UNIPROT:P02794 - FACTA Search

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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using ferritin-labeled protein A and colloidal gold-labeled anti-rabbit IgG, the fate of the sheep transferrin receptor has been followed microscopically during reticulocyte maturation in vitro. After a few minutes of incubation at 37 degrees C, the receptor is found on the cell surface or in simple vesicles of 100-200 nm, in which the receptor appears to line the limiting membrane of the vesicles. With time (60 min or longer), large multivesicular elements (MVEs) appear whose diameter may reach 1-1.5 micron. Inside these large MVEs are round bodies of approximately 50-nm diam that bear the receptor at their external surfaces. The limiting membrane of the large MVEs is relatively free from receptor. When the large MVEs fuse with the plasma membrane, their contents, the 50-nm bodies, are released into the medium. The 50-nm bodies appear to arise by budding from the limiting membrane of the intracellular vesicles. Removal of surface receptor with pronase does not prevent exocytosis of internalized receptor. It is proposed that the exocytosis of the approximately 50-nm bodies represents the mechanism by which the transferrin receptor is shed during reticulocyte maturation.
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PMID:Electron microscopic evidence for externalization of the transferrin receptor in vesicular form in sheep reticulocytes. 299 17

Cultured myeloid leukemia cells display transferrin receptors but decrease receptor display after differentiation induction or accumulation of intracellular iron. To determine whether regulation of transferrin receptors and ferritin were linked under these disparate conditions, serum-free and fetal bovine serum (FBS) cultures of HL60 promyelocytic leukemia cells were used to investigate relationships between transferrin receptor display and intracellular ferritin. Using 125I-transferrin binding and immunofluorescence staining for transferrin receptors, HL60 cells cultured in serum-free, transferrin-free medium expressed fewer transferrin receptors and contained increased ferritin when compared to cells cultured with FBS or transferrin supplemented, serum-free medium. When placed in medium containing transferrin, cells previously grown in transferrin-free medium rapidly re-expressed transferrin receptors and decreased their ferritin content. HL60 cells induced to differentiate into granulocytes or macrophages also decreased transferrin receptor display and increased their ferritin content. Transferrin receptor display and ferritin content in both proliferating and differentiating myeloid leukemia cells are inversely related and their regulation is closely linked. Regulation of transferrin receptor display and ferritin synthesis may be important events regulating myeloid cell growth and differentiation.
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PMID:Transferrin receptor regulation is coupled to intracellular ferritin in proliferating and differentiating HL60 leukemia cells. 299 67

Resting human T-lymphocytes show an elevated intracellular concentration of ferritin, whereas transferrin receptors are not detectable. Stimulation by phytohemagglutinin markedly lowers their ferritin content, while inducing the synthesis of transferrin receptors. Addition of iron salts (ferric ammonium citrate) in activated T-lymphocyte cultures causes a marked enhancement of both [3H]uridine and [3H]thymidine incorporation. Nevertheless, it also induces a concentration-dependent decrease in transferrin receptor synthesis, associated with a marked rise of ferritin production. Hemin treatment exerts the same effects. Addition of picolinic acid in phytohemagglutinin-stimulated cultures causes a decrease of [3H]thymidine incorporation, whereas transferrin expression is markedly enhanced. The action of iron salts and chelators is specific for transferrin receptors, since the expression of other membrane markers of activated human T-lymphocytes (interleukin-2 receptor, insulin receptor, and HLA-DR antigen) is not modified by treatment with iron or picolinic acid. These observations suggest that expression of transferrin receptors in activated T-lymphocytes is specifically modulated by their intracellular iron level, rather than their proliferative rate. Addition of picolinic acid to resting T-lymphocytes in the absence of mitogen induces a marked decrease of their ferritin content, but not the appearance of transferrin receptors. On the basis of these results, we suggest a three-step model: (a) in resting T-lymphocytes, the gene for transferrin receptor is apparently "closed," in that it is not expressed under both normal conditions and following iron deprivation. (b) After mitogen stimulus, T-lymphocytes are reprogrammed into cell cycle progression, which necessarily entails synthesis of transferrin receptors (c) Expression of these receptors is modulated by the intracellular iron level, rather than the rate of proliferation per se.
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PMID:Expression of transferrin receptors in phytohemagglutinin-stimulated human T-lymphocytes. Evidence for a three-step model. 300 77

