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

We have previously demonstrated that distinct binding sites exist for human recombinant H ferritin (HrHF) and human liver ferritin (HLF) on human T lymphoid cells (MOLT-4). This study demonstrates that these binding sites have the characteristics of receptors specific for HrHF, and the binding characteristics and internalization of HrHF to MOLT-4 cells have now been examined. Iodinated HrHF was displaced by an excess of unlabeled HrHF. Heavy ferritin was the major subunit bound with only a small amount of light-ferritin binding, consistent with our immunofluorescence studies. Scatchard plot analysis of the competitive binding data for HrHF revealed an association constant of 6.3 to 6.7 x 10(7) L/mol with approximately 6000 to 15,000 receptor sites per MOLT-4 cell. Internalization of HrHF was demonstrated with pronase. Chloroquine substantially reduced the uptake of HrHF. Release of internalized HrHF was not observed when cells were rewarmed to 37 degrees C. These results indicate that HrHF is internalized by a mechanism consistent with receptor-mediated endocytosis, with possible involvement of the lysosome. The internalized HrHF remains associated with the cell. Although lymphoid cell growth and differentiation were not examined in this study, the presence of the demonstrated receptors may indicate a regulatory role for heavy ferritin in such cells.
 ...
PMID:Characterization of the ferritin receptors of human T lymphoid (MOLT-4) cells. 131 40

The uptake and intracellular metabolism of radiolabeled ferritin in rat hepatocytes were investigated. A receptor assay performed by incubating isolated hepatocytes with 125I-labeled ferritin at 37 degrees C for 1 h revealed 37,000 ferritin binding sites/cell with an affinity constant (Ka) of 1.8 X 10(9) M-1. The hepatocytes preincubated with 125I-labeled ferritin at 37 degrees C for 1 h were further incubated in a ligand-free medium at 37 degrees C for 4 h, and then the distribution of the label in the subcellular fractionations of hepatocytes was analyzed by 30% Percoll density gradient centrifugation. The label was transported from the plasma membrane fraction to the lysosome/mitochondria fraction and the cytosol fraction. Meanwhile, both of trichloroacetic acid (TCA)-soluble and TCA-precipitable 125I in the incubation medium increased with the incubation time. In order to study the intracellular metabolism of endocytosed ferritin, the hepatocytes preloaded with 59Fe-125I-double labeled ferritin were incubated at 37 degrees C for 4 h in the ligand-free medium containing 100 mumol/l chloroquine (a lysosomal metabolic inhibitor) or 10 mmol/l sodium cyanide (a mitochondrial metabolic inhibitor). Chloroquine increased TCA-precipitable 125I in the medium with a corresponding decrease in TCA-soluble 125I. However, no effect with sodium cyanide was observed. Radioactivities in the incubation medium were then divided into two components by HPLC gel filtration. One had a molecular weight similar to intact ferritin, 98% of which reacted to an anti-rat liver ferritin antiserum, while the other had a molecular weight of less than 1,000, 25% of which reacted to the antiserum. Chloroquine increased the amounts of intact ferritin released into the medium and decreased the degraded fragments. These results suggest two pathways of the endocytosed ferritin in hepatocytes; one is a degradation of ferritin in lysosome, which results in a storage of iron in the cells and an excretion of degraded peptides outside the cells, and the other is exocytosis of intact ferritin from the cells by a similar mechanism to "diacytosis" proposed for asialoglycoprotein.
 ...
PMID:[Uptake and intracellular metabolism of ferritin by primary cultured rat hepatocytes]. 165 94

Rat liver ferritin is an effective donor of iron to rat hepatocytes. Uptake of iron from ferritin by the cells is partially inhibited by including apotransferrin in the culture medium, but not by inclusion of diferric transferrin. This inhibition is dependent on the concentration of apotransferrin, with a 30% depression in iron incorporation in the cells detected at apotransferrin concentrations above 40 micrograms/ml. However, apotransferrin does not interfere with uptake of 125I-labeled ferritin, suggesting that apotransferrin decreases retention of iron taken up from ferritin by hepatocytes by sequestering a portion of released iron before it has entered the metabolic pathway of the cells. The iron chelators desferrioxamine (100 microM), citrate (10 mM) and diethylenetriaminepentaacetate (100 microM) reduce iron uptake by the cells by 35, 25 and 8%, respectively. In contrast, 1 mM ascorbate increases iron accumulation by 20%. At a subtoxic concentration of 100 microM, chloroquine depresses ferritin and iron uptake by hepatocytes by more than 50% after 3 h incubation. Chloroquine presumably acts by retarding lysosomal degradation of ferritin and recycling of ferritin receptors.
 ...
PMID:Uptake of ferritin and iron bound to ferritin by rat hepatocytes: modulation by apotransferrin, iron chelators and chloroquine. 291 2

