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)

The weak base ammonium chloride has been previously reported to inhibit lysosomal movements and phagosome-lysosome (Ph-L) fusion in cultured mouse macrophages (M phi), thus reducing delivery, to an intraphagosomal infection, of endocytosed solutes that have concentrated in secondary lysosomes. We have now addressed the question, whether NH4Cl might affect any direct interaction (if it exists) between such infection phagosomes and earlier, nonlysosomal compartments of the endocytic pathway, i.e., solute-containing endosomes. The phagosomes studied were formed after ingestion of the mouse pathogen Mycobacterium microti and the nonpathogenic yeast Saccharomyces cerevisiae; and the endosomes were formed after nonreceptor-mediated endocytosis of electronopaque and fluorescent soluble markers. By electron microscopy, survey of the cell profiles of M phi that had been treated with 10 mM NH4Cl so that Ph-L fusion was prevented, and that displayed many ferritin-labeled endosomes, revealed numerous examples of the fusion of electronlucent endosomes, revealed numerous examples of the fusion of electronlucent vesicles with phagosomes, whether containing M. microti bacilli or S. cerevisiae yeasts. Fusion was recognized by transfer of label and by morphological evidence of fusion in progress. The fusing vesicles were classed as endosomes, not NH4Cl-lysosomes, by their appearance and provenance, and because lysosome participation was excluded by the concurrent, NH4Cl-caused block of Ph-L fusion and associated lysosomal stasis. No evidence of such phagosome-endosome (Ph-E) fusion was observed in profiles from M phi treated with chloroquine, nor in those from normal, untreated M phi. NH4Cl-treated living M phi that had ingested yeasts at 37 degrees C, followed by endocytosis of lucifer yellow at 17 degrees C (to accumulate labeled endosomes and postpone label passing to lysosomes), were then restored to 37 degrees C. Fluorescence microscopy showed that as many as half of the yeast phagosomes (previously unlabeled) rapidly became colored. We inferred that this transfer was from endosomes (by Ph-E fusion) because Ph-L passage was blocked (by the NH4Cl). We conclude that NH4Cl induces Ph-E fusion at the same time as it suppressed Ph-L fusion. We discuss the mechanisms of these concurrent effects and suggest that they are independent; and we consider the implications of NH4Cl opening a direct route for endocytosed molecules to reach an intraphagosomal infection without involving lysosomes.
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PMID:Ammonium chloride, an inhibitor of phagosome-lysosome fusion in macrophages, concurrently induces phagosome-endosome fusion, and opens a novel pathway: studies of a pathogenic mycobacterium and a nonpathogenic yeast. 191 41

In 781 female college students, there were 41 cases of iron deficiency anemia, 209 of latent iron deficiency, 3 of other anemias, and 528 normal cases. Fifty-four volunteers recruited from the iron deficiency anemia and severe latent iron deficiency groups were randomly divided into 4 study groups. Groups I and III received 500 mg of vitamin C daily, and groups II and IV received ferric ammonium citrate (FeAC; equivalent to 6 mg iron) in addition to vitamin C for 9 weeks. Groups I and II were loaded by aerobic exercise at 50% VO2 max. Significant differences between groups were noted in serum ferritin (SF) in III/IV, hematocrit (Ht) in II/III and III/IV, and reticulocytes (RET) in I/II, I/IV, and III/IV. Hemoglobin (Hb) and other iron-related blood indices tended to normalize in groups II and IV when compared with the pre-values. VO2 max was elevated in groups I and II regardless of iron treatment, but was augmented more in group II than group I.
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PMID:Improvement in iron deficiency anemia through therapy with ferric ammonium citrate and vitamin C and the effects of aerobic exercise. 191 3

Iron-transferrin (FeTF) is an essential growth factor required for proliferation of lymphoid cells. FeTF activates protein kinase C (PKC) in the lymphoblastoid T-cell line, CCRF-CEM. We have treated CEM cells with human FeTF, then examined levels of PKC mRNA by hybridization analysis using cDNA probes specific for alpha-, beta-, and gamma-PKC subspecies. CEM cell mRNA hybridized with the beta-subspecies probe but not with probes for alpha- or gamma-subspecies. After exposure to FeTF an increase in PKC-beta mRNA was detectable at 10 minutes, peaked at 12 hours, and was sustained for 72 hours. Nuclear transcription assays demonstrated that rates of PKC-beta mRNA transcription were increased in FeTF-treated cells. By contrast, steady state levels of PKC-beta mRNA did not increase after treatment of cells with apotransferrin or gallium TF. Similarly, treatment with soluble iron as ferric ammonium citrate did not increase steady state levels of PKC-beta mRNA, despite producing a marked increase in cellular ferritin content. Ferritin increased from a baseline value of 63 ng/10(6) cells to 98 and 100 ng/10(6) cells in CEM cells treated for 1 hour with ferric ammonium citrate or FeTF, respectively. FeTF did not increase cytoplasmic-free calcium in CEM cells loaded with fura-2, indicating that binding of FeTF to transferrin receptors did not open membrane Ca2+ channels or release intracellular Ca2+. In addition, pretreatment of cells with desferrioxamine, but not ferrioxamine, blocked the FeTF-induced increase in PKC-beta transcripts. Therefore, iron as FeTF (not soluble iron or nonferric TF) stimulates transcription of the CEM cell PKC-beta gene. Transcriptional rate of the PKC-beta gene does not correlate with cellular iron content as judged by ferritin measurements. Furthermore, the requirement for FeTF does not appear to reflect activation of a classic agonist pathway as judged by stable cellular Ca2+. These data suggest that delivery of iron by FeTF to one or more specific cellular compartments may stimulate PKC-beta gene transcription in CEM cells.
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PMID:Induction of protein kinase C mRNA in cultured lymphoblastoid T cells by iron-transferrin but not by soluble iron. 200 52

