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)

Sheep were treated with large amounts of copper (20 mg of CuSO4,5H2O/kg body wt. per day) for 9 weeks to examine the effect of copper excess on iron metabolism. In addition to confirming that massive haemolysis and accumulation of copper occurs in the liver, kidney and plasma after 7 weeks of exposure to excess copper, it was observed that excess copper produced an increased plasma iron concentration and transferrin saturation within 1 week. Further, iron preferentially accumulated in the spleen between 4 and 6 weeks of copper treatment, producing 3-fold increases in the iron content of both the ferritin and non-ferritin fractions. A 3-4 fold increase was also observed in the amount of ferritin that could be isolated from the spleen. The copper treatment had little or no effect on the concentration of iron in the liver and bone marrow. The following properties of erythrocytes were also unaffected by copper treatment: size, haemoglobin content and pyruvate kinase activity, although the erythrocyte concentration of copper increased after 6 weeks. Copper accumulated in the spleen between 6 and 9 weeks, probably owing to the phagocytosis of erythrocytes containing high concentrations of copper. The data suggest that copper excess influences iron metabolism, initially by causing a compensated haemolytic anaemia, and later by interfering with re-utilization of iron from ferritin in the reticuloendothelial cells of the spleen.
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PMID:The effect of copper excess on iron metabolism in sheep. 62 72

174 serum ferritin assays in 121 patients with various haemolytic disorders have been performed. The mean serum ferritin levels were significantly increased in all these disorders in contrast to healthy controls. The highest serum ferritin levels were found in pyruvate kinase (PK) deficiency, moderate increase was observed in hereditary sphaerocytosis (HS) and in autoimmune haemolytic anaemia (AIHA) with massive haemolysis and in glucose-6-phosphate dehydrogenase (G-6-PD) deficiency. Mild elevation of serum ferritin levels was depicted in paroxysmal nocturnal haemoglobinuria (PNH), in beta thalassaemia minor and in other types of haemoglobinopathies. The range of values was associated with a degree of haemolysis and its relation to duration of the disease was not apparent in most cases. Highly significant differences between serum ferritin levels in splenectomized and non-splenectomized patients with HS and between serum ferritin levels in patients with AIHA with massive haemolysis or in remission were found. As compared to normal controls, significant increase of serum ferritin levels was observed even in patients with AIHA in remission or in splenectomized patients with HS. In two patients with PK deficiency the levels exceeding 2,000 micrograms/l indicated manifest iron overload. A reliability of serum ferritin assay as an index of iron stores in haemolytic disorders has been discussed.
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PMID:Serum ferritin in patients with various haemolytic disorders. 169 23

Twelve patients (5 women and 7 men, aged from 19 to 54 years) presenting with congenital, non-spherocytic haemolytic anaemia due to erythrocyte pyruvate kinase (PK) deficiency were investigated for systemic iron overload 18 to 27 years after the diagnosis was made. One patient had, beside PK deficiency, idiopathic haemochromatosis demonstrated by the HLA A3 and B14 markers. Another, 21-year old male patient had received more than 100 blood transfusions. In both patients, blood ferritin levels were as high as 5,584 and 9,665 g/litre respectively. Among the remaining 10 patients, 9 had biochemical signs of iron overload, such as high serum iron levels, reduced total siderophilin saturation capacity and blood ferritin levels of about 1,500 g/litre. Hepatic histology could be obtained from 5 patients and showed significant iron overload with cirrhosis in one case and clear-cut portal fibrosis in 3 cases. In all but the patient with multiple transfusions the iron overload was unrelated to transfusions, being present in their absence, usually during the 3rd and 4th decades of their life. The finding of iron overload requires preventive measures such as limitation of transfusions and elimination of iron by deferoxamine therapy.
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PMID:[Iron overload in congenital hemolytic anemia caused by pyruvate kinase deficiency. A major late complication]. 214 11

Eleven new cases of red cell pyruvate kinase (PK) deficiency with congenital haemolytic disease from 10 unrelated Italian families were characterized using the methods recommended by the International Committee for Standardization in Haematology (ICSH). All patients were double heterozygotes for the PK gene. The 10 variants were designated PK 'Lecce,' 'Parma,' 'Verona,' 'Milano,' 'Soresina,' 'Macerata,' 'Sassari,' 'Genova,' 'Mantova' and 'Brescia.' PK 'Sassari' was associated with glucose-6-phosphate dehydrogenase deficiency in two siblings. All mutants displayed multiple biochemical abnormalities except for PK 'Lecce' that only showed decreased red cell PK activity. No relation was found between the severity of anaemia and either the residual PK activity or specific biochemical enzyme abnormalities. Increased serum ferritin levels were detected in most of the patients, suggesting the need for systematically monitoring iron status in this disease.
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PMID:Erythrocyte pyruvate kinase deficiency: 11 new cases. 340 73

