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)

Five patients undergoing long-term hemodialysis with transfusional iron overload received treatment for 18 weeks with a regimen of recombinant human erythropoietin (150 U/kg) and regular phlebotomy to maintain the hematocrit value at 25% and reduce the total body iron burden. In the 149 phlebotomy sessions performed in these patients, a mean of 228 +/- 8 ml (mean +/- SEM) of whole blood was removed; it had a hematocrit value of 27.7% +/- 0.2%. The iron content of the erythrocytes removed (erythrocyte iron concentration, 787 +/- 11 micrograms/ml in 133 samples) accounted for more than 99% of the total iron removal by phlebotomy. Serum iron (serum iron concentration, 1.57 +/- 0.09 micrograms/ml in 65 samples) accounted for an insignificant fraction of the total iron removed. The iron removed at each phlebotomy session averaged 49.1 +/- 2.0 mg, similar to the amount of iron removed with deferoxamine administration in patients undergoing dialysis who had iron overload, but without the potential for adverse side effects reported with long-term deferoxamine therapy. Total iron removal during the 18 weeks of this study ranged from 732 to 2797 mg. Mean serum ferritin level decreased from 3189 +/- 1076 micrograms/L to 1676 +/- 342 micrograms/L (p less than 0.02, Wilcoxon signed rank test). When compared with a group of five patients without transfusional iron overload who received recombinant human erythropoietin and did not undergo therapeutic phlebotomy, the patients with iron overload had much greater iron losses and a larger decrease in serum ferritin levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transfusional iron overload in patients undergoing dialysis: treatment with erythropoietin and phlebotomy. 275 6

To evaluate a pediatric trace element supplement (Ped-El, Pharmacia) 18 metabolic balance studies were completed in 13 infants (mean birth weight 909 +/- 67 g, x +/- SEM; mean gestational age 27.2 +/- 1 weeks) who received total parenteral nutrition. The supplement supplied 40 micrograms/kg/day of zinc resulting in negative retention of 226 micrograms/kg/day. Copper infused at 20 micrograms/kg/day led to a positive retention of 8 micrograms/kg/day and an increase in serum Cu (p less than 0.05) not related to Cu intakes. Manganese infused at 40 micrograms/kg/day was nearly all retained (88 +/- 16% retention). Iron infused at 120 micrograms/kg/day led to a positive retention of 93 micrograms/kg/day. Although plasma ferritin and percent transferrin saturation were elevated, only plasma Fe values were correlated with Fe intake. This trace element supplement does not appear suitable for very low birth weight preterm infants.
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PMID:Zinc, copper, manganese, and iron balance of parenterally fed very low birth weight preterm infants receiving a trace element supplement. 313 48

We have examined the effect on iron stores of blood transfusions given to premature neonates during hospitalization in the neonatal intensive care unit as reflected by serum ferritin levels measured for 6 months after discharge. Premature infants who were transfused with more than 100 ml packed cells (group D; n = 11) had higher ferritin levels for a longer period than premature infants who were transfused with smaller volumes (group c; n = 9) or premature and mature infants who were not transfused at all (group B; n = 24 and group A; n = 21, respectively). At 4-5 months the serum ferritin levels in group D (489.8 +/- 132.1 micrograms/L; mean +/- SEM) were significantly higher (P less than 0.001) than those of the other groups. The level of group A term infants (77.5 +/- 12.5 micrograms/L) was higher than those of group B premature infants who did not receive a blood transfusion (33.0 +/- 7.1 micrograms/L) or group C who received less than 100 ml (36.5 +/- 8.8 micrograms/L packed red blood cells. However, these differences were not statistically significant. Our data demonstrate that very-low-birthweight infants who receive a large volume of packed cells during hospitalization may accumulate iron stores sufficient for red cell production during the first 6 months of life. Administration of large amounts of supplemental iron, in such cases, may be curtailed.
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PMID:Serum ferritin levels in preterm infants after multiple blood transfusions. 333 57

