood selenium concentration. Areas where blood selenium was less than 0.03 micrograms/ml in spring were defined. Sheep with low selenium nutrition were grazing pastures in the high rainfall areas on acid soils, particularly those derived from granite. Selenium concentrations in pasture samples examined were greater than 0.02 mg/kg, and it was found that superphosphate application had no significant effect on the selenium content of pasture. However, management practices such as high stocking rates and rates of application of superphosphate to pasture were associated with low blood glutathione peroxidase activities in sheep. It was concluded that the selenium nutrition of most of the sheep flocks in Victoria is adequate, and that the deficient areas are localised. There seems little requirement for supplementation of adult sheep. As the delayed type of white muscle disease in spring lambs appears to be the main selenium-responsive disorder, direct supplementation of lambs in the low selenium areas would be the most effective method of ensuring adequate selenium nutrition.
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PMID:An examination of the selenium nutrition of sheep in Victoria. 743 15

The calcium uptake and ATPase activity were studied using fragmented sarcoplasmic reticulum (FSR) vesicles from normal and selenium (vitamin E)--deficient lambs. The latter group was suffering from white muscle disease (WMD). The calcium uptake of FSR vesicles from muscle of WMD lambs was reduced 10-fold as compared to those from normal lambs. An inverse relationship was found with the calcium uptake ability of the FSR vesicles and the severity of WMD. ATPase activity was nonsignificantly lower in vesicles from WMD lambs. The most active FSR vesicles from both normal and WMD lambs banded at 27% when purified on linear sucrose density gradients. The number of protein bands appearing in acrylamide gels of the purified vesicles appeared to be directly proportional to the severity of WMD. The 75Se cosedimented with the calcium uptake and ATPase activity when FSR vesicles from a lamb injected with 75Se-selenite were subjected to linear sucrose density gradient centrifugation, suggesting that selenium is incorporated into these vesicles. Injection of selenium into WMD lambs resulted in significantly greater calcium uptake activity in vesicles 18 and 38 days later as compared with untreated WMD lambs. Injection of selenium in WMD lambs resulted in a marked decrease in plasma CPK activity and a significant increase of glutathione peroxidase activity in the blood.
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PMID:Calcium uptake and ATPase activity of sarcoplasmic reticulum vesicles isolated from control and selenium deficient lambs. 821 48

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