Biochemical and ultrastructural studies of insulin binding and cellular processing by cultured H4IIEC3 hepatoma cells were performed. Insulin binding and intracellular accumulation were rapid and after 30 min at 37 degrees C, 65% of the total cell-associated 125I-insulin was in an acid-stable compartment. Chloroquine had no significant effect on the amount of total cell-associated insulin or the percentage of insulin in the acid-stable compartment or cell-associated insulin degradation under those conditions, but after 60-min incubations, it slightly decreased the rate of dissociation of internalized hormone. Ultrastructural analysis revealed that monomeric ferritin-insulin (Fm-I) initially bound to single or paired receptors on microvilli. Within 5 min occupied insulin receptors microaggregated and migrated to the intervillous cell surface. During the next 5-10 min occupied receptors aggregated into large clusters on the plasma membrane. Large amounts of insulin were internalized by macropinocytosis and the majority of internalized Fm-I was found in phagosomes. Less than 10% of the membrane-bound insulin was associated with pinocytotic invaginations or coated pits and less than 5% of the total cell-associated insulin was found in lysosomes. Chloroquine had no detectable effect on the amount of Fm-I or its distribution among the intracellular organelles. These studies demonstrated that, compared to previous studies with rat adipocytes or 3T3-L1 adipocytes, insulin interalization and intracellular processing in this hepatoma cell were unique. These differences provide further evidence that insulin binding and processing may be controlled by cell-specific mechanisms and that substantial heterogeneity exists in pathways previously presumed to be similar for all cell types.
 ...
PMID:Insulin binding and processing by H4IIEC3 hepatoma cells: ultrastructural and biochemical evidence for a unique route of internalization and processing. 354 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.
 ...
PMID:Iron metabolism of established human hematopoietic cell lines in vitro. 657 63

A quantitative morphological analysis of insulin uptake into adipocytes was undertaken to determine the structural basis for chloroquine-induced increases in intracellular insulin. Adipocytes were incubated with ferritin-labeled insulin in the presence or absence of 50 microM chloroquine at 37 degrees C for 2-90 min and the uptake of the hormone conjugate was determined quantitatively. Quantitative morphometry of cellular organelles also was performed. Chloroquine treatment of adipocytes incubated with 70 nM ferritin-labeled insulin resulted in: (i) a 120% increase in the number of lysosomes in the cytoplasm; (ii) a 75% increase in the average concentration of ferritin-labeled insulin in a lysosome; and (iii) a 25% increase in the percentage of lysosomes containing ferritin-labeled insulin. The cumulative result of these effects was a substantial increase in the amount of intact intracellular hormone within the lysosomes. These morphological data are consistent with biochemical data concerning chloroquine-induced accumulation of 125I-labeled insulin in adipocytes.
 ...
PMID:Ultrastructural basis for chloroquine-induced increase in intracellular insulin in adipocytes: alteration of lysosomal function. 676 Jan 94

In this study we used chloroquine to characterize the interalization and lysosomal degradation of receptor-bound 125I-insulin by rat adipocytes and to determine the role of lysosomal processing of insulin in the short-term biologic effects of the hormone. Chloroquine inhibited the degradation of 125I-insulin bound to adipocytes by both association and disslociation experiments. In the former experiments, chloroquine caused a time- and concentration-dependent increase in specifically bound insulin owing to an increase in intact insulin and a decrease in degradation products, as determined by trichloroacetic acid precipitability and gel chromatographic analysis of material extracted from the cells. In the dissociation experiments, 50 microM chloroquine decreased the rate of degradation by two third, as reflected in the release of degradation to or degraded by isolated plasma membranes, on the degradation of 125I-insulin by proteases in the incubation medium, or on the endocytotic uptake of receptor-bound insulin. Quantitative electron miroscopy, using monomeric ferritin-insulin, showed 50 microM chloroquine doubled the number of lysosomal structures containing ferritin. These findings are consistent with an inhibition by chloroquine of lysosomal degradation of internalized receptor-bound insulin. Chloroquine, at these same concentrations, had no effect on the ability of insulin to stimulate glucose transport and oxidation or to inhibit epinephrine-stimulated lipolysis. In these studies, we show that lysosomal degradation of internalized receptor-bound insulin is not necessary for insulin to cause short-term biologic effects in the adipocyte.
 ...
PMID:Lysosomal degradation of receptor-bound 125I-labeled insulin by rat adipocytes: its characterization and dissociation from the short-term biologic effects of insulin. 699 35

Chloroquine diverts secretory peptides from the regulated to the constitutive secretory pathway. The exact site and mechanism of the effect are not known. We studied the effect of increasing doses of chloroquine on the morphology of cultured melanotrophs from the rat pituitary. 40 microM chloroquine for 2 h, which perturbs intracellular pH gradients in melanotrophs without affecting secretion, caused swelling of a subpopulation of immature secretory granules. 200 microM chloroquine for 2 h, which diverts secretory peptides from the regulated to the constitutive pathway in the AtT-20 cell line, caused pronounced swelling of immature secretory granules, vacuolization of the trans-Golgi region and the appearance of myeloid bodies and multivesicular bodies in the cytoplasm. Golgi stacks were retained and Golgi cisternae only slightly dilated at both chloroquine concentrations. Mature secretory granules were not affected. Cationized ferritin was internalized and transported to the trans-Golgi region in the presence of 40 microM chloroquine while 200 microM chloroquine arrested internalised ferritin in peripheral multivesicular bodies. The study shows a heterogeneous effect of lower doses of chloroquine on immature secretory granules, providing a tool for studies on the relationships between condensation, acidification and peptide processing during granule formation. Chloroquine of 200 microM caused morphological changes typical for chloroquine toxicity and arrest of endocytic traffic.
 ...
PMID:Dose-dependent effects of chloroquine on secretory granule formation in the melanotroph. 907 1