Itai-itai disease is thought to be the result of chronic cadmium (Cd) intoxication. We examined 23 autopsy cases of itai-itai disease and 18 cases of sudden death as controls. Urine and blood samples from 10 patients were collected before they died and revealed the presence of severe anemia and renal tubular injuries. Undecalcified sections of iliac bone were stained with Aluminon reagent, and ammonium salt of aurintricarboxylic acid, and Prussian blue reagent in all cases of itai-itai disease. These two reagents reacted at the same mineralization fronts. X-ray microanalysis revealed the presence of iron at mineralization fronts in itai-itai disease. Five patients showed evidence of hemosiderosis in the liver, spleen, and pancreas, probably as a result of post transfusion iron overload. Renal calculi and calcified aortic walls were also stained with Prussian blue reagent in several patients. Neither ferritin nor transferrin were visualized at mineralization fronts in itai-itai disease by immunohistochemical staining. These results suggest that iron is bound to calcium or to calcium phosphate by a physicochemical reaction. A marked osteomalacia was observed in 10 cases of itai-itai disease by histomorphometry. Regression analyses of data from cases of itai-itai disease suggested that an Aluminon-positive metal inhibited mineralization and that renal tubules were injured. Since bone Cd levels were increased in itai-itai disease, it is likely that renal tubules were injured by exposure to Cd. Therefore, stainable bone iron is another possible aggravating factor for osteopathy in itai-itai disease, and a synergistic effect between iron and Cd on mineralization is proposed.
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PMID:Iron as a possible aggravating factor for osteopathy in itai-itai disease, a disease associated with chronic cadmium intoxication. 203 51

Rat heart microsomes were found to contain nonheme iron and two lines of evidence suggested that this iron was involved in NADPH oxidation. As first evidence, pretreatment of rats with iron gluconate increased microsomal iron content and NADPH oxidation. As second evidence, treatment of microsomes with nonionic detergent Triton N-101 decreased membrane iron content and NADPH oxidation. Triton N-101-solubilized nonheme iron was nondialyzable and ammonium sulfate-precipitable, indicative of association with protein(s). This protein-bound iron per se did not oxidize NADPH but its addition to detergent-treated microsomes restored very high rates of NADPH oxidation, that were abolished by inhibiting NADPH-cytochrome P450 reductase with p-hydroxymercuribenzoate. Since heart microsomes did not contain cytochrome P450, these results suggested that stimulation of NADPH oxidation was mediated by direct electron transfer from reductase to iron. Purified rat heart ferritin and hemosiderin did not stimulate NADPH oxidation and the stimulation observed with detergent-solubilized microsomal iron was much higher than that observed with EDTA-Fe3+, a very effective electron acceptor for the reductase. This suggested that (i) microsomal iron was different from other intracellular iron-storage proteins, and (ii) microsomal iron was unusually permissive to one-electron transfer from reductase.
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PMID:Microsomal iron-dependent NADPH oxidation: evidence for the involvement of membrane-bound nonheme iron in NADPH oxidation by rat heart microsomes. 217 78

Intravaginal (ivag) immunization elicits secretory immune responses in the female reproductive tract, but little is known about the safety and effectiveness of adjuvants for such immunization. Mice were immunized intravaginally once daily for 5 days with large doses of horse ferritin combined with aluminum hydroxide (AH), muramyl dipeptide (MDP), monophosphoryl lipid A (MPL), dimethyl dioctadecyl ammonium bromide (DDA) or cholera toxin (CT). Titers of anti-ferritin IgA and IgG were measured in vaginal fluid by ELISA. The most effective adjuvant for ivag primary immunization was AH, while MPL was most effective for ivag boosting. None of the adjuvants caused a detectable tissue reaction in vaginal mucosa. Primary ivag immunization for 5 days with ferritin and AH followed by ivag boosting for 5 days with ferritin and MPL elicited higher IgA titers in vaginal fluid than systemic priming and boosting with ferritin and AH or systemic priming and ivag boosting with ferritin and MPL. Systemically immunized animals exhibited the highest IgG titers in vaginal fluid. The data indicate that adjuvants, particularly AH, can increase local immune responses to intravaginal immunization, but it should be noted that multiple applications of large doses of antigen were used and that this route of sensitization may be relatively inefficient.
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PMID:The effect of adjuvants on antibody titers in mouse vaginal fluid after intravaginal immunization. 221 22

