UNIPROT:P02794 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The localization of gamma-Glutamyltransferase (gamma-GT, E.C.2.3.2.2) was studied on isolated tubular fragments from rat kidney cortex immunocytochemically. Monospecific antibodies raised in the goat against rat kidney gamma-GT were used. Antigoat immunoglobulin from the rabbit conjugated with ferritin was used for visualisation of the antibody binding sites. The enzyme was found to be localized at the brush border membrane of proximal tubules, the luminal membrane of distal tubules and collecting duct segments. The enzyme could further be localized on the antiluminal or basolateral cell membranes of proximal and distal tubular fragments, whereas no such localization was verified for collecting duct segments. The role of this basolateral gamma-GT localization in context with the kidney's ability to extract over 83% of the renal arterial glutathione (GSH) input during a single passage is discussed.
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PMID:Immunocytochemical localization of gamma-glutamyl-transferase on isolated renal cortical tubular fragments. 614 46

Acute iron loading of rats, by intraperitoneal administration of iron-dextran (500 mg Fe/kg body wt 18-20 h before killing) decreased by 30% the rate of conversion of 5-amino-[14C]levulinate ([14C]ALA) into heme as measured with a recently described procedure for liver homogenates (1981. Biochem. J. 198: 595-604). The decrease in conversion of labeled ALA into heme caused by iron loading was shown to be due to a 70-80% decrease in activity of ALA dehydrase. The decrease in activity of ALA dehydrase caused by iron loading was not associated with a decrease in hepatic concentrations of GSH, nor could it be reversed by addition of dithiothreitol, Zn2+ or chelators of Fe2+ and Fe3+. Addition of FeSO4, ferric citrate, or ferritin to homogenates of control liver had no effect of activity of ALA dehydrase. The decrease in activity of ALA dehydrase, caused by iron-dextran, was mirrored by a reciprocal increase in ALA synthase. Iron-dextran potentiated the induction of ALA synthase by allylisopropylacetamide. However, this potentiation could be dissociated from the decrease in ALA dehydrase caused by iron loading.
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PMID:Iron and the liver: acute effects of iron-loading on hepatic heme synthesis of rats. Role of decreased activity of 5-aminolevulinate dehydrase. 618 58

Brain tissue from normal individuals with incidental Lewy bodies and cell loss in pigmented substantia nigra neurons (asymptomatic Parkinson's disease) and age-matched control subjects without nigral Lewy bodies was examined biochemically. There was no difference in dopamine levels or dopamine turnover in the caudate and putamen of individuals with incidental Lewy body disease compared to control subjects. There were no differences in levels of iron, copper, manganese, or zinc in the substantia nigra or other brain regions from the individuals with incidental Lewy body disease compared to those from control subjects. Similarly, ferritin levels in the substantia nigra and other brain areas were unaltered. There was no difference in the activity of succinate cytochrome c reductase (complexes II and III) or cytochrome oxidase (complex IV) between incidental Lewy body subjects and control subjects. Rotenone-sensitive NADH coenzyme Q1 reductase activity (complex I) was reduced to levels intermediate between those in control subjects and those in patients with overt Parkinson's disease, but this change did not reach statistical significance. The levels of reduced glutathione in substantia nigra were reduced by 35% in patients with incidental Lewy body disease compared to control subjects. Reduced glutathione levels in other brain regions were unaffected and there were no changes in oxidized glutathione levels in any brain region. Altered iron metabolism is not detectable in the early stages of nigral dopamine cell degeneration. There may be some impairment of mitochondrial complex I activity in the substantia nigra in Parkinson's disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Indices of oxidative stress and mitochondrial function in individuals with incidental Lewy body disease. 828 90

The effect of riboflavin supplementation (5mg twice daily for 8 weeks) on reduced blood glutathione (GSH) and iron status was assessed in 18 patients with sickle cell disease (SCD-HbSS). Twelve SCD patients and 13 normal (Hb-AA) subjects served as the control. The total iron binding capacity (TIBC) and serum ferritin (SF) were significantly higher (p < 0.01), but GSH level, haemoglobin and transferrin saturation (TS) were significantly lower (p < 0.001) in SCD patients than in normal subjects. The administration of riboflavin elicited a significant increase (p < 0.01) in serum iron and TS but a non significant increase in SF and circulating Hb. The GSH level varied little in riboflavin supplemented but decreased significantly in unsupplemented SCD. The disparity in GSH concentration might reflect availability of FAD for regeneration of GSH from glutathione. Likewise, the haematological improvement in the supplemented group supports the assertion that riboflavin enhances erythropoiesis. For an effective management of SCD in Africa, a closer attention should be directed to the riboflavin status in haemolytic disorders.
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PMID:Clinical trial of riboflavin in sickle cell disease. 829

