Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We conducted a functional analysis of the promoter for the human ferritin heavy chain-encoding gene (pFERH) in HepG2 and HeLa cells. The activity of pFERH is equivalent in both cell types, despite their different ferritin (Fer) isotypes. Transfections of a series of 5'-deletion mutants indicate that pFERH activity is essentially dependent on two motifs. One of them, accounting for about 50% of the total transcriptional activity, is recognized by the RNA polymerase II transcription factor, Sp1, and the other by a low-affinity factor present in both the cell types analyzed.
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PMID:Promoter for the human ferritin heavy chain-encoding gene (FERH): structural and functional characterization. 154 3

We have used a somatic cell hybrid regional mapping panel for the short arm of chromosome 6, linkage analysis and a population study to map in detail a previously described ferritin heavy chain pseudogene sequence on chromosome 6. Our results show that this sequence maps to the short arm of chromosome 6 centromeric to the glyoxylase locus. The ferritin pseudogene locus is thus distant from the locus for the iron storage disease haemochromatosis, confirming previous evidence that this sequence is not a candidate for the haemochromatosis gene.
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PMID:Fine mapping of a human chromosome 6 ferritin heavy chain pseudogene: relevance to haemochromatosis. 175 92

In vitro translation of liver mRNA from estrogen-treated Xenopus frogs yields two abundant polypeptides in the range of 20 kDa. DNA clones for one of these translation products were isolated and shown to be complementary to mRNA for the heavy subunit of ferritin. The predicted Xenopus amino acid sequence shares about 86% identity with the ferritin heavy chain from bullfrogs and about 70% identity with the comparable mammalian and avian proteins. Clone identity was confirmed by hybridization selection followed by in vitro translation into translation products of 19.5-20 kDa. The nearly full-length cDNA clone, termed XlferH1, comprises 868 nucleotides plus 22 adenosines of the poly(A) tail, including 134 nucleotides of the 5'-untranslated region, a 528-base coding region for 176 amino acids, and a 206-nucleotide 3'-untranslated region. The clone lacks 22 nucleotides from the 5' end of the mRNA. The level of ferritin mRNA in the liver of estrogen-treated frogs was determined over time. The amount of this mRNA relative to total RNA decreased about 3-fold 14 days after estradiol-17 beta was administered. However, the hormone also elevated total RNA in the liver about 24-fold. Hence, the total ferritin mRNA content of the liver increased to about 8 times its initial amount. This pattern of gene expression was very similar to that for serum retinol binding protein. The estrogen induction of these two mRNAs appeared to parallel the overall stimulation of hepatic RNA synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Xenopus liver ferritin H subunit: cDNA sequence and mRNA production in the liver following estrogen treatment. 199 7

Recent data have shown that ferritin, a ubiquitous protein, has a role as a regulator of cellular differentiation. In the present study we have investigated the expression of ferritin mRNAs in cultured C6 cells, a rat glioma cell line, in response to insulin, which has an important role in cellular growth and differentiation. Insulin stimulated steady state levels of both ferritin heavy chain and ferritin light chain mRNAs. An increase in the level of ferritin heavy or light chain mRNA was detected after 2 h of incubation with insulin, and a plateau was reached after 48 h for heavy chain mRNA and after 72 h for light chain mRNA. The responses were dose-dependent and were maximal at 100 nM for both mRNAs. Treatment of cells with actinomycin-D showed that insulin had no effect on the posttranscriptional stability of these mRNAs. Actinomycin-D inhibited insulin-induced accumulation of both mRNAs, suggesting transcriptional stimulation of ferritin genes by insulin. A nuclear run-on assay showed that the insulin-induced increase in ferritin heavy chain mRNA was due to an increase in the rate of gene transcription. We also demonstrated that insulin-like growth factor-I (IGF-I) increased ferritin heavy and light chain mRNA levels in a dose-dependent fashion, and that the maximum effect was obtained at a concentration of 10 nM on both mRNA levels. IGF-I was not only 10-fold more potent, but the absolute level of maximum stimulation was also about 2-fold greater than that for insulin. The combination of insulin (100 nM) and IGF-I (10 nM) showed no additive effect. The results suggested that the ferritin heavy and light chain genes are transcriptionally regulated by insulin and influenced by IGF-I.
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PMID:Transcriptional regulation of ferritin messenger ribonucleic acid levels by insulin in cultured rat glioma cells. 199 66

Thyrotropin increased the steady state levels of ferritin heavy chain messenger RNA in cultured Fisher rat thyroid (FRTL5) cells by about 2.5-fold. Thyrotropin also stimulated the transcription rate of ferritin H gene determined by "nuclear run-on" assay by roughly the same extent as mRNA levels. Thyrotropin showed no effect on the stability of the ferritin heavy chain mRNA, which was suggested using actinomycin D. The results suggest that thyrotropin increases ferritin heavy chain mRNA expression in FRTL5 cells by affecting the step of transcription.
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PMID:Transcriptional regulation of messenger RNA for ferritin heavy chain by thyrotropin. 222 92

