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)

Newts (Triturus cristatus) made anemic with acetylphenylhydrazine (APH) fail to regenerate erythrocytes (RBC's) immediately and exhibit a latent period of 1.5-2 wk during which animals lack RBC's and are aplastic. With the establishment of erythroid regeneration at 10-14 days, relatively homogeneous populations of successive erythropoietic stages occur in the blood. This feature makes possible biochemical analyses of events in early, intermediate, and late developmental stages, respectively, each of which can be obtained in vivo with minimal contamination by other stages. Previous studies have described a primitive cell population referred to as "erythroid precursor cells" (EPC's) which precedes the appearance of definitive erythroid elements. The present studies show that EPC's and early erythroid cells are engaged mainly in ribosomal production, including synthesis of rRNA and ribosomal proteins. Moreover, EPC's and early erythroid cells also synthesize tRNA and a presumed Hb-mRNA which has been identified by its sedimentation rate at 9-12 s and its content of polyadenylic acid. In intermediate stages, there occurs a fourfold decrease in the level of RNA synthesis and, while rRNA continues to be formed, there is a disproportionate accumulation of the two major cytoplasmic rRNA species in favor of the large ribosomal subunit RNA. In late developmental stages, the level of RNA synthesis is markedly diminished with little or no evidence of formation of defined RNA classes. Correlated radioautographic and biochemical studies with radioactive delta-aminolevulinic acid and leucine indicate that EPC's and other early erythroid elements synthesize not only hemoglobin but also ferritin and ribosomal proteins. It is concluded that: (a) erythroid RNA synthesis is most pronounced in the early developmental stages, being manifested predominantly by rRNA production but including tRNA and Hb-mRNA; (b) intermediate developmental stages show both "ribosomal wastage" and decreased growth rate, marking a pivotal point between the transcriptional activities of early stages and translational activities of late stages; (c) EPC's represent a cell population already committed to RBC formation and are excluded from a role as the pluripotential stem cell.
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PMID:Biochemical characterization of RNA and protein synthesis in erythrocyte development. 85 32

Synthesis of the iron-storage protein ferritin is thought to be regulated at the translational level by the cytosolic content of chelatable iron. This response to iron is regulated by the iron-modulated binding to ferritin mRNAs of a repressor protein, the iron regulatory element-binding protein. From measurements made in a cell-free system, regulation of the iron regulatory element-binding protein has been recently suggested to involve direct interaction with hemin. The following observations on the synthesis of ferritin and of heme oxygenase (HO), the heme-degrading enzyme, in rat fibroblasts or hepatoma cells lead us to conclude that chelatable iron is a direct physiological regulator of ferritin synthesis in intact cells: (i) the inhibitor of heme degradation, tin mesoporphyrin IX, reduces the ability of exogenous hemin to induce ferritin synthesis but enhances HO synthesis; (ii) the iron chelator desferal suppresses the ability of hemin to induce synthesis of ferritin but not of HO; (iii) the heme synthesis inhibitor succinylacetone does not block iron induction of ferritin synthesis; (iv) there is no apparent relationship between the ability of various metalloporphyrins to inactivate the iron regulatory element-binding protein in cell-free extracts and their capacity to induce ferritin synthesis in intact cells; (v) administered inorganic iron significantly induces the synthesis of ferritin but not of HO; (vi) addition of delta-aminolevulinic acid to stimulate heme synthesis represses the ability of inorganic iron to induce ferritin synthesis while activating HO synthesis. Taken together, our results demonstrate that (i) release of iron by HO plays an essential role in the induction of ferritin synthesis by heme and (ii) chelatable iron can regulate ferritin synthesis independently of heme formation.
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PMID:Regulation of ferritin and heme oxygenase synthesis in rat fibroblasts by different forms of iron. 199 60

