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)

Neonatal hemochromatosis (NH), a generally fatal disorder of infancy, is characterized by severe hepatic insufficiency of intrauterine onset and by marked organ iron loading. Its cause is unknown. It has been suggested that NH may represent an unusual manifestation of hereditary hemochromatosis (HH), which is human leukocyte antigen (HLA) linked. Evidence for major rearrangements or deletions at the HLA class I region and at three loci directly involved in iron metabolism (H- and L-apoferritin and the transferrin receptor [TfR]) was sought. The population studied included five probands with NH and 14 first-degree family members in a total of six kindreds. Also sought were HLA associations with NH by collating the results of HLA serotyping in these 19 persons and in 17 members of 7 additional kindreds in which NH has occurred, including 5 probands with NH and 12 first-degree family members. We found no evidence for major rearrangements or deletions in H- or L-apoferritin genes, in TfR genes, or within the HLA locus. We found no evidence for linkage of NH to HLA serotypes. We conclude that while NH and HH are similar in their patterns of iron loading, they are not genetically related.
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PMID:Neonatal hemochromatosis. Genetic analysis of transferrin-receptor, H-apoferritin, and L-apoferritin loci and of the human leukocyte antigen class I region. 197 98

Peripheral blood mononuclear cells (PBM) pulsed with lectin (PHA or Con A for 0.25-3 hr) show a low expression of interleukin-2 and transferrin receptors (IL-2Rs, TfRs) and a mild decline of intracellular ferritin level, compared to control cultures grown in continuous presence of mitogen. Interestingly, lectin-pulsed PBM do not release detectable amounts of IL-2 in the medium. Furthermore, expression of TfRs in these lymphocytes is not inhibited by addition of excess anti-IL-2 neutralizing monoclonal antibody, but is significantly inhibited by treatment with iron salts. These observations suggest that mitogen triggers an IL-2-independent expression of TfRs, at least in part via a decrease of intracellular iron level. Addition of either recombinant IL-2 (rIL-2) or an iron chelator (picolinic acid) to lectin-pulsed PBM induces both a marked enhancement of TfR synthesis and a sharp decline of intracellular ferritin level, which are comparable to the corresponding pattern observed in control cultures. Conversely, addition of iron salts fully inhibits the increase of TfR expression induced by rIL-2. These observations strongly suggest that the enhanced TfR synthesis elicited by rIL-2 is mediated by depletion of a regulatory intracellular iron pool. In line with these studies, greater than 99% purified T lymphocytes stimulated by lectin show a low expression of TfRs, which is markedly enhanced by addition of exogenous rIL-2. Altogether, we postulate that: (i) in resting T lymphocytes the gene encoding TfR is apparently in a 'closed' configuration; (ii) even in the absence of IL-2 activity, a mitogen pulse is sufficient to initiate the expression of TfRs, at least in part via a decline of intracellular iron level; and (iii) TfR synthesis is then largely amplified by IL-2, again via a decrease of the size of a regulatory intracellular iron pool.
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PMID:Mechanisms underlying T-lymphocyte activation: mitogen initiates and IL-2 amplifies the expression of transferrin receptors via intracellular iron level. 313 96

We examined the effect of treatment with rHuEpo on platelet counts in 61 hemodialysis patients and correlated them with changes in erythropoietic activity, iron status and inflammation. Platelets (10(9)/1) increased from 220 +/- 80 to 245 +/- 102 after 14 days and stabilized at that level up to day 90 (p < 0.0001). The increment was similar in complete or partial responders but was not observed in failures. Serum transferrin receptor (sTfR, a measure of total erythropoiesis) and Het rose much more progressively, but relative platelet increments correlated with relative increases in sTfR and Hct. Relative platelet increments correlated inversely with relative changes of SeFe or transferrin saturation, but not with their absolute values, nor with baseline ferritin or its progressive decrease. Although baseline platelet count was 12% higher in patients with inflammation and correlated with serum haptoglobin, relative increases were similar in patients with or without inflammation. In conclusion, rHuEpo produced a clinically minor but consistent elevation of platelet counts. These modifications were not related primarily to modifications in iron stores, functional iron deficiency, or inflammation, but paralleled the expansion of erythropoietic activity. The results suggest that rHuEpo has a small positive effect on platelet production, but it cannot be ruled out that this could be partially mediated through functional iron deficiency.
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PMID:Effect of recombinant human erythropoietin on platelets in patients with anemia of renal failure: correlation of platelet count with erythropoietic activity and iron parameters. 781 6