The effect of 3,5,3'-triiodo-L-thyronine (T3) on the steady state levels of ferritin heavy chain (ferritin H) mRNA in cultured rat glioma C6 cells and various rat tissues was examined. Addition of T3 to cultured C6 cells showed the time and dose-dependent increase in the steady-state level of ferritin H mRNA. In vitro nuclear run-on assay revealed that the stimulatory effect was due to the increase in the transcription rate of ferritin H gene. T3 had no effect on the half life of ferritin H mRNA. In hyperthyroid rats, the level of ferritin H mRNA in the kidney was elevated. On the contrary, that was decreased in hypothyroid rats. The results suggest the involvement of T3 in the regulation of ferritin H gene expression.
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PMID:Transcriptional regulation of ferritin heavy chain messenger RNA expression by thyroid hormone. 232 73

In studying the changes that occur in concanavalin A-activated T lymphocytes, an mRNA species was discovered by hybridization of poly(A)+ mRNA with a human ferritin heavy chain cDNA probe. This ferritin mRNA, termed superheavy chain mRNA, differed from the known human ferritin heavy chain mRNAs by its larger size and degree of homology. The superheavy chain mRNA was isolated by sucrose-gradient centrifugation and translated in vitro in a cell-free system. The products obtained included two peptides (superheavy) of 43kDa that reacted with CM-H-9, a monoclonal antibody specific for placental isoferritin. De novo synthesis in intact transformed T cells revealed the synthesis of the superheavy chain peptides that were immunoprecipitated by anti-ferritin monoclonal antibody CM-G-8 and by placental isoferritin specific monoclonal antibody CM-H-9. The above results indicated that blast transformation of human T cells stimulated the appearance of a unique mRNA species that coded for a superheavy chain peptide associated with placental isoferritin, which was not detected in resting T cells.
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PMID:T-cell mitogenesis stimulates the synthesis of a mRNA species coding for a 43-kDa peptide reactive with CM-H-9, a monoclonal antibody specific for placental isoferritin. 265 41

Ferritin heavy chain mRNA steady state levels are increased by thyrotropin both in vivo and in two independent thyroid derived permanent cell lines. Maximum induction was achieved 48 hours after thyrotropin addition in the same conditions in which all the thyroid differentiated functions were stimulated. Thyrotropin stimulation of the levels of ferritin heavy chain mRNA seems to be mediated by cyclic AMP since it mimics the hormone induction.
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PMID:TSH regulation of ferritin H chain messenger RNA levels in the rat thyroids. 282 71

A genomic phage clone containing a full-length copy of a functional human gene for ferritin heavy chain has been isolated. The gene consists of four exons spanning approximately 3 kilobases and has been localized to chromosome 11. The functionality of the gene was demonstrated by the fact that both transient transfectants and stable transformants of murine fibroblasts actively transcribe human ferritin heavy-chain mRNA.
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PMID:Cloning, characterization, expression, and chromosomal localization of a human ferritin heavy-chain gene. 302 May 41

Ferritin, a cytoplasmic protein critical in iron metabolism, displays iron-dependent regulation of its biosynthetic rate with no corresponding changes in mRNA levels. An iron-responsive element (IRE) has been identified in the 5'-untranslated region (UTR) of the human ferritin heavy chain mRNA which, when placed in the 5'-UTR of heterologous reporter genes, confers iron-dependent translational regulation to the hybrid mRNAs. However, whereas the biosynthetic rate of ferritin in response to changes in iron status exhibits a 30-80-fold range, the apparent ranges observed for reporter gene constructs utilizing chloramphenicol acetyltransferase assays or human growth hormone radioimmunoassays have been much less. A deletion and reconstitution study was undertaken to address the possibility that regions of the ferritin gene and mRNA other than the IRE may be necessary for the production of the full range of iron regulation. Data are presented that demonstrate that the IRE alone is capable of conferring iron-dependent translational regulation of biosynthesis to downstream encoded proteins that is both qualitatively and quantitatively similar to that observed with expression of ferritin itself. Thus, the complete range of iron-dependent translational regulation conferred by the IRE occurs independently of the presence of the ferritin promoter, other regions of the ferritin 5'-UTR, the ferritin coding region, and the ferritin 3'-UTR. Additionally, experiments addressing the translatability in vivo of various ferritin construct mRNAs support the theory that the IRE functions as the binding site for a translational repressor.
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PMID:The iron-responsive element is the single element responsible for iron-dependent translational regulation of ferritin biosynthesis. Evidence for function as the binding site for a translational repressor. 319 10


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