Reduced glutathione (GSH) is an important scavenger of free radicals in the red blood cell (RBC) membrane, and its deficiency may be a partial cause of increased hemolysis and shortened RBC survival in uremics. In this study we employed exogenous GSH (1200 mg i.v. at the end of each dialysis session for at least nine months) to treat anemia in a group of 28 hemodialyzed patients, 14 of whom were also receiving erythropoietin. RBC survival (51Cr T/2) was calculated before (26 patients) and at the end (15 pts) of GSH therapy. After the first three months anemia (RBC, hemoglobin, hematocrit, reticulocytes) improved significantly in 17 patients (60%), for as long as they were under therapy, but rapidly dropped to pre-treatment values when GSH was discontinued. The 51Cr T/2 increased significantly in responders, but not in those who did not respond. No significant differences were found between responders and non-responders as regards urea KT/V, PTH, serum iron, ferritin, dialysis membrane, dose of erythropoietin and basal 51Cr T/2. These results suggest that exogenous GSH may be a promising drug for the treatment of anemia in most hemodialyzed patients, particularly considering its low cost.
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PMID:Effect of exogenous reduced glutathione on the survival of red blood cells in hemodialyzed patients. 936 18

A discovery that rapid enzymic isomerization of 13-cis-retinoic acid (13-cRA) to all-trans-retinoic acid (t-RA) can be catalysed by purified hepatic glutathione S-transferases (GSTs; EC 2.5.1.18) from rat is now reported. Rates of cis-trans isomerization were determined quantitatively by HPLC. GST-catalysed reactions reached equilibrium rapidly, in marked contrast with uncatalysed or GSH-catalysed isomerizations. The GST-catalysed reaction exhibited substrate saturation kinetics with a Km of approx. 8 microM. The maximal velocity of the reaction and the catalytic efficiency of GSTs were determined. The initial rate of the reaction increased linearly as a function of enzyme concentration. Catalysis by GSTs was independent of the presence of GSH, indicating that GSTs act as GSH-independent isomerases as well as transferases. Incubation with guanidine (7-8 M) or heat-inactivation of GSTs (100 degrees C for 3 min) decreased isomerase activities by approx. 50% and 75% respectively. The same heat treatment did not significantly inhibit isomerization catalysed by GSH and apoferritin, indicating that the observed decrease in isomerase activity by heat inactivation was not primarily due to oxidation of protein thiol groups in the GSTs. The specific activity of GSTs was approx. 23- and 340-fold those of GSH and apoferritin respectively when comparisons were made on the basis of free thiol concentrations, indicating that free thiol in GSTs cannot account for the majority of observed isomerase activities and suggesting that specific conformations of GSTs are important for such activities. Complete inhibition of the reaction by low concentrations of N-ethylmaleimide (10 microM) demonstrated that intact protein thiols are required for the isomerase activities of GSTs.
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PMID:Glutathione S-transferases act as isomerases in isomerization of 13-cis-retinoic acid to all-trans-retinoic acid in vitro. 958 48

Redox-active forms of iron are known to catalyze free radical mediated peroxidative reactions. There is scanty information on such effects at the sites of iron absorption. This was tested in iron-deficient WKY female rats supplemented for 15 days with FeSO4 equivalent to 8 mg of iron (D+) and compared with iron deficient (D) and iron adequate (C) rats. The levels of intestinal MDA and protein carbonyls and the activities of various antioxidant enzymes were estimated. As markers of functional integrity, the activities of alkaline phosphatase and Lys-Ala-dipeptidyl aminopeptidase were evaluated. In addition, we measured the concentrations of ferritin, transferrin, and ceruloplasmin levels in serum and in intestinal mucosa. It was observed that correction of iron deficiency resulted in significant increase in MDA and protein carbonyl formation. Activities of both alkaline phosphatase and Lys-Ala-dipeptidyl aminopeptidase were significantly decreased in D+ compared to C. The increase in catalase and decrease in Gpx was found to be sensitive to iron administration. Neither iron deficiency nor its correction had any effect on the activity of SOD and GSH levels. Iron supplementation has resulted in decreased mobilization of stored iron as reflected by increased mucosal ferritin level and decreased serum ceruloplasmin ferroxidase activity contributing to greater peroxidative stress in the intestine. These results suggest that iron-deficient intestine of rat is more susceptible to iron-mediated peroxidative damage and functional impairment during correction of deficiency with iron.
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PMID:Iron-deficient intestine is more susceptible to peroxidative damage during iron supplementation in rats. 980 Oct 65