The effect of desialylation of rat and human transferrins on hepatocyte processing of the protein and its iron was studied in rats. No alteration in early transferrin catabolism was observed. Radioiron disappearance from the plasma and liver iron uptake were more rapid for asialotransferrins than for normal transferrins (P less than .001). Furthermore, radioiron plasma clearance of human tri-sialotransferrin was faster (P less than .05) and liver uptake higher (P less than .002) than for human pentasialotransferrin. When the asialoglycoprotein receptor was blocked by the prior injection of asialofetuin, asialotransferrin behaved like normal transferrin. When the transferrin receptor was blocked by the prior injection of 50 mg human diferric transferrin, iron uptake from all transferrins was delayed to such an extent that uptake through both receptors seemed to be affected. Approximately 90% of the hepatic radioiron from all transferrins was chelated by desferrioxamine and excreted into the bile, indicating its uptake by the hepatocyte rather than the reticuloendothelial (RE) cell. The rate of iron release into the plasma and its subsequent accumulation in the red cell mass over a 2-week period was similar for human asialotransferrin, ferritin, and hemoglobin iron. This study 1) confirmed that asialotransferrin-iron uptake by the hepatocyte is mediated by both transferrin and asialoglycoprotein receptors; 2) demonstrated that not only asialotransferrin but also transferrin of low sialic acid content will increase iron turnover and lead to excessive iron loading of the hepatocyte; 3) and showed that the intrahepatocyte metabolism of asialotransferrin-iron did not differ from that of iron delivered by normal transferrin.
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PMID:The behavior of asialotransferrin-iron in the rat. 318 16

Most eukaryotic cells express two proteins, whose biosynthetic rates are determined by the intracellular iron status. The genes for both these proteins, ferritin and the transferrin receptor (TfR), are regulated at the post-transcriptional level, but by entirely different mechanisms. Ferritin mRNA levels are not affected by acute changes in iron availability. Ferritin biosynthesis is regulated translationally via a defined element contained within the 5' untranslated region (UTR) of the ferritin mRNA. This element has been highly conserved during evolution and has been termed an iron-responsive element (IRE). In contrast to ferritin, the regulation of TfR biosynthesis is mirrored by equivalent changes in TfR mRNA levels. The genetic information for this regulation is mostly located in the region of the gene encoding the 3' UTR of the TfR mRNA. Five elements that closely resemble the ferritin IRE are contained within the region which is critical for TfR regulation. The IRE is suggested to function by forming a specific stem-loop structure that interacts with a transacting factor in an iron-dependent fashion. We present a model that accommodates the mediation of distinct post-transcriptional regulatory phenomena via IREs.
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PMID:A model for the structure and functions of iron-responsive elements. 326 4

Following a pulse with 59Fe-transferrin, K562 erythroleukemia cells incorporate a significant amount of 59Fe into ferritin. Conditions or manipulations which alter the supply of iron to cells result in changes in the rate of ferritin biosynthesis with consequent variations in the size of the ferritin pool. Overnight exposure to iron donors such as diferric transferrin or hemin increases the ferritin level 2-4- or 6-8-fold above that of the control, respectively. Treatment with the anti-human transferrin receptor antibody, OKT9 (which reduces the iron uptake by decreasing the number of transferrin receptors) lowers the ferritin level by approximately 70-80% with respect to the control. The fraction of total cell-associated 59Fe (given as a pulse via transferrin) that becomes ferritin bound is proportional to the actual ferritin level and is independent of the instantaneous amount of iron taken up. This has allowed us to establish a curve that correlates different levels of intracellular ferritin with corresponding percentages of incoming iron delivered to ferritin. Iron released from transferrin appears to distribute to ferritin according to a partition function; the entering load going into ferritin is set for a given ferritin level over a wide range of actual amounts of iron delivered.
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PMID:Regulation of intracellular iron distribution in K562 human erythroleukemia cells. 345 8

We have studied the role of transferrin and the transferrin receptor in the uptake of 67Ga by the human leukemic cell line HL60. In the absence of transferrin, HL60 cells incorporated about 1% of the 67Ga dose over 6 h. The presence of transferrin increased cellular 67Ga uptake approximately 10-fold. Transferrin-mediated uptake of 67Ga was blocked by an anti-transferrin receptor monoclonal antibody, and decreases in the density of cellular transferrin receptors led to corresponding decreases in the transferrin-dependent uptake of 67Ga. Changes in the cellular ferritin content did not significantly influence the uptake of 67Ga by either transferrin-independent or transferrin-dependent pathways. Regardless of the mechanism of uptake, a significant amount of intracellular 67Ga was found to be associated with immunoprecipitable ferritin as well as with a free pool. This free intracellular 67Ga appeared to be kinetically active since cells released 67Ga back to the media over time. Our results demonstrate the existence of a dual mechanism for the cellular uptake of 67Ga and suggest that the preferential uptake of 67Ga by lymphomas is related to the high density of transferrin receptors known to be expressed by these tumors in vivo.
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PMID:Uptake of gallium-67 by human leukemic cells: demonstration of transferrin receptor-dependent and transferrin-independent mechanisms. 347 68