Intravaginal immunization causes IgA responses in vaginal fluid, but so far lymphoid nodules in mouse vaginal mucosa have not been detected. The present study was therefore designed to test the hypothesis that IgA responses in the female reproductive tract may be generated in the regional iliac lymph nodes. Two, non-mucosal sites were identified in the female mouse pelvis, the subserous and presacral spaces, from which lymph drains mainly to the iliac nodes. Immunization at these pelvic sites with horse ferritin adsorbed to aluminum hydroxide (AH) caused much higher IgA and IgG titres in vaginal fluid than intravaginal immunization; moreover, the pelvic immunizations caused significantly higher and better sustained IgA titres in vaginal fluid than subcutaneous immunization near the scapulae or in the perineum, while IgG titres in vaginal fluid were similar in these groups. Additional mice were immunized with ferritin subcutaneously near the scapulae or in the presacral pelvic space using dimethyl dioctadecyl ammonium bromide (DDA), AH plus muramyl dipeptide, or the Ribi adjuvant system as adjuvants. Pelvic immunization caused higher IgA titres in vaginal fluid than subcutaneous immunization in each case. The IgA response stimulated by DDA was similar to that produced by AH but higher than the responses caused by the other two adjuvants, while IgG titres were similar with all four adjuvants in both sites. The results suggest that non-mucosal, pelvic immunization is particularly effective in stimulating IgA responses in the female reproductive tract. The observation is consistent with the possibility that the iliac lymph nodes may play a role in the development of IgA responses in the reproductive tract.
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PMID:Secretory immune responses in mouse vaginal fluid after pelvic, parenteral or vaginal immunization. 235 56

A 5-HT3 binding site, with high affinity for (S-)[3H]zacopride, was solubilized from rabbit small bowel muscularis membranes utilizing 0.5% sodium cholate and 400 mM (NH4)2SO4. Approximately 72% of the (S-)[3H]zacopride binding activity was recovered in a form that retained the high affinity (Kd = 0.7 nM) and specificity for this radioligand that is characteristic of the membrane-bound receptor. ICS 205-930 and other 5-HT3 compounds were effective inhibitors and exhibited the same rank order of potency in the solubilized and membrane-bound preparations. The receptor-detergent complex did not sediment after centrifugation for 1 h at 150,000 x g and eluted between thyroglobulin (MW = 669,000) and apoferritin (MW = 443,000) when fractionated by high-performance liquid chromatography gel filtration. This is the first report of the solubilization of a 5-HT3 binding site.
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PMID:Solubilization of a 5-HT3 binding site from rabbit small bowel muscularis membranes. 237 45

Ferritin is an iron-containing protein which is a normal component of serum. The levels of ferritin are increased in the sera of some children with neuroblastoma, and this increase appears to be a potent indicator of prognosis. To determine whether synthesis of ferritin by the tumor cells contributes to these increased serum levels, we examined incorporation of radiolabeled leucine by CHP 126, a neuroblastoma derived cell line, into ferritin. Using sequential immunoprecipitation and gel electrophoresis of sonicates from cells maintained in medium containing iron in amounts standard for tissue culture, incorporation of label into ferritin was 0.04% of that into total protein synthesized over the same time period. Addition of up to 40 micrograms of iron as ferric ammonium citrate increased ferritin synthesis to a maximum of 0.16% without altering synthesis of total protein. The pattern of iron-induced enhancement in the neuroblastoma cells was similar to that which was seen using Chang liver cells, a cell line well known to be capable of ferritin synthesis. These results confirm that neuroblastoma cells can synthesize ferritin and that synthesis is regulated by exogenous iron.
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PMID:Synthesis of ferritin by neuroblastoma. 238 59

Translational control of ferritin synthesis was studied in rat spleen, and compared with that for liver, heart and brain, in response to iron and inflammation. Spleen concentrations of total RNA in the ribonucleoprotein (mRNP) fraction was comparable to that for liver, while polyribosomal RNA was less. Both fractions were ten-fold lower in heart and brain. In untreated animals, the mRNP fraction of all tissues had the largest portion of the ferritin mRNA, as determined by slot blot hybridization with 32P-labeled cDNA for the L subunit. Acute treatment with ferric ammonium citrate shifted the spleen ferritin mRNA to the polyribosome fraction. This was also so in liver but not in the heart and brain which took up much less iron. The findings were confirmed by hybridization studies of mRNPs and polyribosomes separated in sucrose gradients. Turpentine-induced inflammation also caused a shift in ferritin mRNA from the mRNP to the polyribosome fraction of spleen and liver, over 12 h. We conclude that as in liver, spleen ferritin synthesis is under translational control by iron, and that both tissues also respond to inflammation by shifting of ferritin mRNA to the polyribosomes.
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PMID:Translational regulation of ferritin synthesis in rat spleen: effects of iron and inflammation. 247 Mar 68

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