There is a need to change the policy of unselective iron supplementation during periods of life with physiologically increased cell proliferation. Levels of iron stores to be regarded as adequate during infancy and pregnancy are still not well established. Recent data support the view that it is not justified to interfere with physiological adaptations developed through millions of years by sophisticated and precisely coordinated regulation of iron absorption, utilization and storage. Recent data suggest that the chelatable intracellular iron pool regulates the expression of proteins with central importance in cellular iron metabolism (TfR, ferritin, and erythroid 5-aminolevulinic synthetase) in a coordinately controlled way through an iron dependent cytosolic mRNA binding protein, the iron regulating factor (IRF). This factor is simultaneously a sensor and a regulator of iron levels. The reduction of ferritin levels during highly increased cell proliferation is a mirror of the increased density of TfRs. An abundance of data support the vigorous competition for growth-essential iron between microbial pathogens and their vertebrate hosts. The highly coordinated regulation of iron metabolism is probably crucial in achieving a balance between the blockade of readily accessible iron to invading organisms and yet providing sufficient iron for the immune system of the host. The most evident adverse clinical effects of excess iron have been observed in immunodeficient patients in tropical countries and in AIDS patients. Excess iron also increases the risk of initiation and promotion of malignant processes by iron binding to DNA and by the iron-catalysed release of free radicals. Oxygen radicals were shown to damage critical biomolecules leading, apart from cancer, to a variety of human disease states, including inflammation and atherosclerosis. They are also involved in processes of aging and thrombosis. Recent clinical trials have suggested that the use of iron-chelators, natural and synthetic antioxidants, and anti-TfR monoclonal antibodies can contribute in retarding malignant cell proliferation. Hypoferraemia during pregnancy is--like haemodilution--an adaptation to the risks involved in the natural hypercoagulable state of pregnancy. It may also serve to prevent the risk of infections and mutagenicity in the highly proliferating tissues of the foetus. Blunted erythropoiesis has been revealed during the first 30 weeks of pregnancy by the use of the newly developed method of determining the soluble serum transferrin receptor. The lack of increase in erythropoietin levels proves that there is no hypoxia. Decreases in Hb and iron levels are parts of a physiological adaptation. As a consequence they should neither be treated nor prevented. It is stressed that whenever a widespread and ingrained routine medical intervention has to be changed it is essential to first monitor the potential health effects of the recommended change in a national policy.
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PMID:Adequate iron stores and the 'Nil nocere' principle. 824 2

Cellular iron metabolism is altered during chronic inflammatory states, leading to reticuloendothelial iron sequestration and an associated anemia. To study the effects of nitric oxide (NO) on the expression of three genes involved in erythroid cell iron metabolism (gamma-globin, H-ferritin, and transferrin receptor [TfR]), we developed a series of human K562 erythroleukemic cell clones retrovirally transduced with inducible nitric oxide synthase (NOS-2) and producing different steady-state levels of NO. gamma-Globin and H-ferritin protein expression was reduced in NO-producing cells in relation to the amount of NO produced. Conversely, cell surface TfR expression increased in NO-producing clones. Both the inhibitory effects of NO on gamma-globin and H-ferritin expression and the stimulatory effect on TfR were reversed by the NOS inhibitor NG-methyl-L-arginine (NGMMA). gamma-Globin and H-ferritin mRNA levels were unaffected by NO production. In the case of TfR, NO appeared to stabilize mRNA in that the half life of TfR mRNA decreased from approximately 15 hours to less than 3 hours when NO production by NOS-transduced clones was inhibited. Thus, NO can regulate expression of these genes at the posttranscriptional level, an effect that is likely mediated by the known effect of NO on the RNA binding activity of iron regulatory protein-1 (Pantopoulos and Hentze, Proc Natl Acad Sci USA 92:1267, 1995). Furthermore, our findings suggest a mechanism for the observed relationship between NO production and the pathophysiology of the anemia of chronic disease.
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PMID:Nitric oxide alters the expression of gamma-globin, H-ferritin, and transferrin receptor in human K562 cells at the posttranscriptional level. 887 95