5-Aminolevulinate synthase (ALAS) catalyzes the first step of the heme biosynthetic pathway. cDNA clones for the human erythroid ALAS isozyme were isolated from a fetal liver library. It can be deduced that the erythroid ALAS precursor protein has a molecular weight of 64.6 kd, and is similar in size to the previously isolated human housekeeping ALAS precursor of molecular weight 70.6 kd. The mature mitochondrial forms of the erythroid and housekeeping ALAS isozymes are predicted to have molecular weights of 59.5 kd and 64.6 kd, respectively. The two isozymes show little amino acid identity in their N-terminal signal sequences but have considerable sequence identity in the C-terminal two-thirds of their proteins. An analysis of the immediate promoter of the human erythroid ALAS gene revealed several putative erythroid-specific cis-acting elements including both a GATA-1 and an NF-E2 binding site. An iron-responsive element (IRE) motif has been identified in the 5'-untranslated region of the human erythroid ALAS mRNA, but is not present in the housekeeping ALAS mRNA. Gel retardation experiments established that this IRE motif formed a protein - RNA complex with cytosolic extracts from human K562 cells and this binding was strongly competed with IRE transcripts from ferritin or transferrin receptor mRNAs. A transcript of the ALAS IRE, mutated in the conserved loop of the IRE, did not readily form this protein - RNA complex. These results suggest that the IRE motif in the ALAS mRNA is functional and imply that translation of the mRNA is controlled by cellular iron availability during erythropoiesis.
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PMID:Human erythroid 5-aminolevulinate synthase: promoter analysis and identification of an iron-responsive element in the mRNA. 205 Jan 25

We have investigated the effect of succinylacetone (4,6-dioxoheptanoic acid) on hemoglobin synthesis and iron metabolism in reticulocytes. Succinylacetone, 0.1 and 1 mM, inhibited [2-14C]glycine incorporation into heme by 91.2 and 96.4%, respectively, and into globin by 85 and 90.2%, respectively. 60 microMM hemin completely prevented the inhibition of globin synthesis by succinylacetone, indicating that succinylacetone inhibits specifically the synthesis of heme. Added porphobilinogen, but not delta-aminolevulinic acid, partly overcame the inhibition of 59Fe incorporation into heme caused by succinylacetone suggesting that the drug inhibits delta-aminolevulinic acid dehydratase in reticulocytes. Succinylacetone, 10 microM 0.1 and 1 mM, inhibited 59Fe incorporation into heme by 50, 90 and 93%, respectively, but stimulated reticulocyte 59Fe uptake by about 25-30%. In succinylacetone-treated cells 59Fe accumulates in a fraction containing plasma membranes and mitochondria as well as cytosol ferritin and an unidentified low molecular weight fraction obtained by Sephacryl S-200 chromatography. Reincubation of washed succinylacetone- and 59Fe-transferrin-pretreated reticulocytes results in the transfer of 59Fe from the particulate fraction (plasma membrane plus mitochondria) into hemoglobin and this process is considerably stimulated by added protoporphyrin. Although the nature of the iron accumulated in the membrane-mitochondria fraction in succinylacetone-treated cells is unknown some of it is utilizable for hemoglobin synthesis, while cytosolic ferritin iron would appear to be mostly unavailable for incorporation into heme.
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PMID:Iron utilization in rabbit reticulocytes. A study using succinylacetone as an inhibitor or heme synthesis. 705 19

5-Aminolevulinic acid (ALA), a heme precursor accumulated in acute intermittent porphyria (AIP) and lead poisoning, undergoes metal-catalyzed oxidation in air-equilibrated solutions buffered at neutral pH, yielding free radicals (O2, HO. and ALA.). The capacity of ALA to release iron from horse spleen and rat liver ferritin in vitro and to concomitantly initiate liposome lipid peroxidation was characterized. ALA induced iron release from ferritin in normally aerated solutions, in a dose (0.05-1 mM)- and time (0-120 min)-dependent manner; no reaction occurs under nitrogen. Superoxide dismutase partially inhibited (50% at 100 U/ml) iron release by 0.5 mM ALA, whereas the addition of catalase (50 U/ml) had no effect under these conditions. In phosphatidylcholine: cardiolipin (80:20) liposomes, and in the presence of 2 microM EDTA, ALA (0.025-1 mM) per se had a subtle effect on lipid peroxidation, while after addition of ferritin (0.25 mg/ml) there was a significant increase in lipid peroxidation as evaluated by dose-dependent formation of 2-thiobarbituric-reactive substances and diene conjugation. In vivo, iron accumulation in the liver of ALA-treated rats was observed. Altogether, these data demonstrate the ability of ALA-generated free radicals to release iron from ferritin and to affect iron metabolism in vivo. ALA-mediated iron release from ferritin, therefore, may aggravate oxidative damage to cell components and contribute to the pathology observed in AIP (eg., primary liver cancer) and lead poisoning.
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PMID:5-Aminolevulinic acid induces iron release from ferritin. 784 Jun 72

