UMLS:C0240066 - FACTA Search

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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Whether iron deficient RBC in humans have a reduced, or an increased, susceptibility to lipid peroxidation was studied in the iron deficiency states of primary proliferative polycythaemia and iron deficiency anaemia and related to changes in the activities of iron-dependent and non-iron dependent antioxidant enzymes. Susceptibility of RBCs to lipid peroxidation was increased when expressed per g Hb. However, this was a result of the low RBC Hb giving an increased membrane lipid: Hb ratio in the incubations. Results were normal when expressed either per cell, or per ml, RBC. Glutathione reductase was normal. Increased RBC superoxide dismutase activity in iron deficiency may be explained by the younger RBC population and reductions in glutathione peroxidase and catalase activities by the microcytic hypochromic changes and the lack of availability of iron, respectively. There is no evidence of an increased susceptibility of RBC to lipid peroxidation in iron deficiency.
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PMID:Red cell lipid peroxidation and antioxidant enzymes in iron deficiency. 195 88

Iron deficiency is an important nutritional problem in third world countries because it diminishes work performance. In meat-eating countries, iron excess may be more important than iron deficiency. Heme iron is more efficiently absorbed from the diet than inorganic iron, and iron excess can produce cellular oxidation in association with superoxide dismutase. Metal ion catalysis is linked to aging, coronary artery disease, stroke, carcinogenesis, neurodegenerative disorders, and inflammatory disorders. Prudence is advised in the excessive consumption of meat and iron supplementation of the diet until this process is more thoroughly investigated.
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PMID:Ironic catastrophes: one's food--another's poison. 819 51

Rats (Wistar, female, 4 weeks old) were fed iron-deficient (Fe-; 2.2 micrograms Fe/g) or manganese- and copper-deficient (Mn.Cu-; 0.3 microgram Mn/g, 0.4 microgram Cu/g) diets for 8 weeks to determine the oxidative damage of DNA by element deficiency. After feeding of the diets, 2-nitropropane (2-NP, 80 mg/kg body weight) was administered i.p. as an inducer of 8-hydroxy-2'-deoxyguanosine (8-OH-dG) to the element-deficient rats. The hemoglobin concentration of rats in the Fe- group showed an induction of severe anemia (8.4 g/100 ml whole blood). In the Mn.Cu- group, Mn-superoxide dismutase (SOD) activities of plasma and Cu.Zn-SOD activities were significantly lower than that of the normal diet group. However, total SOD activities of plasma were not depressed severely in contrast to that of the liver in the Mn.Cu- group. Background (spontaneous) levels of 8-OH-dG in normal diet group were 0.96 +/- 0.37/10(5) deoxyguanosine (dG), however, significantly higher levels were detected in the Fe- group (1.56 +/- 0.19, P < 0.01). Conversely, a lower (but not significant) level of 8-OH-dG than the normal diet group were detected in the Mn.Cu- group (0.78 +/- 0.08). Six hours after 2-NP treatment, 8-OH-dG levels in liver DNA were significantly induced to 1.44 +/- 0.24 in the normal diet fed group 1.89 +/- 0.22 in the Fe- and 1.08 +/- 0.12 in the Mn.Cu- groups. Compared to the normal diet group, these induced levels of 8-OH-dG in the Fe- group were significantly higher (P < 0.05), and that in Mn.Cu- group were significantly lower (P < 0.05). The high level of 8-OH-dG in severe iron deficiency might be the results of: (i) an increase of hydroxyl radical generation by accumulated copper in hepatocytes; or (ii), a depression of enzymatic activity for removing 8-hydroxy-2'-deoxyguanosine in DNA, which is dependent on divalent cations. On the other hand, the low level of 8-OH-dG in manganese and copper deficiency might be the result of a decrease of lipid peroxidation which has been suggested to be an intermediator from active oxygen species to hydroxyl radical.
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PMID:Spontaneous and 2-nitropropane induced levels of 8-hydroxy-2'-deoxyguanosine in liver DNA of rats fed iron-deficient or manganese- and copper-deficient diets. 838 15