Iron uptake by mammalian cells is mediated by the binding of serum Tf to the TfR. Transferrin is then internalized within an endocytotic vesicle by receptor-mediated endocytosis and the Fe released from the protein by a decrease in endosomal pH. Apart from this process, several cell types also have other efficient mechanisms of Fe uptake from Tf that includes a process consistent with non-specific adsorptive pinocytosis and a mechanism that is stimulated by small-Mr Fe complexes. This latter mechanism appears to be initiated by hydroxyl radicals generated by the Fe complexes, and may play a role in Fe overload disease where a significant amount of serum non-Tf-bound Fe exists. Apart from Tf-bound Fe uptake, mammalian cells also possess a number of mechanisms that can transport Fe from small-Mr Fe complexes into the cell. In fact, recent studies have demonstrated that the membrane-bound Tf homologue, MTf, can bind and internalize Fe from 59Fe-citrate. However, the significance of this Fe uptake process and its pathophysiological relevance remain uncertain. Iron derived from Tf or small-Mr complexes is probably transported into mammalian cells in the Fe(II) state. Once Fe passes through the membrane, it then becomes part of the poorly characterized intracellular labile Fe pool. Iron in the labile Fe pool that is not used for immediate requirements is stored within the Fe-storage protein, ferritin. Cellular Fe uptake and storage are coordinately regulated through a feedback control mechanism mediated at the post-transcriptional level by cytoplasmic factors known as IRP1 and IRP2. These proteins bind to stem-loop structures known as IREs on the 3 UTR of the TfR mRNA and 5 UTR of ferritin and erythroid delta-aminolevulinic acid synthase mRNAs. Interestingly, recent work has suggested that the short-lived messenger molecule, NO (or its by-product, peroxynitrite), can affect cellular Fe metabolism via its interaction with IRP1. Moreover, NO can decrease Fe uptake from Tf by a mechanism separate to its effects on IRP1, and NO may also be responsible for activated macrophage-mediated Fe release from target cells. On the other hand, the expression of inducible NOS which produces NO, can be stimulated by Fe chelators and decreased by the addition of Fe salts, suggesting that Fe is involved in the control of NOS expression.
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PMID:The molecular mechanisms of the metabolism and transport of iron in normal and neoplastic cells. 932 34

Despite the established utility of serum transferrin receptor (sTfR), serum ferritin, and the sTfR/log ferritin ratio (TfR-F Index) in the diagnosis of iron deficiency (ID) anemia, the numeric values of these parameters, which are indicative of subclinical ID, remain to be clearly defined. In this study, 65 apparently healthy nonanemic adults (22 men and 43 women) were treated with 3 months of oral iron supplementation to evaluate its effect on parameters reflecting iron status and to determine the prevalence of subclinical iron deficiency in apparently healthy adults. Significant supplementation-induced changes were observed in sTfR, ferritin, and TfR-F Index values in women, whereas in men, none of the studied parameters showed any significant change. Iron-deficient erythropoiesis (IDE) was not observed in men, but was found in 17 women (40%). Although individuals with a compromised iron status may be represented in substantial numbers in conventional reference populations, they can be readily identified using sTfR, ferritin, and TfR-F Index determinations.
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PMID:Serum transferrin receptor and transferrin receptor-ferritin index identify healthy subjects with subclinical iron deficits. 976 80

