Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Serum ferritin, serum iron, and unsaturated iron binding capacity were studied in 64 patients with beta homozygous thalassemia (BHT), 120 patients with beta heterozygous thalassemia, and 46 normal subjects. Incidence of iron overload seen in 32 BHT cases was similar in untransfused and transfused cases. Among heterozygotes, iron stores were depleted in 24 (20%), mostly females (70.8%). Only male heterozygotes but not normals were iron deficient. In 18 (75%) heterozygotes with depleted iron stores, transferrin saturation (TS) was normal. It was also normal in 8 (25%) BHT patients and 5 (100%) heterozygotes with iron overload. In 13 (35.1%) BHT patients, it was raised in the absence of iron overload. It was concluded that iron deficiency in heterozygotes is of greater magnitude, especially in females, than hitherto known in India. Transferrin saturation is not a good indicator of either iron depletion or overload. Iron supplementation is recommended in heterozygous beta thalassemia in infants, children, and expectant mothers in geographic areas with high incidence of iron deficiency.
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PMID:A study of serum ferritin in beta thalassemia. Iron deficiency and overload. 401 70

Iron, transferrin and ferritin were measured in serum samples from 16 patients with primary hypogammaglobulinaemia. Transferrin saturation was low in 12 patients (75%) and serum ferritin was low in 9 patients (56.25%). Both parameters were low, confirming the state of iron deficiency, in 6 patients (37.5%). These figures are highly significant (P less than 0.01) when compared with the prevalence of iron deficiency in the general population. Eight patients were maintained on intravenous immunoglobulin infusions and the rest on intramuscular immunoglobulin injections, their mean serum IgG being 4.4 g/l and 2.6 g/l respectively. There was no difference in the prevalence of iron deficiency between the two groups.
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PMID:Iron status in hypogammaglobulinaemia. 404 86

The mechanism of action of the hydroxamate iron chelators desferrioxamine (DFO), rhodotorulic acid (RHA) and cholylhydroxamic acid (CHA) was studied using rat hepatocytes in culture. Each chelator affected both the uptake and, to a much smaller extent, the release of transferrin-125I-59Fe from the cells. All chelators reduced the 59Fe uptake and incorporation into ferritin in a concentration-dependent manner. Uptake of 59Fe into the membrane (stromal-mitochondrial) fraction was also decreased by DFO and RHA but increased by CHA. Transferrin-125I binding was reduced slightly by DFO and RHA and increased by CHA. All chelators released 59Fe transferrin-125I from hepatocytes prelabelled by incubation with rat transferrin-125I-59Fe and washed before reincubation in the presence of the chelators. DFO decreased membrane 59Fe but had little effect on ferritin-59Fe. RHA decreased 59Fe in both membrane and ferritin fractions. CHA decreased hepatocyte-59Fe but increased 59Fe in the hepatocyte membrane fraction. Higher concentrations of the chelators had little further effect on 59Fe release but promoted transferrin-125I release from hepatocytes. All chelators appeared to act on kinetically important iron pools of limited size and hence are likely to be most effective when given by continuous infusion rather than bolus injection.
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PMID:Effect of desferrioxamine, rhodotorulic acid and cholylhydroxamic acid on transferrin and iron exchange with hepatocytes in culture. 407 94

Transferrin bound by isolated rat hepatocytes is rapidly endocytosed and enters a compartment of low density. Little was found associated with the lysosomes, even though the protein was subsequently lost from the cells. Iron entering the cells on transferrin was subsequently found in a number of intracellular components: transferrin, haem, ferritin and a residual fraction. After 2 h incubation with 59Fe-transferrin almost 70% of the iron was in ferritin, and this proportion increased to 80% during a 'chase' experiment. Residual iron, because of its rapid increase at the start of the incubation and its decline during the 'chase', probably represents an intracellular transit pool, which at steady state was present at 23 pg/10(6) cells.
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PMID:Intracellular processing of transferrin and iron by isolated rat hepatocytes. 409 24