Murine erythroleukemia cells rendered deficient in cAMP-dependent protein kinase (A-kinase) activity by gene transfection are severely impaired in hexamethylene bisacetamide (HMBA)-induced differentiation (Pilz, R. B., Eigenthaler, M., and Boss, G. R. (1992) J. Biol. Chem. 267, 16161-16167). We now demonstrate that the A-kinase-deficient cells produce hemoglobin normally in response to exogenous hemin and that the heme precursor delta-aminolevulinate (delta-ALA) significantly increases HMBA-induced synthesis of heme and globin chains in these cells; these data suggest that impaired heme synthesis is at least partially responsible for the cells' deficient hemoglobin synthesis. HMBA-induced expression of the erythroid-specific delta-ALA synthetase, porphobilinogen deaminase, and beta-globin mRNAs was less in A-kinase-deficient cells than in parental cells and was reduced in proportion to the cells' residual A-kinase activity; relative transcription rates of these genes were reduced concordantly. Impaired expression of these three erythroid-specific genes was a feature of many independently-derived A-kinase-deficient clones, and normal expression was found in transfectants with normal A-kinase activity. The A-kinase-deficient cells did not exhibit a generalized defect in gene regulation since mRNA expression and transcription rates of H- and L-ferritin, c-myc, c-myb, and several housekeeping enzymes were similar in HMBA-treated parental and A-kinase-deficient cells. Our data suggest that A-kinase may be involved in regulating genes with erythroid-specific promoters and provide further evidence for heme as a regulator of globin chain synthesis.
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PMID:Impaired erythroid-specific gene expression in cAMP-dependent protein kinase-deficient murine erythroleukemia cells. 837 86

To test the hypothesis that variations in H- and L-subunit composition in the ferritin shell affect intracellular iron metabolism, we established stable transfectants of mouse erythroleukemia cells overexpressing the H-ferritin subunit. Analyses were performed on individual clones of transfected cells induced to differentiate with hexamethylenbisacetamide (HMBA). The results showed that there was a reduction in the amount of hemoglobin produced, in inverse relationship with the level of H-subunit overexpression. Incorporation of [2-14C]glycine into heme was reduced by 20% t0 30% in the clones overexpressing H-ferritin subunit compared with control clone. However, the reduction in hemoglobin production was not reversed by addition of heme precursors (delta-aminolevulinic acid or iron) or by hemin itself. A reduced accumulation of beta-globin mRNA was also observed, which could account for the impaired hemoglobin synthesis. Furthermore, synthesis of the endogenous L-ferritin subunit was greatly repressed. Gel retardation assays performed on cytoplasmic extracts of transfected cells using an iron-responsive element (IRE) as a probe revealed that in overexpressing cells, the iron-regulatory protein (IRP) had a conformation with a high RNA-binding affinity, thus leading to translational repression of the endogenous L-ferritin synthesis. These data suggest that an increased formation of H-rich isoferritins leads to a rapid chelation of the regulatory iron pool. While the mechanism underlying the reduction in beta-globin mRNA remains to be elucidated, this study provides direct evidence for the role of IRP-mediated regulation of ferritin expression in erythroid cell metabolism.
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PMID:Overexpression of the ferritin H subunit in cultured erythroid cells changes the intracellular iron distribution. 863 57

Recent studies have indicated that nitric oxide may affect iron metabolism through disruption of the iron-sulfur complex of iron regulatory protein-1, a translational regulator. In the present study, we report that heterologous expression of murine macrophage nitric oxide synthase (NOS-2) in the human erythroleukemic K562 cell line results in constitutive production of nitric oxide associated with inhibition of hemoglobin expression. K562 cells were transfected with an episomally-maintained, hygromycin-selectable expression vector bearing the coding region of NOS-2. Constitutive NOS expression was detected by Western blotting of cell lysates and by the accumulation of nitrite in the culture media. Although NOS-transfected cells grew more slowly than control cells, they were able to maintain constitutive expression of NOS and production of nitric oxide for more than 1 month following transfection. The hemoglobin content of NOS-transfected K562 cells was less than one-fifth that of control cells, but increased markedly if NOS inhibitor was included in the culture media. The nitric oxide-mediated inhibition of hemoglobin expression was reversed by supplementing the culture media with 20 mumol/L hemin or 0.5 mmol/L 5-amino-levulinate, indicating that nitric oxide did not directly inhibit hemoglobin synthesis, but likely acted on a step in heme synthesis. mRNA levels for globin and erythroid aminolevulinic acid synthase (eALAS) were the same in both NOS-transfected and control cells. Our observations indicate that hemoglobin expression is inhibited by nitric oxide in NOS-transfected K562 cells by posttranscriptional repression of eALAS, the first enzyme of the heme biosynthetic pathway. The most likely mechanism is a nitric oxide-mediated translational repression of eALAS, as was recently demonstrated for ferritin synthesis. These observations further illustrate the potential for endogenously produced nitric oxide to regulate cellular posttranscriptional events. In particular, our observations may be relevant to the role of nitric oxide in anemia and lowered blood hemoglobin concentrations that are associated with chronic infections, such as tuberculosis or parasitic disease.
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PMID:Inhibition of hemoglobin expression by heterologous production of nitric oxide synthase in the K562 erythroleukemic cell line. 870 16