Although alpha+ thalassaemia is the commonest haemoglobinopathy in the world, it is not known if it is associated with significant ineffective erythropoiesis, a fact of importance in interpreting its complex interaction with malaria. To study this problem, we have measured the concentrations of soluble transferrin receptor (sTIR) and ferritin in 181 children from Vanuatu with heterozygous (68) and homozygous (46) alpha+ thalassaemia, and normal controls (67). sTfR concentrations were significantly higher in both homozygotes (mean 3.1 mg/l, range 2.8-3.4) and heterozygotes (2.86 mg/l, 2.6-3.2) compared to the normal controls (2.48 mg/l, 2.3-2.7), suggesting that although globin chain imbalance is minimal, there is ineffective erythropoiesis in both these conditions. Age was also shown to significantly affect sTfR, with peak levels occurring in the 5-9 years age group. Ferritin concentrations showed a similar trend, being higher in the thalassaemic groups, although this did not reach statistical significance. No individuals had low ferritin concentrations, although two had significantly elevated sTfR levels. These observations suggest that the alpha+ thalassaemia phenotype includes an expansion of the erythron, and may suggest possible mechanisms for the increased susceptibility in babies with alpha thalassaemia to both P. falciparum and P. vivax malaria.
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PMID:Alpha thalassaemia is associated with increased soluble transferrin receptor levels. 982 6

In haemodialysis (HD) patients, functional iron deficiency frequently appears due to recombinant human erythropoietin (r-HuEPO) treatment. However, the diagnosis of iron deficiency is not always easy in such patients. Recent studies have shown that the serum transferrin receptor (s-TfR) level is a sensitive, quantitative measure of tissue iron deficiency. In this study, we examined the changes in s-TfR levels in patients with iron deficiency anaemia due to r-HuEPO treatment. We compared s-TfR levels of 24 patients with i.v. administered r-HuEPO (50-70 U/kg/dose) at the end of each dialysis session (three times a week) and diagnosed as having iron deficiency anaemia by routine laboratory methods (ferritin <50 microg/l and transferrin saturation <16%) with s-TfR levels of 32 patients not receiving r-HuEPO and without iron deficiency anaemia. Also, 40 healthy volunteer subjects were included in the study as a control group. Serum ferritin and transferrin receptor levels were measured with ELISAs using monoclonal reagents. There were no differences between the two groups with and without iron deficiency anaemia with respect to mean age, body weight, haemodialysis duration, haemoglobin and serum creatinine levels (p>0.05). For s-TfR levels, while no difference was present between the control and the non-iron deficiency groups (p>0.05), the iron deficiency group had higher s-TfR values than those of both the control and non-iron deficiency groups (p<0.001). Besides, there was an inverse correlation between haemoglobin and s-TfR levels in patients with iron deficiency anaemia (r = -0.85, p<0.0001). We conclude that the measurement of s-TfR levels may be useful in the diagnosis of functional iron deficiency in haemodialysis patients receiving r-HuEPO.
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PMID:The importance of serum transferrin receptor level in the diagnosis of functional iron deficiency due to recombinant human erythropoietin treatment in haemodialysis patients. 993 12

Fifty-one consecutive patients with chronic liver disease (CLD) underwent investigations of their iron status (full blood count, serum iron [Fe], total iron binding capacity [TIBC], transferrin saturation [TS], serum ferritin and serum soluble transferrin receptor [sTfR] level). Twenty-six patients were anaemic; 12 patients had iron deficiency, and 10 had iron deficiency anaemia (IDA). The median (range) sTfR in the IDA patients was 16.6 (11.2-24.8) mg/l. compared with 6.6 mg/l (11.2-24.8) in the 16 patients with anaemia due to other causes (P = 0.01). The sensitivity of sTfR for diagnosing iron deficiency in CLD was 91.6% (100% if only anaemic patients are included) and the specificity was 84.6%. Patients with haemolysis and recent blood loss may have falsely elevated sTfR levels. The results suggest that the sTfR is as useful as serum ferritin in identifying a potentially treatable cause of anaemia in CLD.
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PMID:Serum soluble transferrin receptor in the diagnosis of iron deficiency in chronic liver disease. 1034 67


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