Trypanosoma brucei EATRO 110 infection in deer mice (Peromyscus maniculatus) produced anemia in 15 of 42 mice between postinoculation days 14 and 70. The infected anemic (IA) mice had significantly higher reticulocyte counts (P less than 0.025), spleen (P less than 0.001) and liver (P less than 0.005) weights, and higher parasitemia than did infected nonanemic (INA) mice. gamma-Globulin concentrations of infected mice were markedly increased, and values for INA mice were 10% higher than values for IA mice. Erythrocyte hexokinase, glucose-6-phosphate dehydrogenase, glutathione peroxidase, glutathione reductase, and pyruvate kinase activities were increased in infected mice, whereas phosphofructokinase was only slightly decreased in infected mice. Seemingly, development of anemia was not related to defects in erythrocyte metabolism. Serum iron values of infected mice were similar to those of controls. Storage iron (hemosiderin and ferritin) concentrations were increased in the spleen and to a lesser extent in the liver. The activity of superoxide dismutase, an enzyme that favors conversion of easily mobilized soluble ferritin to poorly mobilized insoluble hemosiderin, was decreased per unit weight of the enlarged spleen, although total activity was increased. The superoxide dismutase activity per unit weight of liver was not altered in infected mice although total liver activities were increased. These findings, as well as the marked reticulocytosis, indicate that lack of iron supply does not have a part in precipitating the anemia of T brucei infection. Leukocytosis was present in infected animals and was associated with lymphocytosis, eosinopenia, basophilia, and monocytosis; these changes were more marked in IA than in INA mice.
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PMID:Pathogenesis of Trypanosoma brucei infection in deer mice (Peromyscus maniculatus): hematologic, erythrocyte biochemical, and iron metabolic aspects. 686 60

We investigated the iron status of 33 pyruvate kinase (PK) deficient patients, most of the cases reported in Italy. Serum ferritin (SF) was higher than the upper limit of the range of matched controls in 15/25 (60%) non-transfused patients (median 228 micrograms/l, range 58-3160 v 43, 22-310). Liver siderosis and fibrosis were found in 8/9, and cirrhosis in two who died at age 39 and 42 of complications of iron overload. SF was independent of age, sex, or severity of haemolysis. The prevalence of HLA-A3 antigen in PK deficient patients was not significantly different from that of our healthy population (29.6% v 23%). The HLA-A3 positive, non-transfused patients had significantly higher SF values than the HLA-A3 negative ones (median 675 micrograms/l, range 340-3160 v 145, 58-400). A pedigree study of six high SF-probands indicated that iron overload has a multifactorial pathogenesis. In particular, the association of PK deficiency-induced haemolysis, splenectomy and an additional factor (heterozygosity for idiopathic haemochromatosis, ineffective erythropoiesis) leads to severe iron accumulation. We suggest that monitoring iron status would be useful in PK deficient patients, particularly in splenectomized and HLA-A3 positive ones, to identify those at risk of iron overload and prevent the clinical consequences of iron accumulation.
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PMID:Iron status in red cell pyruvate kinase deficiency: study of Italian cases. 848 56

We evaluated the iron status and searched for mutations C282Y and H63D in the hereditary hemochromatosis gene (HFE) in 34 pyruvate kinase (PK)-deficient patients from 29 unrelated families. Nine had received multiple transfusions. Thirteen of the 25 nontransfused patients displayed increased serum ferritin concentration, in the absence of conditions known to raise this parameter. HFE genotype was abnormal in 9 of 34 patients. The allele frequency was 1.8% for mutation 845G--> (C282Y) and 16.1% for mutation 187C-->G (H63D). Nontransfused subjects with abnormal genotype had serum ferritin and transferrin saturation values significantly higher than those with wild-type genotype. Of the 12 adult nontransfused patients with increased iron status parameters, 1 was C282Y homozygous, 1 compound heterozygous for C282Y and H63D, 3 H63D heterozygous, and 7 had a normal HFE genotype. Serum ferritin and transferrin saturation were not related to hemoglobin, reticulocytes, and bilirubin concentration. At multivariate analysis serum ferritin was independently associated with age and gender, but not with splenectomy and HFE genotypes. The retrospective evaluation of the iron status profile of 10 patients (3 with abnormal and 7 with wild-type HFE genotype) with at least 10 years follow-up showed that overt iron accumulation requiring iron chelation had occurred only in the 3 patients (2 of whom were splenectomized) with the mutated HFE gene.
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PMID:Iron status and HFE genotype in erythrocyte pyruvate kinase deficiency: study of Italian cases. 1148 80