In the attempt to define the abnormalities responsible for the severe iron overload found in patients with idiopathic hemochromatosis (IH) we analyzed, in 8 patients with IH and in 7 normal subjects, by using specific cDNA probes, the genes coding for the main iron-related proteins, i.e., transferrin, transferrin receptor, as well as H and L subunits of ferritin. In all the patients tested all the probes failed to evidentiate rearranged bands with any of the restriction enzymes employed. These findings suggest the absence of gross structural alterations of the genes examined. The lack of polymorphic sites recognized by the restriction enzymes employed in this study within or around the genes examined does not allow to associate a specific gene with the disease.
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PMID:Analysis of the genes for transferrin, transferrin receptor as well as H and L subunits of ferritin in idiopathic hemochromatosis. 367 94

Binding of 125I-transferrin (125I-Tf) to the plasma membrane of Sertoli cells and its endocytosis were analyzed by means of light- and electron-microscope quantitative radioautography. Five minutes after 125I-Tf was injected into the interstitial space of the testis, a strong labeling of the basal aspect of the seminiferous epithelium was observed in light-microscope radioautographs. Injection of the same dose of 125I-Tf plus a 200-fold excess of cold transferrin resulted in a marked diminution of the radioautographic reaction, indicating that the initial strong labeling with radiolabeled transferrin was specific. These results were consistent with the localization of immunoreactive fluorescence of transferrin receptor at the base of the seminiferous epithelium. In electron-microscope radioautographs of tubules collected at 5 min after injection, the membrane of Sertoli cells facing the basement membrane was well labeled with 125I-Tf. At 15 and 30 min, the plasma membrane was less intensely labeled, but the silver grains were then seen overlying multivesicular bodies with an electron-lucent matrix, identified as endosomes. This population of endosomes was always seen at a short distance from the basal membrane of Sertoli cells. At 90 min, no more labeling of the plasma membrane, endosomes, or any other cytoplasmic component was observed. Isolated seminiferous tubules and Sertoli cells labeled with 125I-Tf at 4 degrees C were rinsed and reincubated in a label-free medium at 37 degrees C for various periods of time from 5 to 90 min. A radioactive protein precipitated by trichloroacetic acid, presumably intact transferrin, was released from the tubules into the incubating medium; when measured, it was found to increase rapidly from 5 to 45 min and stabilize thereafter. These results suggest that transferrin was internalized by receptor-mediated endocytosis, reached endosomes, and then was released to the extratubular space. When native ferritin (NF), a tracer for fluid-phase endocytosis, was infused within the lumen of seminiferous tubules and 125I-Tf was simultaneously injected into the interstitial space, both markers rapidly reached different populations of endosomes. Endosomes labeled with NF, scattered throughout the cytoplasm, evolved with time into dense multivesicular bodies and secondary lysosomes, whereas radiolabeled transferrin reached only the endosomes located in the basal cytoplasm of Sertoli cells. The latter thus appeared to be principally involved in the uptake and recycling of transferrin.
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PMID:Receptor-mediated endocytosis of transferrin by Sertoli cells of the rat. 376 60

Serum-free cultures of HL60 promyelocytic leukemia cells and cultured fresh leukemia and normal marrow cells were used to investigate relationships between proliferation, transferrin receptor (TfR) display and intracellular ferritin (Fer). HL60 cells in serum- und Tf-free medium displayed 3 times less TfR than cells in serum or Tf containing medium. But Fer in Tf-independent cells was 50 times higher than Fer in serum- or Tf-supplemented cells. HL60 cells induced to differentiate by DMSO or vitamin D3 decreased TfR but increased Fer. Expression of TfR with fresh leukemia and normal marrow cells was less clear than in HL60 cells; DMSO or vitamin D3 induced differentiation was associated with a 10-fold Fer increase in leukemia cells and greater than 100-fold increase in marrow cells. TfR-expression and ferritin synthesis may be important events in cell differentiation and growth.
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PMID:[Interrelation between transferrin receptor expression and intracellular ferritin concentration in leukemia cells and normal marrow cells]. 378 30

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