Previous investigations have shown that alveolar macrophages from cigarette smokers contain more iron than do macrophages obtained from nonsmokers. To localize intracellular iron and to help assess its potential for participation in the production of hydroxyl radicals, macrophages were fractionated and the ferritin and iron contents were measured in various cell fractions. Alveolar macrophages from seven smokers and six nonsmokers were lysed by nitrogen cavitation and centrifuged, first at 500 g and then at 11,000 g. Measured by radio-immunoassay, the total cellular ferritin was 133.8 +/- 33.2 ng and 782.0 +/- 177.8 ng per 1 x 10(6) macrophages (mean +/- SEM, p less than 0.01) obtained from nonsmokers and smokers, respectively. The total cellular iron contents were 7.5 +/- 0.6 nmol and 27.6 +/- 4.8 nmol per 1 x 10(6) macrophages (p less than 0.02) obtained from nonsmokers and smokers, respectively. The accumulation of iron by smokers' alveolar macrophages correlated with the number of cigarettes that had been smoked. Forty-two percent of the iron but only 9% of the ferritin was contained in the pellet obtained from centrifugation at 500 g. The pellet from the second centrifugation contained approximately 33% of the iron and 5% of the ferritin. The supernatant resulting from the second centrifugation contained 25% of the iron and 85% of the ferritin. Cigarette smoking did not appear to alter the intracellular distribution of either iron or ferritin. The ferritin content of bronchoalveolar lavage fluid was 0.10 +/- 0.04 micrograms/mg and 0.90 +/- 0.18 micrograms/mg albumin for nonsmokers and smokers, respectively (p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Iron and ferritin contents and distribution in human alveolar macrophages. 337 7

The acute effects of iron therapy on zinc status during pregnancy were investigated. The 20 subjects studied were healthy and had unremarkable obstetric histories. The mean stage of gestation was 27 weeks (range 21-33 weeks). Initial hematologic indices (mean +/- SEM) were: hematocrit 36.5 +/- 0.4%, serum ferritin 32.6 +/- 6.1 ng/mL, and serum iron 117 +/- 13 micrograms/dL. Iron therapy, prescribed by the obstetric caregivers, provided a total average daily elemental iron intake of 261 mg (range 164-395 mg) from therapy and routine supplements. Laboratory studies of zinc status were obtained immediately before iron therapy and at one and four weeks thereafter. Initial plasma zinc was 62.9 +/- 2.1 micrograms/dL. A mean decline in plasma zinc of 4.0 +/- 1.8 micrograms/dL (P less than .05) was observed from baseline to one week. The decline remained statistically significant after adjustment for the expected physiologic decline over the same interval of gestation. No further decline occurred from one to four weeks. No significant treatment-related effects were observed for neutrophil zinc, mononuclear leukocyte zinc, or serum alkaline phosphatase activity. These results indicate that iron therapy in doses typically prescribed by obstetric caregivers in this country has an acute, measurable effect on maternal zinc status.
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PMID:Acute effects of iron therapy on zinc status during pregnancy. 362 28

Chronic inflammation in such diseases as rheumatoid arthritis has been associated with the accumulation of iron in mononuclear phagocytes. Cigarette smoking, which also produces chronic pulmonary inflammation, may be associated with iron accumulation in alveolar macrophages (AM). We have examined the total iron content in human AM and found it to be 43.0 +/- 7.7 (mean +/- SEM) and 12.8 +/- 1.3 nmol/1 X 10(6) cells (P less than 0.01) from smokers and nonsmokers, respectively. Because the higher iron content in smokers' macrophages may reflect increased internalization, the binding and uptake of iron-saturated transferrin was examined in cells from smokers and nonsmokers. However, no significant differences were found between the two groups. The smoking-related alteration in iron content may instead reflect differences in the fate of internalized iron. Iron internalized by AM as iron 59 initially bound to transferrin was distributed to a cytoplasmic, largely ferritin-associated, pool more slowly in smokers than in nonsmokers, during a 24-hour incubation in vitro. Significantly less newly internalized iron was returned to the culture medium by AM from smokers, which by 24 hours had released 11.0% +/- 3.7% of the initially internalized 59Fe compared with 36.0% +/- 2.3% for nonsmokers (P less than 0.01). The increased accumulation of iron by AM in the alveolar space of smokers may modulate hydroxyl radical production in the microenvironment of these cells.
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PMID:Iron binding, internalization, and fate in human alveolar macrophages. 378 29

It is not so difficult to operate on the hydrosalpinx with macrosurgical or microsurgical methods, but difficult to initiate pregnancy after the operation because little is known about the post-operative condition of the hydrosalpinx. In this study time sequential observations of the growing experimental hydrosalpinx with the two hemoclip method was performed during morphological change using the microscope, sequential electron microscope and transmission electron microscope with cationized ferritin as an ultrastructural marker. The following results were obtained: Size of hydrosalpinx: Until 15 weeks after the operation, the hemo-clipping hydrosalpinx became longer but thereafter there was no change. The maximum diameter of the hydrosalinx became wider until 20 weeks after treatment. Peristaltic of hydrosalpinx: Tubal peristaltics were observed until 7 weeks after treatment, but not thereafter. SEM findings: Decreases in the amount of cilia started 1 week after treatment, and 7 weeks after treatment partial excoriations of epithelium were observed. 20 weeks after treatment excoriations of epithelium were observed widely. A decrease in the amount of cilia was observed but no loss was observed. The negative charges on the tubal endometrium due to TEM using cationized ferritin: The negative charges on the tubal endometrium were decreasing both on the secretory cells and ciliary cells.
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PMID:[Variations in ultrastructures and negative charges in experimental hydrosalpinx]. 379 49