The antioxidant defense system in liver tissue in experimental hyperthyroidism and/or in iron supplementation was investigated. Thyroid hormones (T3, T4, TSH), ferritin (marker of iron status), antioxidant status components (glutathione [GSH], glutathione peroxidase [GSH-Px], superoxide dismutase [SOD]), and serum transaminases (GOT and GPT, both of which are known to be released from damaged hepatocytes), were measured. Hyperthyroidism in rats, induced by L-thyroxine administration, significantly raised SOD activity (p < 0.05), but significantly decreased GSH-Px activity and GSH values (p < 0.001) in the liver. In the L-thyroxine administered and iron supplemented (TI) group, GSH and GSH-Px values of liver tissues were significantly lower than those of control rats (p < 0.05). GSH-Px levels of the TI group were higher (p < 0.001), and SOD levels significantly lower (p < 0.001) than those of the L-thyroxine administered group. We conclude that hyperthyroidism induces SOD activity in liver; ferritin levels increase in hyperthyroidism, contributing to the antioxidant defense system; GSH-Px and GSH levels are decreased significantly in hyperthyroidism either due to inactivation due to increased oxidative stress or to insufficient synthesis; iron supple- and GPT analysis); iron decreases the effect of T4. This must be taken into consideration during iron supplementation.
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PMID:Evaluation of antioxidant status in liver tissues: effect of iron supplementation in experimental hyperthyroidism. 1063 95

The in vivo effect of menadione bisulfite adduct on both hepatic oxidative stress and heme oxygenase induction was studied. A marked increase in lipid peroxidation was observed 1 h after menadione bisulfite adduct administration. To evaluate liver antioxidant enzymatic defenses, superoxide dismutase, catalase and glutathione peroxidase activities were determined. Antioxidant enzymes significantly decreased 3 h after menadione bisulfite adduct injection. Heme oxygenase activity appeared 6 h after treatment, peaking 9 h after menadione bisulfite adduct administration. Such induction was preceded by a decrease in the intrahepatic GSH pool and an increase in hydrogen peroxide steady-state concentration, both effects taking place some hours before induction of heme oxygenase. Iron ferritin levels and ferritin content began to increase 6 h after heme oxygenase induction, and these increases were significantly higher 15 h after treatment and remained high for at least 24 h after menadione bisulfite adduct injection. Administration of bilirubin entirely prevented heme oxygenase induction as well as the decrease in hepatic GSH and the increase in lipid peroxidation when administered 2 h before menadione bisulfite adduct treatment. These results indicate that the induction of heme oxygenase by menadione bisulfite adduct may be a general response to oxidant stress, by increasing bilirubin and ferritin levels and could therefore provide a major cellular defense mechanism against oxidative damage.
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PMID:Heme oxygenase induction by menadione bisulfite adduct-generated oxidative stress in rat liver. 1108 16

A growing body of evidence has implicated oxidative stress as an important factor in the neuropathology associated with Parkinson's disease. Dopaminergic nigrostriatal neurons, the predominant cells lost in Parkinson's, are believed to be highly prone to oxidative damage due to the propensity for dopamine to auto-oxidize and thereby produce elevated levels of hydrogen peroxide and catecholamine quinones. Hydrogen peroxide formed during this process can either be converted by iron to form highly reactive hydroxyl radicals or removed through reduction by glutathione. Glutathione can also conjugate with quinones formed during dopamine oxidation preventing them from facilitating the release of iron from the iron-storage molecule ferritin. Alterations in both iron and glutathione levels in the substantia nigra have been correlated with the neuronal degeneration accompanying Parkinson's disease but a direct causative role for either has yet to be definitively proved. We will discuss the use of genetically engineered cell and mouse lines generated in our laboratory as models to examine the role that alterations in iron and glutathione levels may play in neurodegeneration of dopaminergic neurons of the substantia nigra associated with Parkinson's disease, and how these two parameters may interact with one another to bring this about.
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PMID:Do alterations in glutathione and iron levels contribute to pathology associated with Parkinson's disease? 1128 21

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