Nonspherocytic hereditary anemias are occasionally accompanied by significant iron overload but the significance for the development of chronic liver disease is not clear. We described two cases of patients with chronic liver disease and severe iron overload due to chronic hereditary hemolysis. Both patients have had signs of liver cirrhosis and severe hemolysis since childhood. A hereditary pyruvate kinase deficiency (PKD) was discovered as the underlying reason for the hemolysis. Sequencing of the pyruvate kinase gene showed a mutation within exon 11. Liver histology in both patients revealed cirrhosis and a severe iron overload but primary hemochromatosis was excluded by HFE-gene analysis. An iron reduction therapy with desferrioxamine led to significant decrease of serum ferritin and sustained clinical improvement. PKD-induced hemolysis may cause severe iron overload even in the absence of HFE-genotype abnormalities. This secondary iron overload can lead to chronic liver disease and cirrhosis. Therefore, the iron metabolism of PKD patients has to be closely monitored and iron overload should be consequently treated.
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PMID:Liver cirrhosis as a consequence of iron overload caused by hereditary nonspherocytic hemolytic anemia. 1575 14

The purpose of the study was to identify epithelial and stromal proteins that exhibit up- or down-regulation in keratoconus (KC) vs. normal human corneas. Because previous proteomic studies utilized whole human corneas or epithelium alone, thereby diluted the specificity of the proteome of each tissue, we selectively analyzed the epithelium and stromal proteins. Individual preparations of epithelial and stromal proteins from KC and age-matched normal corneas were analyzed by two independent methods, i.e., a shotgun proteomic using a Nano-Electrospray Ionization Liquid Chromatography Tandem Mass Spectrometry [Nano-ESI-LC-MS (MS)(2)] and two-dimensional-difference gel electrophoresis (2D-DIGE) coupled with mass spectrometric methods. The label-free Nano-ESI-LC-MS (MS)(2) method identified 104 epithelial and 44 stromal proteins from both normal and KC corneas, and also quantified relative changes in levels of selected proteins, in both the tissues using spectral counts in a proteomic dataset. Relative to normal corneal epithelial proteins, six KC epithelial proteins (lamin-A/C, keratin type I cytoskeletal 14, tubulin beta chain, heat shock cognate 71 kDa protein, keratin type I cytoskeletal 16 and protein S100-A4) exhibited up-regulation and five proteins (transketolase, pyruvate kinase, 14-3-3 sigma isoform, phosphoglycerate kinase 1, and NADPH dehydrogenase (quinone) 1) showed down-regulation. A similar relative analysis showed that three KC stromal proteins (decorin, vimentin and keratocan) were up-regulated and five stromal proteins (TGF-betaig h3 (Bigh3), serotransferrin, MAM domain-containing protein 2 and isoforms 2C2A of collagen alpha-2[VI] chain) were down-regulated. The 2D-DIGE-mass spectrometry followed by Decyder software analysis showed that relative to normal corneas, the KC corneal epithelium exhibited up-regulation of four proteins (serum albumin, keratin 5, L-lactate dehydrogenase and annexin A8) and down-regulation of four proteins (FTH1 [Ferritin heavy chain protein 1], calpain small subunit 1, heat shock protein beta 1 and annexin A2). A similar relative analysis of stroma by this method also showed up-regulation of aldehyde dehydrogenase 3A1 (ALDH3A1), keratin 12, apolipoprotein A-IV precursor, haptoglobin precursor, prolipoprotein and lipoprotein Gln in KC corneas. Together, the results suggested that the Nano-ESI-LC-MS(MS)(2) method was superior than the 2D-DIGE method as it identified a greater number of proteins with altered levels in KC corneas. Further, the epithelial and stromal structural proteins of KC corneas exhibited altered levels compared to normal corneas, suggesting that they are affected due to structural remodeling during KC development and progression. Additionally, because several epithelial and stromal enzymes exhibited up- or down-regulation in the KC corneas relative to normal corneas, the two layers of KC corneas were under metabolic stress to adjust their remodeling.
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PMID:Differential epithelial and stromal protein profiles in keratoconus and normal human corneas. 2128 27