One hundred twenty-four relatives (aged 17-52 years) of 35 children with severe transfusion-dependent beta thalassemia major were investigated for their beta thalassemia carrier status (determined by Hb-A2 level) and iron status (determined by serum ferritin level). Forty-eight males had beta thalassemia trait (BTT) and 18 males did not have BTT (control); 41 females had BTT and 17 females did not have BTT (control). Serum ferritin levels (mean +/- SEM) of male BTT, male control, female BTT, and female control groups were 151.0 +/- 27.4, 59.6 +/- 16.3, 120.6 +/- 36.6, and 17.2 +/- 6.1 mcg/liter respectively; the differences between the two male and the two female groups were statistically significant (p = .05 and p less than .001). Iron deficiency (serum ferritin below 10.0 mcg/liter) was present in 6.3%, 38.9%, 24.4%, and 58.8% of male BTT, male control Female BTT, and female control groups, respectively; the differences between the two male and two female groups were statistically significant (p less than .01 and p less than .01). Serum ferritin was over 1,000 mcg/liter in four individuals with BTT (2 male and 2 female). Thus, the BTT group had better iron nutrition. This may suggest that the BTT group has an advantage in maintaining iron balance.
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PMID:Iron status of beta thalassemia carriers. 381 67

Sporozoites of Eimeria tenella were incubated for 10, 20, or 30 min with parasite-specific monoclonal IgG antibody 3D3II from mice and then rinsed in a Tris-buffered glucose saline solution (TBGS). Some sporozoites were then incubated for 10, 20, or 30 min with ferritin- or colloidal gold-conjugated goat anti-mouse IgG antibody and then fixed in 2.5% glutaraldehyde and prepared for transmission (TEM) or scanning (SEM) electron microscopy. Other sporozoites that had been previously exposed to monoclonal antibody were prefixed with 0.25% glutaraldehyde, incubated with ferritin- or colloidal gold-conjugated anti-mouse IgG antibody and then fixed and prepared for TEM or SEM. Control preparations consisted of sporozoites exposed only to TBGS, monoclonal antibody 3D3II or to ferritin- or colloidal gold-conjugated anti-mouse IgG antibody. Capping of immune complexes occurred only on the surface of those sporozoites exposed to monoclonal antibody 3D3II followed by ferritin- or gold-conjugated antibody. Immune complexes moved laterally and posteriorly on the outer surface of the parasite plasma membrane to form a cap at the posterior end of the sporozoite. Capping did not occur in TBGS controls nor in sporozoites treated with monoclonal antibody 3D3II and prefixed in 0.25% glutaraldehyde before exposure to ferritin- or gold-conjugated antibody. Thus, capping of surface antigens did not occur in the presence of monoclonal 3D3II antibody only, whereas specimens exposed to both monoclonal and ferritin- or colloidal gold-conjugated antibodies were able to cap immune complexes.
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PMID:Capping of immune complexes by sporozoites of Eimeria tenella. 398 46

In six anuric haemodialysed patients, aluminium and iron mass transfer were determined 48 hours after 40 and 80mg/kg body weight desferrioxamine intravenous infusion. All patients were aluminium overloaded (mean +/- SEM: 2.91 +/- 1.05 mumol/g wet tissue bone) and two had high plasma ferritin. Haemodialysis and haemofiltration were performed using a highly permeable membrane. The adequate dose of desferrioxamine for aluminium removal is 40mg/kg, since aluminium mass transfer induced by haemodialysis and haemofiltration (47.4 and 40 mumol/session) are not significantly different from that obtained with 80mg/kg. Iron removal is dose related in high plasma ferritin concentration patients: 50 and 100 mumol/session with haemodialysis and 29 and 175 mumol/session with haemofiltration after 40 and 80mg/kg body weight respectively.
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PMID:Concomitant removal of aluminium and iron by haemodialysis and haemofiltration after desferrioxamine intravenous infusion. 399 42

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