The endocytic activity of epithelial cells from the rat epididymis in vitro has been examined by following the uptake of tracer compounds conjugated to proteins. Transferrin-gold and alpha 2-macroglobulin-gold were taken up initially in coated pits, internalized and sequestered into tubular-vesicular structures, multivesicular bodies and, in the case of alpha 2-macroglobulin, into lysosomes. Uptake could be prevented by an excess of unlabeled protein. Studies using 125I-alpha 2-macroglobulin and 125I-transferrin also showed that the uptake of these proteins was specific and could be displaced with increasing amounts of unlabeled protein. In addition, binding of 125I-transferrin to cells was saturable at 4 degrees C. These studies indicate that transferrin and alpha 2-macroglobulin are taken up by receptor-mediated endocytosis. In contrast, a fluid phase marker, bovine serum albumin-gold (BSA-gold), was initially taken up predominantly in uncoated caveolae rather than coated pits, and could not be displaced with excess BSA. By virtue of their charge, polycationized ferritin and unlabeled colloidal gold were taken up and internalized by adsorptive endocytosis, a pathway which is similar to fluid phase endocytosis. The uptake and internalization of alpha 2-macroglobulin and transferrin differed in a number of respects. Uptake and internalization of alpha 2-macroglobulin but not of transferrin was dependent on extracellular calcium. Only alpha 2-macroglobulin was transferred into lysosomes, whereas transferrin was recycled to the cell surface. Although the proton ionophore, monensin, and the transglutaminase inhibitor, dansylcadaverine, did not stop uptake and internalization of either alpha 2-macroglobulin or transferrin, they did prevent the transfer of alpha 2-macroglobulin to lysosomes.
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PMID:Receptor-mediated endocytosis of alpha 2-macroglobulin and transferrin in rat caput epididymal epithelial cells in vitro. 608 10

In addition to the usual parameters for haematologic an rheumatologic diseases folic acid, vitamin B12, and ferritin were investigated by radioisotope studies. In some groups folic acid was lower compared to controls, and it is possible that the disease causes the deficiency of folic acid absorption and distribution. Vitamin B12 was only slightly decreased, thus, the values may be assumed to be close to normals. Transferrin ankylosing spondylitis is similar to that of controls, however, transferrin increases in rheumatoid arthritis and in mixed groups containing patients various diseases. Finally, the deficiency of folic acid absorption can be assumed to be caused by the symptoms of the disease, whereas in the case of inflammatory diseases and in mixed group transferrin increased.
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PMID:Radioisotope binding capacity of serum in folic acid, vitamin B12 and ferritin in haematologic and rheumatologic patients. 616 34

The monoclonal antibody OKT9 (a known transferrin receptor antibody) and a monoclonal antibody to transferrin (ATfn) were used to localize the transferrin receptor and transferrin on marrow cells. After incubation of cell suspensions with the antibody, the cells were reacted with an affinity purified Fab fragment of goat anti-mouse IgG conjugated to horseradish peroxidase (GAM-HRP), which was in turn visualized by reaction with 3,3'-diaminobenzidine (DAB). Erythroblast cell surfaces stained intensely with OKT9-GAM-HRP-DAB, weaker staining was observed on reticulocyte surfaces, whereas erythrocyte surfaces lacked staining. Staining was present on surface caveolae, which often contained endogenous ferritin particles. Moderate to strong OKT9 staining was observed on less than 10% of presumed lymphoid cells. Monocytes, macrophages, promyelocytes, granulocytes, megakaryocytes and platelets consistently lacked OKT9 staining. ATfn-GAM-HRP-DAB staining of erythroid cells was similar to that observed with OKT9 staining; however, in contrast to the latter staining, ATfn stained the surfaces of megakaryocytes, platelets, monocytes and most lymphocytes. Promyelocytes stained weakly, whereas late granulocytes lacked staining. These results indicate that the T9 transferrin receptor (1) is largely confined to erythroid cells in marrow, (2) is diffusely distributed on the surface of early erythroid cells, (3) decreases with cell maturation, and (4) is lost when haemoglobin synthesis is completed. Transferrin appears in a similar distribution on erythroid cell surfaces but also appears to bind to some cell surfaces lacking the T9 receptor.
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PMID:Ultrastructural localization of the transferrin receptor and transferrin on marrow cell surfaces. 630 35