5-Aminolevulinic acid (ALA), a heme precursor accumulated during the clinical expression of acute intermittent porphyria, lead poisoning, and tyrosinosis, has been hypothesized to act as an endogenous source of oxyradicals. We now report oxidative effects on brain tissue of rats submitted to ALA treatment. Upon acute treatment (40 mg/kg body weight) increased total nonheme iron in the cortex (20%) was observed. After prolonged ALA administration (40 mg/kg body weight on alternate days during 2 weeks), the following indicators of oxidative stress were found to be significantly increased: CuZnSOD activity (67%) in total brain homogenate, total iron (68%) and ferritin (71%) in the cortex, ferritin in striatum (44%), protein carbonyls in homogenate of cerebral cortex (threefold) and 45Ca2+ uptake by cortical synaptosomes (45%). In addition, synaptic membranes prepared from whole brain assayed with the radioligand 3H-muscimol, revealed increased Kd values (twofold) of the high-affinity GABAergic receptor binding and formation of protein carbonyl groups, thiobarbituric acid reactive products, and conjugated dienes. In vitro, ALA produced similar effects upon the high affinity 3H-muscimol binding. No apparent alteration of either dopaminergic or serotonergic [3H]-ligand binding was observed. These results argue in favor of ALA-triggered oxidative stress in brain accompanied by iron metabolism alterations and GABAergic receptor damage, which may be implicated in the neuropsychiatric manifestations of the aforementioned porphyrias.
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PMID:The prooxidant effect of 5-aminolevulinic acid in the brain tissue of rats: implications in neuropsychiatric manifestations in porphyrias. 872 Aug 99

Heme formation in immature erythroid cells is subject to end-product negative feedback control. Although studies with immature erythroid cells obtained from animals have shown that increased intracellular hemin inhibits the acquisition of iron from transferrin, our experiments with human reticulocytes indicate that feedback inhibition of heme biosynthesis is primarily regulated at one or more steps that lead to formation of the first committed precursor, delta-aminolevulinate (ALA). To identify the site of control of heme biosynthesis in the human erythron further, region-specific antibodies to human erythroid delta-ALA synthase (e-ALA synthase) were used to immunoprecipitate newly-synthesised enzyme from human reticulocytes after biosynthetic labelling. Low concentrations of exogenous hemin (30-35 microM) inhibited the biosynthetic labelling of mature erythroid ALA synthase that was detected by exon 4 peptide-specific antibodies and antibodies raised against the entire recombinant human erythroid ALA synthase molecule. Pulse-chase experiments after biosynthetic labelling indicated no differences in the effect of hemin on the turnover of the radiolabelled enzyme and hemin did not influence the distribution of precursor froms of the ALA synthase molecule. Parallel experiments using antibodies directed against human H-chain ferritin confirmed the specificity of the effects of hemin on translation of the e-ALA synthase mRNA. At the concentrations of hemin used to inhibit heme formation from 14C-glycine, no significant effects on the rate of overall protein synthesis were observed. We conclude that heme regulates synthesis of the first committed precursor of the porphyrin biosynthetic pathway in immature human erythroid cells by effects on the synthesis of the e-ALA synthase molecule. Although the mechanism of hemin action is unknown, it is apparently independent of 5'-iron-response elements and influences the translational activity of erythroid ALA synthase mRNA.
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PMID:Translational control of erythroid delta-aminolevulinate synthase in immature human erythroid cells by heme. 907 95


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