Iron deficiency has been implicated in increasing the risk of GI tract cancers in humans. Among various mechanisms of carcinogenesis, oxidative damage to DNA is well known and, hence, the present experimental study was undertaken to investigate lipid peroxidation and activities of different antioxidant enzymes in iron deficiency to explain the higher risk of tumorigenesis. Two groups of male weanling Fischer rats maintained on iron sufficient (C) or iron deficient (D) diets for a period of 32 weeks were subdivided, from 3 weeks onwards, into two subgroups each. The carcinogen, dimethyl hydrazine was fed at a dose of 30 mg/kg/week IG for a period of 9 weeks to groups that were designated as (C+) and (D+). The other two subgroups (C-) and (D-) served as controls. After the experimental period, hepatic assays for lipid peroxidation (MDA production) and activities of various antioxidant enzymes were carried out. The results showed that MDA production was elevated by 50% and activity of superoxide dismutase significantly depressed in carcinogen-fed, iron-deficient group (D+) by 28% compared to deficient (D-) group. There was an increase in hepatic selenium-dependent glutathione peroxidase activity in iron-deficient and iron-deficient, carcinogen-treated groups to the extent of 57 and 59%, respectively, as compared to controls; however, induction of enzyme in response to carcinogen feeding, observed in the control group, was not evident in iron deficiency. Liver catalase was not altered between control and deficient groups. These results suggest that prolonged iron deficiency superimposed with carcinogen ingestion may render the host susceptible to a greater risk of tumorigenesis through oxidative stress.
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PMID:Lipid peroxidation and activities of antioxidant enzymes in iron deficiency and effect of carcinogen feeding. 879 Oct 98

Mitochondrial superoxide dismutase (MnSOD) is usually diminished in cancer cells. We observed that in vivo treatment with LPS produces a strong increase of MnSOD mRNA levels and a weak induction of an inactive protein in rat hepatocarcinomas. In normal liver iron deficiency, obtained with desferrioxamine administration, produces a decrease in the MnSOD induction by LPS, indicating that such induction could depend on tissue iron content. However, no change in MnSOD mRNA has been observed in iron-overloaded tumor tissue. Thus, iron is possibly involved in the transcriptional regulation of the protein, in combination with some other unknown factor that appears to be deficient in tumor cells.
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PMID:Iron modulation of LPS-induced manganese superoxide dismutase gene expression in rat tissues. 904 52

The ATX1 gene of Saccharomyces cerevisiae was originally identified as a multi-copy suppressor of oxidative damage in yeast lacking superoxide dismutase. We now provide evidence that Atx1p helps deliver copper to the copper requiring oxidase Fet3p involved in iron uptake. atx1Delta null mutants are iron-deficient and are defective in the high affinity uptake of iron. These defects due to ATX1 inactivation are rescued by copper treatment, and the same has been reported for strains lacking either the cell surface copper transporter, Ctr1p, or the putative copper transporter in the secretory pathway, Ccc2p. Atx1p localizes to the cytosol, and our studies indicate that it functions as a carrier for copper that delivers the metal from the cell surface Ctr1p to Ccc2p and then to Fet3p within the secretory pathway. The iron deficiency of atx1 mutants is augmented by mutations in END3 blocking endocytosis, suggesting that a parallel pathway for intracellular copper trafficking is mediated by endocytosis. As additional evidence for the role of Atx1p in iron metabolism, we find that the gene is induced by the same iron-sensing trans-activator, Aft1p, that regulates CCC2 and FET3.
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PMID:A role for the Saccharomyces cerevisiae ATX1 gene in copper trafficking and iron transport. 908 54

Concentration of malonic dialdehyde (MDA) and activity of antioxidant enzymes G-6-PD, glutation peroxidase (GP), glutation reductase, catalase, superoxide dismutase were measured in red cells of patients with polycythemia vera. Plasmic ions Fe3+ were estimated by means of electron-paramagnetic resonance. MDA concentration and antioxidant enzymes (except GP) in polycythemia red cells were found increased, while the activity of selenium-dependent GP was reduced, the inhibition being greatest in severe iron deficiency. It is suggested that GP activity in red cells depends on both selenium levels in the body and concentrations of non-hematic iron.
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PMID:[Erythremia: the activity of erythrocyte antioxidant enzymes and the association with iron deficiency]. 921 64