An immunoperoxidase staining technique was used for detecting three major iron binding proteins (ferritin, transferrin and lactoferrin) in 40 breast carcinoma cases and six benign breast proliferative lesions. Ferritin staining was detected mainly in connectival stroma and in histiocytes surrounding neoplastic cells. Few and faint ferritin positivities were also detected in neoplastic cells of 20 carcinoma cases. Transferrin was found inconsistently in myoepithelial cells surrounding normal ductules, or around neoplastic ducts of ductal in situ carcinoma. In eight carcinoma cases, transferrin staining was also positive in neoplastic cells. Lactoferrin was detected only in normal breast epithelial cells and in benign breast proliferative lesions. These immunohistochemical findings may suggest that raised serum ferritin concentrations in breast carcinoma patients might be attributed to stromal reaction rather than to tumour synthesis. Transferrin staining of neoplastic cells in these carcinoma cases appears to be very intriguing, particularly since transferrin is considered an obligate requirement for growing cells, and transferrin receptors have been demonstrated only in dividing cells. On the basis of the immunohistochemical data, lactoferrin might be used as a pointer to benign lesions.
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PMID:Distribution of ferritin, transferrin and lactoferrin in breast carcinoma tissue. 632 44

Three malignant hematopoietic cell lines were used in studies on cellular iron metabolism. Our results show that iron-carrying transferrin became bound to specific dimeric cell surface receptors. Iron accumulated within the cell with time, whereas intact transferrin was released back to the medium. Chloroquine and NH4Cl, known as pH-raising agents in vesicles of the lysosomal system, inhibited iron accumulation and transferrin binding in a dose-dependent manner. This suggests that the acid pH in endosomes leads to the cleavage of the iron-transferrin bonds. Transferrin degradation was not found, which leads us to suggest a process of 'acid flushing' for the dissociation of iron from transferrin without the involvement of endosome-lysosome fusion. Taken together, the data agree with the concept of receptor-mediated endocytosis, as described for many macromolecules. Iron was stored in ferritin in the cell types tested. Only a minor part (less than 15%) of the iron was bound in hemoglobin in the K-562 cell line. The relationship between iron stores and exogenously added iron in heme synthesis was investigated using a double labelling (55Fe/59Fe) technique. The results showed that exogenous iron was preferentially used before the iron stored in ferritin. The results are discussed in relation to various hypotheses on cellular iron uptake and transport.
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PMID:Iron metabolism of established human hematopoietic cell lines in vitro. 657 63

Transferrin, the plasma iron transport protein, has two iron-binding sites but is usually only partly saturated. (Essentially all plasma iron is bound to transferrin.) Thus, changes in transferrin saturation reflect differences in the concentrations of plasma iron and/or transferrin. Developmental changes in red cell ferritin content coincide with a 2.5 times increase in plasma transferrin and a proportional decrease in saturation, in the bullfrog model system. The possible relationship of the degree of transferrin saturation and structure on the distribution of iron between heme and ferritin was examined in suspensions of reticulocytes, which synthesize both ferritin and heme. The extra transferrin in adult plasma was indistinguishable from transferrin in tadpole plasma in terms of the ability to donate iron to red cell heme and ferritin in vitro and in terms of surface charge (pI 6.55, 6.34), molecular weight (73,000), carbohydrate content (2%), amino acid composition, and immunological reactivity. Only the saturation in vivo appeared to differ. When the saturation of transferrin was manipulated in vitro, an effect on the relative distribution of iron between heme and ferritin was observed. The heme-synthesizing system consumed a disproportionately large amount of the delivered iron until it was saturated, a point which coincided with transferrin saturation; as the degree of transferrin saturation decreases, iron delivered to red cell iron stores (ferritin) decreases disproportionately. Thus, the developmental increase in plasma transferrin and consequent decrease in saturation minimize the amount of iron available for storage in red cells. The effect is further enhanced by the decreased ability of adult erythrocytes to incorporate iron from transferrin, a property which may be related to quantitative changes observed in iodination of a Mr = 168,000 membrane protein.
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PMID:Developmental changes in plasma transferrin concentrations related to red cell ferritin. 660 54


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