Manganese is an essential trace element that is required for the activity of several enzymes. Manganese is also quite toxic when ingested in large amounts, such as the inhalation of Mn-laden dust by miners. This review examines Mn intake by way of the food supply and poses the question: Is there reason to be concerned with Mn toxicity or deficiency in free-living populations in North America? Although much remains to be learned of the functions of Mn, at present there are only a few vaguely described cases of Mn deficiency in the medical literature. Given the heterogeneity of the North American food supply, it is difficult to see the possibility of more than greatly isolated and unique instances of Mn deficiency. However, low Mn-dependent superoxide dismutase activity may be associated with cancer susceptibility, and deserves further study. There may be reasons, however, to be concerned about Mn toxicity under some very specialized conditions. Increasing numbers of young people are adopting a vegetarian lifestyle which may greatly increase Mn intake. Iron deficiency may increase Mn absorption and further increase the body-burden of Mn, especially in vegetarians. Mn is eliminated primarily through the bile, and hepatic dysfunction could depress Mn excretion and further contribute to the body burden. Would such a combination of events predispose substantial numbers of people to chronic Mn toxicity? At present, there is no definite proof of this occurring, but given the state of knowledge at the present time, more studies with longer time-frames and more sensitive methods of analysis are needed.
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PMID:Manganese deficiency and toxicity: are high or low dietary amounts of manganese cause for concern? 1047 86

We studied the protective role of the pineal hormone melatonin on lead-induced suppression of the heme synthesis pathway as a consequence of reduced antioxidant systems in rat. We injected rats intramuscularly with lead acetate (10 mg/kg body weight) daily for 7 days, which significantly abolished heme synthesis as evidenced by decreased blood hemoglobin, liver delta-aminolevulinic acid synthetase, erythrocytic delta-aminolevulinic acid dehydratase, and hepatic iron content. These effects were accompanied with marked elevation of hepatic lipid peroxidation and decreased enzymatic antioxidants such as glutathione reductase, glutathione-S-transferase, superoxide dismutase, and catalase, as well as nonenzymatic antioxidants such as total sulfhydryl groups and glutathione. Furthermore, lead treatment caused hepatic deficiency in copper and zinc accompanied by a significant elevation of lead concentration in both plasma and liver. Daily pretreatment with melatonin (30 mg/kg body weight) intragastrically prevented the suppressive effects of lead on heme-synthesizing enzymes and iron deficiency. In addition, preadministration of melatonin reduced the inhibitory effect of lead on both enzymatic and nonenzymatic antioxidants. This was accompanied by marked normalization of lipid peroxidation and modulation of copper and zinc levels in liver. The action of melatonin on lead-induced changes was attributed to protection of the antioxidant capacity in cells in addition to the ability of melatonin to scavenge free radicals.
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PMID:Prophylactic effect of melatonin on lead-induced inhibition of heme biosynthesis and deterioration of antioxidant systems in male rats. 1056 Oct 83

Dietary copper (Cu) deficiency impairs both innate and acquired branches of immunity. Specific roles of Cu in the activation and effector activities of host-defense cells remain largely unknown. The effects of Cu status on effector activities of a monocytic cell line were investigated as an initial step in the elucidation of specific functions of Cu in phagocytic cells. Exposure of differentiating U937 human promonocytic cells to 5 micromol/L 2,3, 2-tetraamine (tet), a high affinity Cu chelator, for 4 d decreased cellular Cu by 62% without altering cellular Cu,Zn-superoxide dismutase (SOD) activity, Zn content, mitochondrial activity and protein synthesis. In contrast, Cu deficiency suppressed the respiratory burst activity and markedly compromised the ability of U937 cells to kill Salmonella. Similarly, treatment of RAW264.7 murine macrophages with 5 micromol/L tet decreased cell Cu by 78% and Cu,Zn-SOD activity by 15% and increased bacterial survival by 180%. The tet-induced impairment of respiratory burst and bactericidal activities was blocked in cultures supplemented with Cu, but not Zn or Fe. In addition, lipopolysaccharide (LPS)-induced secretion of the inflammatory mediators, tumor necrosis factor-alpha, interleukin (IL)-1beta, IL-6 and prostaglandin E(2) (PGE(2)), was decreased by 30-60% in tet-treated U937 cells. Flow cytometric analysis of the surface antigens CD11b and CD71 showed that the suppressed activities of Cu-deficient cells were not due to an attenuation in the degree of differentiation or secondary iron deficiency. These data demonstrate that U937 cells provide a useful model for examining the biochemical roles of Cu in monocyte activity.
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PMID:Copper deficiency suppresses effector activities of differentiated U937 cells. 1082 6

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